id	sid	tid	token	lemma	pos
work_kkta46aprvda3kxuww62zfddua	1	1	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	1	2	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	1	3	from	from	IN
work_kkta46aprvda3kxuww62zfddua	1	4	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	1	5	:	:	:
work_kkta46aprvda3kxuww62zfddua	1	6	The	the	DT
work_kkta46aprvda3kxuww62zfddua	1	7	beauty	beauty	NN
work_kkta46aprvda3kxuww62zfddua	1	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	1	9	a	a	DT
work_kkta46aprvda3kxuww62zfddua	1	10	molecular	molecular	JJ
work_kkta46aprvda3kxuww62zfddua	1	11	motor	motor	NN
work_kkta46aprvda3kxuww62zfddua	1	12	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	1	13	et	et	FW
work_kkta46aprvda3kxuww62zfddua	1	14	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	1	15	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	1	16	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	1	17	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	1	18	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	1	19	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	1	20	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	1	21	Contents	Contents	NNP
work_kkta46aprvda3kxuww62zfddua	1	22	lists	list	NNS
work_kkta46aprvda3kxuww62zfddua	1	23	available	available	JJ
work_kkta46aprvda3kxuww62zfddua	1	24	at	at	IN
work_kkta46aprvda3kxuww62zfddua	1	25	ScienceDirect	ScienceDirect	NNP
work_kkta46aprvda3kxuww62zfddua	1	26	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	1	27	et	et	FW
work_kkta46aprvda3kxuww62zfddua	1	28	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	1	29	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	1	30	journal	journal	NNP
work_kkta46aprvda3kxuww62zfddua	1	31	homepage	homepage	NN
work_kkta46aprvda3kxuww62zfddua	1	32	:	:	:
work_kkta46aprvda3kxuww62zfddua	1	33	www.elsevier.com/locate/bbabio	www.elsevier.com/locate/bbabio	``
work_kkta46aprvda3kxuww62zfddua	1	34	Review	Review	NNP
work_kkta46aprvda3kxuww62zfddua	1	35	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	1	36	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	1	37	from	from	IN
work_kkta46aprvda3kxuww62zfddua	1	38	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	1	39	:	:	:
work_kkta46aprvda3kxuww62zfddua	1	40	The	the	DT
work_kkta46aprvda3kxuww62zfddua	1	41	beauty	beauty	NN
work_kkta46aprvda3kxuww62zfddua	1	42	of	of	IN
work_kkta46aprvda3kxuww62zfddua	1	43	a	a	DT
work_kkta46aprvda3kxuww62zfddua	1	44	molecular	molecular	JJ
work_kkta46aprvda3kxuww62zfddua	1	45	motor	motor	NN
work_kkta46aprvda3kxuww62zfddua	1	46	Gerhard	Gerhard	NNP
work_kkta46aprvda3kxuww62zfddua	1	47	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	1	48	a,⁎	a,⁎	NNP
work_kkta46aprvda3kxuww62zfddua	1	49	,	,	,
work_kkta46aprvda3kxuww62zfddua	1	50	Malathy	Malathy	NNP
work_kkta46aprvda3kxuww62zfddua	1	51	Sony	Sony	NNP
work_kkta46aprvda3kxuww62zfddua	1	52	Subramanian	Subramanian	NNP
work_kkta46aprvda3kxuww62zfddua	1	53	Manimekalai	Manimekalai	NNP
work_kkta46aprvda3kxuww62zfddua	1	54	a	a	DT
work_kkta46aprvda3kxuww62zfddua	1	55	,	,	,
work_kkta46aprvda3kxuww62zfddua	1	56	Florian	Florian	NNP
work_kkta46aprvda3kxuww62zfddua	1	57	Mayer	Mayer	NNP
work_kkta46aprvda3kxuww62zfddua	1	58	b	b	NNP
work_kkta46aprvda3kxuww62zfddua	1	59	,	,	,
work_kkta46aprvda3kxuww62zfddua	1	60	Volker	Volker	NNP
work_kkta46aprvda3kxuww62zfddua	1	61	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	1	62	b,⁎	b,⁎	NNP
work_kkta46aprvda3kxuww62zfddua	1	63	a	a	DT
work_kkta46aprvda3kxuww62zfddua	1	64	School	School	NNP
work_kkta46aprvda3kxuww62zfddua	1	65	of	of	IN
work_kkta46aprvda3kxuww62zfddua	1	66	Biological	Biological	NNP
work_kkta46aprvda3kxuww62zfddua	1	67	Sciences	Sciences	NNPS
work_kkta46aprvda3kxuww62zfddua	1	68	,	,	,
work_kkta46aprvda3kxuww62zfddua	1	69	Nanyang	Nanyang	NNP
work_kkta46aprvda3kxuww62zfddua	1	70	Technological	Technological	NNP
work_kkta46aprvda3kxuww62zfddua	1	71	University	University	NNP
work_kkta46aprvda3kxuww62zfddua	1	72	,	,	,
work_kkta46aprvda3kxuww62zfddua	1	73	60	60	CD
work_kkta46aprvda3kxuww62zfddua	1	74	Nanyang	Nanyang	NNP
work_kkta46aprvda3kxuww62zfddua	1	75	Drive	Drive	NNP
work_kkta46aprvda3kxuww62zfddua	1	76	,	,	,
work_kkta46aprvda3kxuww62zfddua	1	77	Singapore	Singapore	NNP
work_kkta46aprvda3kxuww62zfddua	1	78	637551	637551	CD
work_kkta46aprvda3kxuww62zfddua	1	79	,	,	,
work_kkta46aprvda3kxuww62zfddua	1	80	Republic	Republic	NNP
work_kkta46aprvda3kxuww62zfddua	1	81	of	of	IN
work_kkta46aprvda3kxuww62zfddua	1	82	Singapore	Singapore	NNP
work_kkta46aprvda3kxuww62zfddua	1	83	b	b	NNP
work_kkta46aprvda3kxuww62zfddua	1	84	Molecular	Molecular	NNP
work_kkta46aprvda3kxuww62zfddua	1	85	Microbiology	Microbiology	NNP
work_kkta46aprvda3kxuww62zfddua	1	86	&	&	CC
work_kkta46aprvda3kxuww62zfddua	1	87	Bioenergetics	Bioenergetics	NNP
work_kkta46aprvda3kxuww62zfddua	1	88	,	,	,
work_kkta46aprvda3kxuww62zfddua	1	89	Institute	Institute	NNP
work_kkta46aprvda3kxuww62zfddua	1	90	of	of	IN
work_kkta46aprvda3kxuww62zfddua	1	91	Molecular	Molecular	NNP
work_kkta46aprvda3kxuww62zfddua	1	92	Biosciences	Biosciences	NNPS
work_kkta46aprvda3kxuww62zfddua	1	93	,	,	,
work_kkta46aprvda3kxuww62zfddua	1	94	Johann	Johann	NNP
work_kkta46aprvda3kxuww62zfddua	1	95	Wolfgang	Wolfgang	NNP
work_kkta46aprvda3kxuww62zfddua	1	96	Goethe	Goethe	NNP
work_kkta46aprvda3kxuww62zfddua	1	97	University	University	NNP
work_kkta46aprvda3kxuww62zfddua	1	98	Frankfurt	Frankfurt	NNP
work_kkta46aprvda3kxuww62zfddua	1	99	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	1	100	Main	Main	NNP
work_kkta46aprvda3kxuww62zfddua	1	101	,	,	,
work_kkta46aprvda3kxuww62zfddua	1	102	Max	Max	NNP
work_kkta46aprvda3kxuww62zfddua	1	103	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	1	104	von	von	NNP
work_kkta46aprvda3kxuww62zfddua	1	105	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	1	106	Laue	Laue	NNP
work_kkta46aprvda3kxuww62zfddua	1	107	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	1	108	Str	Str	NNP
work_kkta46aprvda3kxuww62zfddua	1	109	.	.	.
work_kkta46aprvda3kxuww62zfddua	2	1	9	9	CD
work_kkta46aprvda3kxuww62zfddua	2	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	2	3	60438	60438	CD
work_kkta46aprvda3kxuww62zfddua	2	4	Frankfurt	Frankfurt	NNP
work_kkta46aprvda3kxuww62zfddua	2	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	2	6	Germany	Germany	NNP
work_kkta46aprvda3kxuww62zfddua	2	7	⁎	⁎	VBP
work_kkta46aprvda3kxuww62zfddua	2	8	Correspondence	Correspondence	NNP
work_kkta46aprvda3kxuww62zfddua	2	9	to	to	TO
work_kkta46aprvda3kxuww62zfddua	2	10	:	:	:
work_kkta46aprvda3kxuww62zfddua	2	11	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	2	12	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	2	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	2	14	School	School	NNP
work_kkta46aprvda3kxuww62zfddua	2	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	2	16	Biological	Biological	NNP
work_kkta46aprvda3kxuww62zfddua	2	17	Sc	Sc	NNP
work_kkta46aprvda3kxuww62zfddua	2	18	University	University	NNP
work_kkta46aprvda3kxuww62zfddua	2	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	2	20	Singapore	Singapore	NNP
work_kkta46aprvda3kxuww62zfddua	2	21	637551	637551	CD
work_kkta46aprvda3kxuww62zfddua	2	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	2	23	Republic	Republic	NNP
work_kkta46aprvda3kxuww62zfddua	2	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	2	25	Singapore	Singapore	NNP
work_kkta46aprvda3kxuww62zfddua	2	26	.	.	.
work_kkta46aprvda3kxuww62zfddua	3	1	T	T	NNP
work_kkta46aprvda3kxuww62zfddua	3	2	6791	6791	CD
work_kkta46aprvda3kxuww62zfddua	3	3	3856	3856	CD
work_kkta46aprvda3kxuww62zfddua	3	4	and	and	CC
work_kkta46aprvda3kxuww62zfddua	3	5	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	3	6	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	3	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	3	8	Molecular	Molecular	NNP
work_kkta46aprvda3kxuww62zfddua	3	9	Microbiology	Microbiology	NNP
work_kkta46aprvda3kxuww62zfddua	3	10	&	&	CC
work_kkta46aprvda3kxuww62zfddua	3	11	Bioen	Bioen	NNP
work_kkta46aprvda3kxuww62zfddua	3	12	Biosciences	Biosciences	NNPS
work_kkta46aprvda3kxuww62zfddua	3	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	3	14	Johann	Johann	NNP
work_kkta46aprvda3kxuww62zfddua	3	15	Wolfgang	Wolfgang	NNP
work_kkta46aprvda3kxuww62zfddua	3	16	Goethe	Goethe	NNP
work_kkta46aprvda3kxuww62zfddua	3	17	University	University	NNP
work_kkta46aprvda3kxuww62zfddua	3	18	Frankf	Frankf	NNP
work_kkta46aprvda3kxuww62zfddua	3	19	60438	60438	CD
work_kkta46aprvda3kxuww62zfddua	3	20	Frankfurt	Frankfurt	NNP
work_kkta46aprvda3kxuww62zfddua	3	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	3	22	Germany	Germany	NNP
work_kkta46aprvda3kxuww62zfddua	3	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	4	1	Tel	tel	NN
work_kkta46aprvda3kxuww62zfddua	4	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	5	1	:	:	:
work_kkta46aprvda3kxuww62zfddua	5	2	+49	+49	NNP
work_kkta46aprvda3kxuww62zfddua	5	3	69	69	CD
work_kkta46aprvda3kxuww62zfddua	5	4	79829507	79829507	CD
work_kkta46aprvda3kxuww62zfddua	5	5	;	;	:
work_kkta46aprvda3kxuww62zfddua	5	6	fax	fax	NN
work_kkta46aprvda3kxuww62zfddua	5	7	:	:	:
work_kkta46aprvda3kxuww62zfddua	5	8	+	+	SYM
work_kkta46aprvda3kxuww62zfddua	5	9	E	e	NN
work_kkta46aprvda3kxuww62zfddua	5	10	-	-	NN
work_kkta46aprvda3kxuww62zfddua	5	11	mail	mail	NN
work_kkta46aprvda3kxuww62zfddua	5	12	addresses	address	NNS
work_kkta46aprvda3kxuww62zfddua	5	13	:	:	:
work_kkta46aprvda3kxuww62zfddua	5	14	ggrueber@ntu.edu.sg	ggrueber@ntu.edu.sg	NNP
work_kkta46aprvda3kxuww62zfddua	5	15	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	5	16	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	5	17	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	5	18	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	5	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	5	20	v	v	NNP
work_kkta46aprvda3kxuww62zfddua	5	21	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	5	22	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	5	23	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	5	24	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	5	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	6	1	http://dx.doi.org/10.1016/j.bbabio.2014.03.004	http://dx.doi.org/10.1016/j.bbabio.2014.03.004	NNP
work_kkta46aprvda3kxuww62zfddua	6	2	0005	0005	CD
work_kkta46aprvda3kxuww62zfddua	6	3	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	6	4	2728/	2728/	CD
work_kkta46aprvda3kxuww62zfddua	6	5	©	©	CD
work_kkta46aprvda3kxuww62zfddua	6	6	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	6	7	Elsevier	Elsevier	NNP
work_kkta46aprvda3kxuww62zfddua	6	8	B.V.	B.V.	NNP
work_kkta46aprvda3kxuww62zfddua	6	9	All	all	DT
work_kkta46aprvda3kxuww62zfddua	6	10	rights	right	NNS
work_kkta46aprvda3kxuww62zfddua	6	11	reserved	reserve	VBN
work_kkta46aprvda3kxuww62zfddua	6	12	.	.	.
work_kkta46aprvda3kxuww62zfddua	7	1	a	a	DT
work_kkta46aprvda3kxuww62zfddua	7	2	b	b	NNP
work_kkta46aprvda3kxuww62zfddua	7	3	s	s	NNP
work_kkta46aprvda3kxuww62zfddua	7	4	t	t	NNP
work_kkta46aprvda3kxuww62zfddua	7	5	r	r	NNP
work_kkta46aprvda3kxuww62zfddua	7	6	a	a	NNP
work_kkta46aprvda3kxuww62zfddua	7	7	c	c	NN
work_kkta46aprvda3kxuww62zfddua	7	8	t	t	NN
work_kkta46aprvda3kxuww62zfddua	7	9	a	a	NN
work_kkta46aprvda3kxuww62zfddua	7	10	r	r	NN
work_kkta46aprvda3kxuww62zfddua	7	11	t	t	NN
work_kkta46aprvda3kxuww62zfddua	7	12	i	i	NN
work_kkta46aprvda3kxuww62zfddua	7	13	c	c	NN
work_kkta46aprvda3kxuww62zfddua	7	14	l	l	NN
work_kkta46aprvda3kxuww62zfddua	7	15	e	e	NNP
work_kkta46aprvda3kxuww62zfddua	7	16	i	i	NNP
work_kkta46aprvda3kxuww62zfddua	7	17	n	n	CC
work_kkta46aprvda3kxuww62zfddua	7	18	f	f	NNP
work_kkta46aprvda3kxuww62zfddua	7	19	o	o	XX
work_kkta46aprvda3kxuww62zfddua	7	20	Article	article	NN
work_kkta46aprvda3kxuww62zfddua	7	21	history	history	NN
work_kkta46aprvda3kxuww62zfddua	7	22	:	:	:
work_kkta46aprvda3kxuww62zfddua	7	23	Received	receive	VBN
work_kkta46aprvda3kxuww62zfddua	7	24	13	13	CD
work_kkta46aprvda3kxuww62zfddua	7	25	November	November	NNP
work_kkta46aprvda3kxuww62zfddua	7	26	2013	2013	CD
work_kkta46aprvda3kxuww62zfddua	7	27	Received	receive	VBD
work_kkta46aprvda3kxuww62zfddua	7	28	in	in	IN
work_kkta46aprvda3kxuww62zfddua	7	29	revised	revise	VBN
work_kkta46aprvda3kxuww62zfddua	7	30	form	form	NN
work_kkta46aprvda3kxuww62zfddua	7	31	7	7	CD
work_kkta46aprvda3kxuww62zfddua	7	32	March	March	NNP
work_kkta46aprvda3kxuww62zfddua	7	33	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	7	34	Accepted	accept	VBD
work_kkta46aprvda3kxuww62zfddua	7	35	11	11	CD
work_kkta46aprvda3kxuww62zfddua	7	36	March	March	NNP
work_kkta46aprvda3kxuww62zfddua	7	37	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	7	38	Available	available	JJ
work_kkta46aprvda3kxuww62zfddua	7	39	online	online	JJ
work_kkta46aprvda3kxuww62zfddua	7	40	17	17	CD
work_kkta46aprvda3kxuww62zfddua	7	41	March	March	NNP
work_kkta46aprvda3kxuww62zfddua	7	42	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	7	43	Keywords	Keywords	NNPS
work_kkta46aprvda3kxuww62zfddua	7	44	:	:	:
work_kkta46aprvda3kxuww62zfddua	7	45	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	7	46	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	7	47	bioenergetics	bioenergetic	NNS
work_kkta46aprvda3kxuww62zfddua	7	48	Energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	7	49	conservation	conservation	NN
work_kkta46aprvda3kxuww62zfddua	7	50	Methanogenesis	Methanogenesis	NNP
work_kkta46aprvda3kxuww62zfddua	7	51	Rotary	Rotary	NNP
work_kkta46aprvda3kxuww62zfddua	7	52	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	7	53	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	7	54	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	7	55	Archaea	Archaea	NNP
work_kkta46aprvda3kxuww62zfddua	7	56	live	live	VB
work_kkta46aprvda3kxuww62zfddua	7	57	under	under	IN
work_kkta46aprvda3kxuww62zfddua	7	58	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	7	59	environmental	environmental	JJ
work_kkta46aprvda3kxuww62zfddua	7	60	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	7	61	,	,	,
work_kkta46aprvda3kxuww62zfddua	7	62	such	such	JJ
work_kkta46aprvda3kxuww62zfddua	7	63	as	as	IN
work_kkta46aprvda3kxuww62zfddua	7	64	high	high	JJ
work_kkta46aprvda3kxuww62zfddua	7	65	salinity	salinity	NN
work_kkta46aprvda3kxuww62zfddua	7	66	,	,	,
work_kkta46aprvda3kxuww62zfddua	7	67	extreme	extreme	JJ
work_kkta46aprvda3kxuww62zfddua	7	68	pHs	ph	NNS
work_kkta46aprvda3kxuww62zfddua	7	69	and	and	CC
work_kkta46aprvda3kxuww62zfddua	7	70	cold	cold	JJ
work_kkta46aprvda3kxuww62zfddua	7	71	or	or	CC
work_kkta46aprvda3kxuww62zfddua	7	72	hot	hot	JJ
work_kkta46aprvda3kxuww62zfddua	7	73	tem-	tem-	NN
work_kkta46aprvda3kxuww62zfddua	7	74	peratures	perature	NNS
work_kkta46aprvda3kxuww62zfddua	7	75	.	.	.
work_kkta46aprvda3kxuww62zfddua	8	1	How	how	WRB
work_kkta46aprvda3kxuww62zfddua	8	2	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	8	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	8	4	conserved	conserve	VBN
work_kkta46aprvda3kxuww62zfddua	8	5	under	under	IN
work_kkta46aprvda3kxuww62zfddua	8	6	such	such	JJ
work_kkta46aprvda3kxuww62zfddua	8	7	harsh	harsh	JJ
work_kkta46aprvda3kxuww62zfddua	8	8	environmental	environmental	JJ
work_kkta46aprvda3kxuww62zfddua	8	9	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	8	10	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	8	11	a	a	DT
work_kkta46aprvda3kxuww62zfddua	8	12	major	major	JJ
work_kkta46aprvda3kxuww62zfddua	8	13	question	question	NN
work_kkta46aprvda3kxuww62zfddua	8	14	in	in	IN
work_kkta46aprvda3kxuww62zfddua	8	15	cellular	cellular	JJ
work_kkta46aprvda3kxuww62zfddua	8	16	bioenergetics	bioenergetic	NNS
work_kkta46aprvda3kxuww62zfddua	8	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	8	18	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	8	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	9	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	9	2	key	key	JJ
work_kkta46aprvda3kxuww62zfddua	9	3	enzymes	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	9	4	in	in	IN
work_kkta46aprvda3kxuww62zfddua	9	5	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	9	6	conservation	conservation	NN
work_kkta46aprvda3kxuww62zfddua	9	7	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	9	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	9	9	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	9	10	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	9	11	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	9	12	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	9	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	9	14	a	a	DT
work_kkta46aprvda3kxuww62zfddua	9	15	class	class	NN
work_kkta46aprvda3kxuww62zfddua	9	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	9	17	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	9	18	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	9	19	distinct	distinct	JJ
work_kkta46aprvda3kxuww62zfddua	9	20	from	from	IN
work_kkta46aprvda3kxuww62zfddua	9	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	9	22	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	9	23	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	9	24	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	9	25	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	9	26	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	9	27	found	find	VBD
work_kkta46aprvda3kxuww62zfddua	9	28	in	in	IN
work_kkta46aprvda3kxuww62zfddua	9	29	bacteria	bacteria	NNS
work_kkta46aprvda3kxuww62zfddua	9	30	,	,	,
work_kkta46aprvda3kxuww62zfddua	9	31	mitochondria	mitochondrion	NNS
work_kkta46aprvda3kxuww62zfddua	9	32	and	and	CC
work_kkta46aprvda3kxuww62zfddua	9	33	chloro-	chloro-	NN
work_kkta46aprvda3kxuww62zfddua	9	34	plasts	plast	NNS
work_kkta46aprvda3kxuww62zfddua	9	35	and	and	CC
work_kkta46aprvda3kxuww62zfddua	9	36	the	the	DT
work_kkta46aprvda3kxuww62zfddua	9	37	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	9	38	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	9	39	of	of	IN
work_kkta46aprvda3kxuww62zfddua	9	40	eukaryotes	eukaryote	NNS
work_kkta46aprvda3kxuww62zfddua	9	41	.	.	.
work_kkta46aprvda3kxuww62zfddua	10	1	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	10	2	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	10	3	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	10	4	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	10	5	distinct	distinct	JJ
work_kkta46aprvda3kxuww62zfddua	10	6	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	10	7	features	feature	NNS
work_kkta46aprvda3kxuww62zfddua	10	8	such	such	JJ
work_kkta46aprvda3kxuww62zfddua	10	9	as	as	IN
work_kkta46aprvda3kxuww62zfddua	10	10	a	a	DT
work_kkta46aprvda3kxuww62zfddua	10	11	collar-	collar-	NN
work_kkta46aprvda3kxuww62zfddua	10	12	like	like	IN
work_kkta46aprvda3kxuww62zfddua	10	13	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	10	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	10	15	an	an	DT
work_kkta46aprvda3kxuww62zfddua	10	16	extended	extended	JJ
work_kkta46aprvda3kxuww62zfddua	10	17	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	10	18	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	10	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	10	20	and	and	CC
work_kkta46aprvda3kxuww62zfddua	10	21	two	two	CD
work_kkta46aprvda3kxuww62zfddua	10	22	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	10	23	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	10	24	possibly	possibly	RB
work_kkta46aprvda3kxuww62zfddua	10	25	stabilizing	stabilize	VBG
work_kkta46aprvda3kxuww62zfddua	10	26	the	the	DT
work_kkta46aprvda3kxuww62zfddua	10	27	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	10	28	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	10	29	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	10	30	dur-	dur-	VBZ
work_kkta46aprvda3kxuww62zfddua	10	31	ing	e	VBG
work_kkta46aprvda3kxuww62zfddua	10	32	rotation	rotation	NN
work_kkta46aprvda3kxuww62zfddua	10	33	in	in	IN
work_kkta46aprvda3kxuww62zfddua	10	34	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	10	35	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	10	36	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	10	37	hydrolysis	hydrolysis	NN
work_kkta46aprvda3kxuww62zfddua	10	38	at	at	IN
work_kkta46aprvda3kxuww62zfddua	10	39	high	high	JJ
work_kkta46aprvda3kxuww62zfddua	10	40	temperatures	temperature	NNS
work_kkta46aprvda3kxuww62zfddua	10	41	as	as	RB
work_kkta46aprvda3kxuww62zfddua	10	42	well	well	RB
work_kkta46aprvda3kxuww62zfddua	10	43	as	as	IN
work_kkta46aprvda3kxuww62zfddua	10	44	to	to	TO
work_kkta46aprvda3kxuww62zfddua	10	45	provide	provide	VB
work_kkta46aprvda3kxuww62zfddua	10	46	the	the	DT
work_kkta46aprvda3kxuww62zfddua	10	47	storage	storage	NN
work_kkta46aprvda3kxuww62zfddua	10	48	of	of	IN
work_kkta46aprvda3kxuww62zfddua	10	49	transient	transient	JJ
work_kkta46aprvda3kxuww62zfddua	10	50	elastic	elastic	JJ
work_kkta46aprvda3kxuww62zfddua	10	51	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	10	52	during	during	IN
work_kkta46aprvda3kxuww62zfddua	10	53	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	10	54	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	10	55	pumping	pumping	NN
work_kkta46aprvda3kxuww62zfddua	10	56	and	and	CC
work_kkta46aprvda3kxuww62zfddua	10	57	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	10	58	synthesis/-hydrolysis	synthesis/-hydrolysis	NN
work_kkta46aprvda3kxuww62zfddua	10	59	.	.	.
work_kkta46aprvda3kxuww62zfddua	11	1	High	high	JJ
work_kkta46aprvda3kxuww62zfddua	11	2	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	11	3	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	11	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	11	5	individual	individual	JJ
work_kkta46aprvda3kxuww62zfddua	11	6	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	11	7	and	and	CC
work_kkta46aprvda3kxuww62zfddua	11	8	subcomplexes	subcomplexe	NNS
work_kkta46aprvda3kxuww62zfddua	11	9	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	11	10	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	11	11	obtained	obtain	VBN
work_kkta46aprvda3kxuww62zfddua	11	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	11	13	recent	recent	JJ
work_kkta46aprvda3kxuww62zfddua	11	14	years	year	NNS
work_kkta46aprvda3kxuww62zfddua	11	15	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	11	16	shed	shed	VBD
work_kkta46aprvda3kxuww62zfddua	11	17	new	new	JJ
work_kkta46aprvda3kxuww62zfddua	11	18	light	light	NN
work_kkta46aprvda3kxuww62zfddua	11	19	on	on	IN
work_kkta46aprvda3kxuww62zfddua	11	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	11	21	function	function	NN
work_kkta46aprvda3kxuww62zfddua	11	22	and	and	CC
work_kkta46aprvda3kxuww62zfddua	11	23	mechanism	mechanism	NN
work_kkta46aprvda3kxuww62zfddua	11	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	11	25	this	this	DT
work_kkta46aprvda3kxuww62zfddua	11	26	unique	unique	JJ
work_kkta46aprvda3kxuww62zfddua	11	27	class	class	NN
work_kkta46aprvda3kxuww62zfddua	11	28	of	of	IN
work_kkta46aprvda3kxuww62zfddua	11	29	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	11	30	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	11	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	12	1	An	an	DT
work_kkta46aprvda3kxuww62zfddua	12	2	outstanding	outstanding	JJ
work_kkta46aprvda3kxuww62zfddua	12	3	feature	feature	NN
work_kkta46aprvda3kxuww62zfddua	12	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	12	5	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	12	6	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	12	7	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	12	8	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	12	9	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	12	10	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	12	11	diversity	diversity	NN
work_kkta46aprvda3kxuww62zfddua	12	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	12	13	size	size	NN
work_kkta46aprvda3kxuww62zfddua	12	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	12	15	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	12	16	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	12	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	12	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	12	19	coupling	coupling	NN
work_kkta46aprvda3kxuww62zfddua	12	20	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	12	21	used	use	VBN
work_kkta46aprvda3kxuww62zfddua	12	22	for	for	IN
work_kkta46aprvda3kxuww62zfddua	12	23	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	12	24	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	12	25	with	with	IN
work_kkta46aprvda3kxuww62zfddua	12	26	H+	H+	NNP
work_kkta46aprvda3kxuww62zfddua	12	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	12	28	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	12	29	or	or	CC
work_kkta46aprvda3kxuww62zfddua	12	30	even	even	RB
work_kkta46aprvda3kxuww62zfddua	12	31	H+	h+	ADD
work_kkta46aprvda3kxuww62zfddua	12	32	and	and	CC
work_kkta46aprvda3kxuww62zfddua	12	33	Na+	na+	RB
work_kkta46aprvda3kxuww62zfddua	12	34	using	use	VBG
work_kkta46aprvda3kxuww62zfddua	12	35	enzymes	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	12	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	13	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	13	2	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	13	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	13	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	13	5	H+	h+	RBS
work_kkta46aprvda3kxuww62zfddua	13	6	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	13	7	site	site	NN
work_kkta46aprvda3kxuww62zfddua	13	8	to	to	IN
work_kkta46aprvda3kxuww62zfddua	13	9	a	a	DT
work_kkta46aprvda3kxuww62zfddua	13	10	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	13	11	binding	binding	JJ
work_kkta46aprvda3kxuww62zfddua	13	12	site	site	NN
work_kkta46aprvda3kxuww62zfddua	13	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	13	14	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	13	15	implications	implication	NNS
work_kkta46aprvda3kxuww62zfddua	13	16	for	for	IN
work_kkta46aprvda3kxuww62zfddua	13	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	13	18	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	13	19	metabolism	metabolism	NN
work_kkta46aprvda3kxuww62zfddua	13	20	and	and	CC
work_kkta46aprvda3kxuww62zfddua	13	21	physiology	physiology	NN
work_kkta46aprvda3kxuww62zfddua	13	22	of	of	IN
work_kkta46aprvda3kxuww62zfddua	13	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	13	24	cell	cell	NN
work_kkta46aprvda3kxuww62zfddua	13	25	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	13	26	discussed	discuss	VBN
work_kkta46aprvda3kxuww62zfddua	13	27	.	.	.
work_kkta46aprvda3kxuww62zfddua	14	1	©	©	LS
work_kkta46aprvda3kxuww62zfddua	14	2	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	14	3	Elsevier	Elsevier	NNP
work_kkta46aprvda3kxuww62zfddua	14	4	B.V.	B.V.	NNP
work_kkta46aprvda3kxuww62zfddua	14	5	All	all	DT
work_kkta46aprvda3kxuww62zfddua	14	6	rights	right	NNS
work_kkta46aprvda3kxuww62zfddua	14	7	reserved	reserve	VBN
work_kkta46aprvda3kxuww62zfddua	14	8	.	.	.
work_kkta46aprvda3kxuww62zfddua	15	1	1	1	LS
work_kkta46aprvda3kxuww62zfddua	15	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	16	1	Introduction	introduction	NN
work_kkta46aprvda3kxuww62zfddua	16	2	Life	Life	NNP
work_kkta46aprvda3kxuww62zfddua	16	3	under	under	IN
work_kkta46aprvda3kxuww62zfddua	16	4	extreme	extreme	JJ
work_kkta46aprvda3kxuww62zfddua	16	5	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	16	6	—	—	:
work_kkta46aprvda3kxuww62zfddua	16	7	some	some	DT
work_kkta46aprvda3kxuww62zfddua	16	8	like	like	VBP
work_kkta46aprvda3kxuww62zfddua	16	9	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	16	10	salty	salty	JJ
work_kkta46aprvda3kxuww62zfddua	16	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	16	12	some	some	DT
work_kkta46aprvda3kxuww62zfddua	16	13	acidic	acidic	JJ
work_kkta46aprvda3kxuww62zfddua	16	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	16	15	some	some	DT
work_kkta46aprvda3kxuww62zfddua	16	16	cold	cold	JJ
work_kkta46aprvda3kxuww62zfddua	16	17	or	or	CC
work_kkta46aprvda3kxuww62zfddua	16	18	hot	hot	JJ
work_kkta46aprvda3kxuww62zfddua	16	19	!	!	.
work_kkta46aprvda3kxuww62zfddua	17	1	Adaptation	adaptation	NN
work_kkta46aprvda3kxuww62zfddua	17	2	of	of	IN
work_kkta46aprvda3kxuww62zfddua	17	3	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	17	4	to	to	IN
work_kkta46aprvda3kxuww62zfddua	17	5	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	17	6	environmental	environmental	JJ
work_kkta46aprvda3kxuww62zfddua	17	7	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	17	8	requires	require	VBZ
work_kkta46aprvda3kxuww62zfddua	17	9	special	special	JJ
work_kkta46aprvda3kxuww62zfddua	17	10	cellular	cellular	JJ
work_kkta46aprvda3kxuww62zfddua	17	11	adaptation	adaptation	NN
work_kkta46aprvda3kxuww62zfddua	17	12	mechanisms	mechanism	NNS
work_kkta46aprvda3kxuww62zfddua	17	13	to	to	TO
work_kkta46aprvda3kxuww62zfddua	17	14	confer	confer	VB
work_kkta46aprvda3kxuww62zfddua	17	15	life	life	NN
work_kkta46aprvda3kxuww62zfddua	17	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	17	17	stabil-	stabil-	JJ
work_kkta46aprvda3kxuww62zfddua	17	18	ity	ity	NN
work_kkta46aprvda3kxuww62zfddua	17	19	of	of	IN
work_kkta46aprvda3kxuww62zfddua	17	20	proteins	protein	NNS
work_kkta46aprvda3kxuww62zfddua	17	21	at	at	IN
work_kkta46aprvda3kxuww62zfddua	17	22	temperatures	temperature	NNS
work_kkta46aprvda3kxuww62zfddua	17	23	at	at	IN
work_kkta46aprvda3kxuww62zfddua	17	24	or	or	CC
work_kkta46aprvda3kxuww62zfddua	17	25	above	above	IN
work_kkta46aprvda3kxuww62zfddua	17	26	100	100	CD
work_kkta46aprvda3kxuww62zfddua	17	27	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	17	28	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	17	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	17	30	at	at	IN
work_kkta46aprvda3kxuww62zfddua	17	31	salt	salt	NN
work_kkta46aprvda3kxuww62zfddua	17	32	concentrations	concentration	NNS
work_kkta46aprvda3kxuww62zfddua	17	33	up	up	IN
work_kkta46aprvda3kxuww62zfddua	17	34	to	to	TO
work_kkta46aprvda3kxuww62zfddua	17	35	5	5	CD
work_kkta46aprvda3kxuww62zfddua	17	36	M	m	CD
work_kkta46aprvda3kxuww62zfddua	17	37	or	or	CC
work_kkta46aprvda3kxuww62zfddua	17	38	at	at	IN
work_kkta46aprvda3kxuww62zfddua	17	39	pHs	ph	NNS
work_kkta46aprvda3kxuww62zfddua	17	40	ranging	range	VBG
work_kkta46aprvda3kxuww62zfddua	17	41	from	from	IN
work_kkta46aprvda3kxuww62zfddua	17	42	1	1	CD
work_kkta46aprvda3kxuww62zfddua	17	43	to	to	IN
work_kkta46aprvda3kxuww62zfddua	17	44	12	12	CD
work_kkta46aprvda3kxuww62zfddua	17	45	.	.	.
work_kkta46aprvda3kxuww62zfddua	18	1	Ever	ever	RB
work_kkta46aprvda3kxuww62zfddua	18	2	since	since	IN
work_kkta46aprvda3kxuww62zfddua	18	3	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	18	4	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	18	5	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	18	6	isolated	isolate	VBN
work_kkta46aprvda3kxuww62zfddua	18	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	18	8	especially	especially	RB
work_kkta46aprvda3kxuww62zfddua	18	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	18	10	hyperthermophilic	hyperthermophilic	NN
work_kkta46aprvda3kxuww62zfddua	18	11	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	18	12	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	18	13	attracted	attract	VBN
work_kkta46aprvda3kxuww62zfddua	18	14	much	much	JJ
work_kkta46aprvda3kxuww62zfddua	18	15	interest	interest	NN
work_kkta46aprvda3kxuww62zfddua	18	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	19	1	Hyperthermophilic	hyperthermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	19	2	organisms	organism	NNS
work_kkta46aprvda3kxuww62zfddua	19	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	19	4	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	19	5	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	19	6	defined	define	VBN
work_kkta46aprvda3kxuww62zfddua	19	7	as	as	IN
work_kkta46aprvda3kxuww62zfddua	19	8	having	have	VBG
work_kkta46aprvda3kxuww62zfddua	19	9	opti-	opti-	AFX
work_kkta46aprvda3kxuww62zfddua	19	10	mal	mal	JJ
work_kkta46aprvda3kxuww62zfddua	19	11	growth	growth	NN
work_kkta46aprvda3kxuww62zfddua	19	12	temperatures	temperature	NNS
work_kkta46aprvda3kxuww62zfddua	19	13	above	above	IN
work_kkta46aprvda3kxuww62zfddua	19	14	or	or	CC
work_kkta46aprvda3kxuww62zfddua	19	15	at	at	IN
work_kkta46aprvda3kxuww62zfddua	19	16	80	80	CD
work_kkta46aprvda3kxuww62zfddua	19	17	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	19	18	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	19	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	19	20	were	be	VBD
work_kkta46aprvda3kxuww62zfddua	19	21	discovered	discover	VBN
work_kkta46aprvda3kxuww62zfddua	19	22	over	over	IN
work_kkta46aprvda3kxuww62zfddua	19	23	30	30	CD
work_kkta46aprvda3kxuww62zfddua	19	24	years	year	NNS
work_kkta46aprvda3kxuww62zfddua	19	25	ago	ago	RB
work_kkta46aprvda3kxuww62zfddua	19	26	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	19	27	1	1	CD
work_kkta46aprvda3kxuww62zfddua	19	28	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	19	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	20	1	Since	since	IN
work_kkta46aprvda3kxuww62zfddua	20	2	then	then	RB
work_kkta46aprvda3kxuww62zfddua	20	3	more	more	JJR
work_kkta46aprvda3kxuww62zfddua	20	4	than	than	IN
work_kkta46aprvda3kxuww62zfddua	20	5	70	70	CD
work_kkta46aprvda3kxuww62zfddua	20	6	hyperthermophilic	hyperthermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	20	7	species	specie	NNS
work_kkta46aprvda3kxuww62zfddua	20	8	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	20	9	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	20	10	isolated	isolate	VBN
work_kkta46aprvda3kxuww62zfddua	20	11	.	.	.
work_kkta46aprvda3kxuww62zfddua	21	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	21	2	world	world	NN
work_kkta46aprvda3kxuww62zfddua	21	3	records	record	VBZ
work_kkta46aprvda3kxuww62zfddua	21	4	in	in	IN
work_kkta46aprvda3kxuww62zfddua	21	5	growth	growth	NN
work_kkta46aprvda3kxuww62zfddua	21	6	at	at	IN
work_kkta46aprvda3kxuww62zfddua	21	7	high	high	JJ
work_kkta46aprvda3kxuww62zfddua	21	8	temperatures	temperature	NNS
work_kkta46aprvda3kxuww62zfddua	21	9	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	21	10	held	hold	VBN
work_kkta46aprvda3kxuww62zfddua	21	11	by	by	IN
work_kkta46aprvda3kxuww62zfddua	21	12	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	21	13	furiosus	furiosus	NN
work_kkta46aprvda3kxuww62zfddua	21	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	21	15	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	21	16	grows	grow	VBZ
work_kkta46aprvda3kxuww62zfddua	21	17	at	at	IN
work_kkta46aprvda3kxuww62zfddua	21	18	an	an	DT
work_kkta46aprvda3kxuww62zfddua	21	19	optimal	optimal	JJ
work_kkta46aprvda3kxuww62zfddua	21	20	temperature	temperature	NN
work_kkta46aprvda3kxuww62zfddua	21	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	21	22	100	100	CD
work_kkta46aprvda3kxuww62zfddua	21	23	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	21	24	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	21	25	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	21	26	2	2	CD
work_kkta46aprvda3kxuww62zfddua	21	27	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	21	28	,	,	,
work_kkta46aprvda3kxuww62zfddua	21	29	Pyrodictium	Pyrodictium	NNP
work_kkta46aprvda3kxuww62zfddua	21	30	occultum	occultum	NN
work_kkta46aprvda3kxuww62zfddua	21	31	,	,	,
work_kkta46aprvda3kxuww62zfddua	21	32	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	21	33	grows	grow	VBZ
work_kkta46aprvda3kxuww62zfddua	21	34	from	from	IN
work_kkta46aprvda3kxuww62zfddua	21	35	98	98	CD
work_kkta46aprvda3kxuww62zfddua	21	36	°	°	,
work_kkta46aprvda3kxuww62zfddua	21	37	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	21	38	to	to	IN
work_kkta46aprvda3kxuww62zfddua	21	39	105	105	CD
work_kkta46aprvda3kxuww62zfddua	21	40	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	21	41	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	21	42	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	21	43	3	3	CD
work_kkta46aprvda3kxuww62zfddua	21	44	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	21	45	,	,	,
work_kkta46aprvda3kxuww62zfddua	21	46	Hyperthermus	Hyperthermus	NNP
work_kkta46aprvda3kxuww62zfddua	21	47	butylicus	butylicus	NN
work_kkta46aprvda3kxuww62zfddua	21	48	,	,	,
work_kkta46aprvda3kxuww62zfddua	21	49	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	21	50	grows	grow	VBZ
work_kkta46aprvda3kxuww62zfddua	21	51	up	up	IN
work_kkta46aprvda3kxuww62zfddua	21	52	to	to	TO
work_kkta46aprvda3kxuww62zfddua	21	53	108	108	CD
work_kkta46aprvda3kxuww62zfddua	21	54	°	°	,
work_kkta46aprvda3kxuww62zfddua	21	55	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	21	56	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	21	57	4	4	CD
work_kkta46aprvda3kxuww62zfddua	21	58	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	21	59	,	,	,
work_kkta46aprvda3kxuww62zfddua	21	60	Methanopyrus	Methanopyrus	NNP
work_kkta46aprvda3kxuww62zfddua	21	61	kandleri	kandleri	NN
work_kkta46aprvda3kxuww62zfddua	21	62	,	,	,
work_kkta46aprvda3kxuww62zfddua	21	63	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	21	64	grows	grow	VBZ
work_kkta46aprvda3kxuww62zfddua	21	65	up	up	IN
work_kkta46aprvda3kxuww62zfddua	21	66	to	to	TO
work_kkta46aprvda3kxuww62zfddua	21	67	113	113	CD
work_kkta46aprvda3kxuww62zfddua	21	68	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	21	69	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	21	70	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	21	71	5	5	CD
work_kkta46aprvda3kxuww62zfddua	21	72	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	21	73	and	and	CC
work_kkta46aprvda3kxuww62zfddua	21	74	Pyrolobus	Pyrolobus	NNP
work_kkta46aprvda3kxuww62zfddua	21	75	fumarii	fumarii	NNS
work_kkta46aprvda3kxuww62zfddua	21	76	,	,	,
work_kkta46aprvda3kxuww62zfddua	21	77	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	21	78	grows	grow	VBZ
work_kkta46aprvda3kxuww62zfddua	21	79	between	between	IN
work_kkta46aprvda3kxuww62zfddua	21	80	90	90	CD
work_kkta46aprvda3kxuww62zfddua	21	81	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	21	82	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	21	83	and	and	CC
work_kkta46aprvda3kxuww62zfddua	21	84	113	113	CD
work_kkta46aprvda3kxuww62zfddua	21	85	°	°	,
work_kkta46aprvda3kxuww62zfddua	21	86	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	21	87	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	21	88	at	at	IN
work_kkta46aprvda3kxuww62zfddua	21	89	a	a	DT
work_kkta46aprvda3kxuww62zfddua	21	90	pressure	pressure	NN
work_kkta46aprvda3kxuww62zfddua	21	91	of	of	IN
work_kkta46aprvda3kxuww62zfddua	21	92	25.000	25.000	CD
work_kkta46aprvda3kxuww62zfddua	21	93	kPa	kPa	NNS
work_kkta46aprvda3kxuww62zfddua	21	94	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	21	95	and	and	CC
work_kkta46aprvda3kxuww62zfddua	21	96	that	that	DT
work_kkta46aprvda3kxuww62zfddua	21	97	can	can	MD
work_kkta46aprvda3kxuww62zfddua	21	98	also	also	RB
work_kkta46aprvda3kxuww62zfddua	21	99	withstand	withstand	VB
work_kkta46aprvda3kxuww62zfddua	21	100	autoclaving	autoclave	VBG
work_kkta46aprvda3kxuww62zfddua	21	101	at	at	IN
work_kkta46aprvda3kxuww62zfddua	21	102	121	121	CD
work_kkta46aprvda3kxuww62zfddua	21	103	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	21	104	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	21	105	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	21	106	6	6	CD
work_kkta46aprvda3kxuww62zfddua	21	107	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	21	108	.	.	.
work_kkta46aprvda3kxuww62zfddua	22	1	So	so	IN
work_kkta46aprvda3kxuww62zfddua	22	2	far	far	RB
work_kkta46aprvda3kxuww62zfddua	22	3	no	no	DT
work_kkta46aprvda3kxuww62zfddua	22	4	hyperthermophilic	hyperthermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	22	5	organism	organism	NN
work_kkta46aprvda3kxuww62zfddua	22	6	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	22	7	yet	yet	RB
work_kkta46aprvda3kxuww62zfddua	22	8	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	22	9	discovered	discover	VBN
work_kkta46aprvda3kxuww62zfddua	22	10	growing	grow	VBG
work_kkta46aprvda3kxuww62zfddua	22	11	at	at	IN
work_kkta46aprvda3kxuww62zfddua	22	12	temperatures	temperature	NNS
work_kkta46aprvda3kxuww62zfddua	22	13	above	above	IN
work_kkta46aprvda3kxuww62zfddua	22	14	121	121	CD
work_kkta46aprvda3kxuww62zfddua	22	15	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	22	16	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	22	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	22	18	iences	ience	NNS
work_kkta46aprvda3kxuww62zfddua	22	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	22	20	Nanyang	Nanyang	NNP
work_kkta46aprvda3kxuww62zfddua	22	21	Technological	Technological	NNP
work_kkta46aprvda3kxuww62zfddua	22	22	el	el	NNP
work_kkta46aprvda3kxuww62zfddua	22	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	23	1	:	:	:
work_kkta46aprvda3kxuww62zfddua	23	2	+65	+65	NNP
work_kkta46aprvda3kxuww62zfddua	23	3	6316	6316	CD
work_kkta46aprvda3kxuww62zfddua	23	4	2989	2989	CD
work_kkta46aprvda3kxuww62zfddua	23	5	;	;	:
work_kkta46aprvda3kxuww62zfddua	23	6	fax	fax	NN
work_kkta46aprvda3kxuww62zfddua	23	7	:	:	:
work_kkta46aprvda3kxuww62zfddua	23	8	+65	+65	NN
work_kkta46aprvda3kxuww62zfddua	23	9	ergetics	ergetics	NNPS
work_kkta46aprvda3kxuww62zfddua	23	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	23	11	Institute	Institute	NNP
work_kkta46aprvda3kxuww62zfddua	23	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	23	13	Molecular	Molecular	NNP
work_kkta46aprvda3kxuww62zfddua	23	14	urt	urt	NNP
work_kkta46aprvda3kxuww62zfddua	23	15	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	23	16	Main	Main	NNP
work_kkta46aprvda3kxuww62zfddua	23	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	23	18	Max	Max	NNP
work_kkta46aprvda3kxuww62zfddua	23	19	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	23	20	von	von	NNP
work_kkta46aprvda3kxuww62zfddua	23	21	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	23	22	Laue	Laue	NNP
work_kkta46aprvda3kxuww62zfddua	23	23	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	23	24	Str.9	Str.9	NNP
work_kkta46aprvda3kxuww62zfddua	23	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	23	26	49	49	CD
work_kkta46aprvda3kxuww62zfddua	23	27	69	69	CD
work_kkta46aprvda3kxuww62zfddua	23	28	79829306	79829306	CD
work_kkta46aprvda3kxuww62zfddua	23	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	23	30	mueller@bio.uni-frankfurt.de	mueller@bio.uni-frankfurt.de	NNP
work_kkta46aprvda3kxuww62zfddua	23	31	but	but	CC
work_kkta46aprvda3kxuww62zfddua	23	32	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	23	33	existence	existence	NN
work_kkta46aprvda3kxuww62zfddua	23	34	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	23	35	not	not	RB
work_kkta46aprvda3kxuww62zfddua	23	36	impossible	impossible	JJ
work_kkta46aprvda3kxuww62zfddua	23	37	.	.	.
work_kkta46aprvda3kxuww62zfddua	24	1	Hyperthermophiles	hyperthermophile	NNS
work_kkta46aprvda3kxuww62zfddua	24	2	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	24	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	24	4	deepest	deep	JJS
work_kkta46aprvda3kxuww62zfddua	24	5	branching	branching	NN
work_kkta46aprvda3kxuww62zfddua	24	6	organisms	organism	NNS
work_kkta46aprvda3kxuww62zfddua	24	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	24	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	24	9	bacterial	bacterial	JJ
work_kkta46aprvda3kxuww62zfddua	24	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	24	11	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	24	12	16S	16s	CD
work_kkta46aprvda3kxuww62zfddua	24	13	rRNA	rrna	RB
work_kkta46aprvda3kxuww62zfddua	24	14	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	24	15	based	base	VBN
work_kkta46aprvda3kxuww62zfddua	24	16	phylogenetic	phylogenetic	JJ
work_kkta46aprvda3kxuww62zfddua	24	17	trees	tree	NNS
work_kkta46aprvda3kxuww62zfddua	24	18	and	and	CC
work_kkta46aprvda3kxuww62zfddua	24	19	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	24	20	considered	consider	VBN
work_kkta46aprvda3kxuww62zfddua	24	21	therefore	therefore	RB
work_kkta46aprvda3kxuww62zfddua	24	22	to	to	TO
work_kkta46aprvda3kxuww62zfddua	24	23	represent	represent	VB
work_kkta46aprvda3kxuww62zfddua	24	24	“	"	``
work_kkta46aprvda3kxuww62zfddua	24	25	early	early	JJ
work_kkta46aprvda3kxuww62zfddua	24	26	organisms	organism	NNS
work_kkta46aprvda3kxuww62zfddua	24	27	”	"	''
work_kkta46aprvda3kxuww62zfddua	24	28	adapted	adapt	VBN
work_kkta46aprvda3kxuww62zfddua	24	29	to	to	IN
work_kkta46aprvda3kxuww62zfddua	24	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	24	31	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	24	32	similar	similar	JJ
work_kkta46aprvda3kxuww62zfddua	24	33	to	to	IN
work_kkta46aprvda3kxuww62zfddua	24	34	those	those	DT
work_kkta46aprvda3kxuww62zfddua	24	35	found	find	VBN
work_kkta46aprvda3kxuww62zfddua	24	36	on	on	IN
work_kkta46aprvda3kxuww62zfddua	24	37	the	the	DT
work_kkta46aprvda3kxuww62zfddua	24	38	early	early	JJ
work_kkta46aprvda3kxuww62zfddua	24	39	earth	earth	NN
work_kkta46aprvda3kxuww62zfddua	24	40	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	24	41	1,7–10	1,7–10	CD
work_kkta46aprvda3kxuww62zfddua	24	42	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	24	43	.	.	.
work_kkta46aprvda3kxuww62zfddua	25	1	Hyperthermophiles	hyperthermophile	NNS
work_kkta46aprvda3kxuww62zfddua	25	2	were	be	VBD
work_kkta46aprvda3kxuww62zfddua	25	3	isolated	isolate	VBN
work_kkta46aprvda3kxuww62zfddua	25	4	from	from	IN
work_kkta46aprvda3kxuww62zfddua	25	5	geothermal-	geothermal-	NNP
work_kkta46aprvda3kxuww62zfddua	25	6	ly	ly	JJ
work_kkta46aprvda3kxuww62zfddua	25	7	heated	heated	JJ
work_kkta46aprvda3kxuww62zfddua	25	8	environments	environment	NNS
work_kkta46aprvda3kxuww62zfddua	25	9	like	like	IN
work_kkta46aprvda3kxuww62zfddua	25	10	submarine	submarine	NN
work_kkta46aprvda3kxuww62zfddua	25	11	hydrothermal	hydrothermal	NN
work_kkta46aprvda3kxuww62zfddua	25	12	vents	vent	NNS
work_kkta46aprvda3kxuww62zfddua	25	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	25	14	from	from	IN
work_kkta46aprvda3kxuww62zfddua	25	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	25	16	walls	wall	NNS
work_kkta46aprvda3kxuww62zfddua	25	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	25	18	“	"	``
work_kkta46aprvda3kxuww62zfddua	25	19	black	black	JJ
work_kkta46aprvda3kxuww62zfddua	25	20	smoker	smoker	NN
work_kkta46aprvda3kxuww62zfddua	25	21	”	"	''
work_kkta46aprvda3kxuww62zfddua	25	22	hydrothermal	hydrothermal	JJ
work_kkta46aprvda3kxuww62zfddua	25	23	vent	vent	NN
work_kkta46aprvda3kxuww62zfddua	25	24	chimneys	chimney	NNS
work_kkta46aprvda3kxuww62zfddua	25	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	25	26	hot	hot	JJ
work_kkta46aprvda3kxuww62zfddua	25	27	marine	marine	JJ
work_kkta46aprvda3kxuww62zfddua	25	28	sediments	sediment	NNS
work_kkta46aprvda3kxuww62zfddua	25	29	or	or	CC
work_kkta46aprvda3kxuww62zfddua	25	30	hot	hot	JJ
work_kkta46aprvda3kxuww62zfddua	25	31	springs	spring	NNS
work_kkta46aprvda3kxuww62zfddua	25	32	,	,	,
work_kkta46aprvda3kxuww62zfddua	25	33	where	where	WRB
work_kkta46aprvda3kxuww62zfddua	25	34	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	25	35	gas	gas	NN
work_kkta46aprvda3kxuww62zfddua	25	36	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	25	37	found	find	VBN
work_kkta46aprvda3kxuww62zfddua	25	38	at	at	IN
work_kkta46aprvda3kxuww62zfddua	25	39	high	high	JJ
work_kkta46aprvda3kxuww62zfddua	25	40	levels	level	NNS
work_kkta46aprvda3kxuww62zfddua	25	41	due	due	JJ
work_kkta46aprvda3kxuww62zfddua	25	42	to	to	IN
work_kkta46aprvda3kxuww62zfddua	25	43	volcanic	volcanic	JJ
work_kkta46aprvda3kxuww62zfddua	25	44	outgassing	outgas	VBG
work_kkta46aprvda3kxuww62zfddua	25	45	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	25	46	11–15	11–15	CD
work_kkta46aprvda3kxuww62zfddua	25	47	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	25	48	or	or	CC
work_kkta46aprvda3kxuww62zfddua	25	49	by	by	IN
work_kkta46aprvda3kxuww62zfddua	25	50	abiotic	abiotic	JJ
work_kkta46aprvda3kxuww62zfddua	25	51	production	production	NN
work_kkta46aprvda3kxuww62zfddua	25	52	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	25	53	11,16	11,16	CD
work_kkta46aprvda3kxuww62zfddua	25	54	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	25	55	.	.	.
work_kkta46aprvda3kxuww62zfddua	26	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	26	2	review	review	NN
work_kkta46aprvda3kxuww62zfddua	26	3	will	will	MD
work_kkta46aprvda3kxuww62zfddua	26	4	introduce	introduce	VB
work_kkta46aprvda3kxuww62zfddua	26	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	26	6	strategies	strategy	NNS
work_kkta46aprvda3kxuww62zfddua	26	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	26	8	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	26	9	conservation	conservation	NN
work_kkta46aprvda3kxuww62zfddua	26	10	in	in	IN
work_kkta46aprvda3kxuww62zfddua	26	11	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	26	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	26	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	26	14	key	key	JJ
work_kkta46aprvda3kxuww62zfddua	26	15	component	component	NN
work_kkta46aprvda3kxuww62zfddua	26	16	in	in	IN
work_kkta46aprvda3kxuww62zfddua	26	17	cellular	cellular	JJ
work_kkta46aprvda3kxuww62zfddua	26	18	bioenergetics	bioenergetic	NNS
work_kkta46aprvda3kxuww62zfddua	26	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	26	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	26	21	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	26	22	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	26	23	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	26	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	27	1	Unlike	unlike	IN
work_kkta46aprvda3kxuww62zfddua	27	2	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	27	3	conservation	conservation	NN
work_kkta46aprvda3kxuww62zfddua	27	4	mechanism	mechanism	NN
work_kkta46aprvda3kxuww62zfddua	27	5	in	in	IN
work_kkta46aprvda3kxuww62zfddua	27	6	eukaryotes	eukaryote	NNS
work_kkta46aprvda3kxuww62zfddua	27	7	and	and	CC
work_kkta46aprvda3kxuww62zfddua	27	8	bacteria	bacteria	NNS
work_kkta46aprvda3kxuww62zfddua	27	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	27	10	in	in	IN
work_kkta46aprvda3kxuww62zfddua	27	11	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	27	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	27	13	like	like	IN
work_kkta46aprvda3kxuww62zfddua	27	14	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	27	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	27	16	metabolism	metabolism	NN
work_kkta46aprvda3kxuww62zfddua	27	17	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	27	18	coupled	couple	VBN
work_kkta46aprvda3kxuww62zfddua	27	19	to	to	IN
work_kkta46aprvda3kxuww62zfddua	27	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	27	21	generation	generation	NN
work_kkta46aprvda3kxuww62zfddua	27	22	of	of	IN
work_kkta46aprvda3kxuww62zfddua	27	23	a	a	DT
work_kkta46aprvda3kxuww62zfddua	27	24	H+-	H+-	NNP
work_kkta46aprvda3kxuww62zfddua	27	25	and/or	and/or	CC
work_kkta46aprvda3kxuww62zfddua	27	26	Na+-gradient	Na+-gradient	NNP
work_kkta46aprvda3kxuww62zfddua	27	27	across	across	IN
work_kkta46aprvda3kxuww62zfddua	27	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	27	29	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	27	30	,	,	,
work_kkta46aprvda3kxuww62zfddua	27	31	and	and	CC
work_kkta46aprvda3kxuww62zfddua	27	32	both	both	DT
work_kkta46aprvda3kxuww62zfddua	27	33	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	27	34	gradients	gradient	NNS
work_kkta46aprvda3kxuww62zfddua	27	35	drive	drive	VBP
work_kkta46aprvda3kxuww62zfddua	27	36	the	the	DT
work_kkta46aprvda3kxuww62zfddua	27	37	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	27	38	of	of	IN
work_kkta46aprvda3kxuww62zfddua	27	39	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	27	40	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	27	41	17	17	CD
work_kkta46aprvda3kxuww62zfddua	27	42	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	27	43	.	.	.
work_kkta46aprvda3kxuww62zfddua	28	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	28	2	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	28	3	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	28	4	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	28	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	28	6	catalyzing	catalyze	VBG
work_kkta46aprvda3kxuww62zfddua	28	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	28	8	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	28	9	of	of	IN
work_kkta46aprvda3kxuww62zfddua	28	10	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	28	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	28	12	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	28	13	composed	compose	VBN
work_kkta46aprvda3kxuww62zfddua	28	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	28	15	nine	nine	CD
work_kkta46aprvda3kxuww62zfddua	28	16	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	28	17	in	in	IN
work_kkta46aprvda3kxuww62zfddua	28	18	a	a	DT
work_kkta46aprvda3kxuww62zfddua	28	19	proposed	propose	VBN
work_kkta46aprvda3kxuww62zfddua	28	20	stoichiometry	stoichiometry	NN
work_kkta46aprvda3kxuww62zfddua	28	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	28	22	A3	A3	NNP
work_kkta46aprvda3kxuww62zfddua	28	23	:	:	:
work_kkta46aprvda3kxuww62zfddua	28	24	B3	b3	NN
work_kkta46aprvda3kxuww62zfddua	28	25	:	:	:
work_kkta46aprvda3kxuww62zfddua	28	26	C	c	NN
work_kkta46aprvda3kxuww62zfddua	28	27	:	:	:
work_kkta46aprvda3kxuww62zfddua	28	28	D	d	NN
work_kkta46aprvda3kxuww62zfddua	28	29	:	:	:
work_kkta46aprvda3kxuww62zfddua	28	30	E2	e2	NN
work_kkta46aprvda3kxuww62zfddua	28	31	:	:	:
work_kkta46aprvda3kxuww62zfddua	28	32	F	f	NN
work_kkta46aprvda3kxuww62zfddua	28	33	:	:	:
work_kkta46aprvda3kxuww62zfddua	28	34	H2	h2	NN
work_kkta46aprvda3kxuww62zfddua	28	35	:	:	:
work_kkta46aprvda3kxuww62zfddua	28	36	a	a	DT
work_kkta46aprvda3kxuww62zfddua	28	37	:	:	:
work_kkta46aprvda3kxuww62zfddua	28	38	cx	cx	NNP
work_kkta46aprvda3kxuww62zfddua	28	39	.	.	.
work_kkta46aprvda3kxuww62zfddua	29	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	29	2	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	29	3	possesses	possess	VBZ
work_kkta46aprvda3kxuww62zfddua	29	4	a	a	DT
work_kkta46aprvda3kxuww62zfddua	29	5	water	water	NN
work_kkta46aprvda3kxuww62zfddua	29	6	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	29	7	soluble	soluble	JJ
work_kkta46aprvda3kxuww62zfddua	29	8	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	29	9	sector	sector	NN
work_kkta46aprvda3kxuww62zfddua	29	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	29	11	containing	contain	VBG
work_kkta46aprvda3kxuww62zfddua	29	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	29	13	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	29	14	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	29	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	29	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	29	17	an	an	DT
work_kkta46aprvda3kxuww62zfddua	29	18	integral	integral	JJ
work_kkta46aprvda3kxuww62zfddua	29	19	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	29	20	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	29	21	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	29	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	29	23	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	29	24	in	in	IN
work_kkta46aprvda3kxuww62zfddua	29	25	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	29	26	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	29	27	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	29	28	18	18	CD
work_kkta46aprvda3kxuww62zfddua	29	29	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	29	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	30	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	30	2	variety	variety	NN
work_kkta46aprvda3kxuww62zfddua	30	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	30	4	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	30	5	approaches	approach	NNS
work_kkta46aprvda3kxuww62zfddua	30	6	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	30	7	given	give	VBN
work_kkta46aprvda3kxuww62zfddua	30	8	a	a	DT
work_kkta46aprvda3kxuww62zfddua	30	9	deeper	deep	JJR
work_kkta46aprvda3kxuww62zfddua	30	10	insight	insight	NN
work_kkta46aprvda3kxuww62zfddua	30	11	into	into	IN
work_kkta46aprvda3kxuww62zfddua	30	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	30	13	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	30	14	details	detail	NNS
work_kkta46aprvda3kxuww62zfddua	30	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	30	16	individual	individual	JJ
work_kkta46aprvda3kxuww62zfddua	30	17	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	30	18	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	30	19	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	30	20	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	30	21	as	as	RB
work_kkta46aprvda3kxuww62zfddua	30	22	well	well	RB
work_kkta46aprvda3kxuww62zfddua	30	23	as	as	IN
work_kkta46aprvda3kxuww62zfddua	30	24	subcomplexes	subcomplexe	NNS
work_kkta46aprvda3kxuww62zfddua	30	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	30	26	and	and	CC
work_kkta46aprvda3kxuww62zfddua	30	27	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	30	28	revealed	reveal	VBN
work_kkta46aprvda3kxuww62zfddua	30	29	important	important	JJ
work_kkta46aprvda3kxuww62zfddua	30	30	evolutionary	evolutionary	JJ
work_kkta46aprvda3kxuww62zfddua	30	31	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	30	32	de-	de-	NN
work_kkta46aprvda3kxuww62zfddua	30	33	tails	tail	NNS
work_kkta46aprvda3kxuww62zfddua	30	34	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	30	35	lead	lead	VBP
work_kkta46aprvda3kxuww62zfddua	30	36	to	to	IN
work_kkta46aprvda3kxuww62zfddua	30	37	variations	variation	NNS
work_kkta46aprvda3kxuww62zfddua	30	38	in	in	IN
work_kkta46aprvda3kxuww62zfddua	30	39	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	30	40	recognition	recognition	NN
work_kkta46aprvda3kxuww62zfddua	30	41	and	and	CC
work_kkta46aprvda3kxuww62zfddua	30	42	mechanism	mechanism	NN
work_kkta46aprvda3kxuww62zfddua	30	43	of	of	IN
work_kkta46aprvda3kxuww62zfddua	30	44	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	30	45	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	30	46	and/or	and/or	CC
work_kkta46aprvda3kxuww62zfddua	30	47	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	30	48	hydrolysis	hydrolysis	NN
work_kkta46aprvda3kxuww62zfddua	30	49	of	of	IN
work_kkta46aprvda3kxuww62zfddua	30	50	the	the	DT
work_kkta46aprvda3kxuww62zfddua	30	51	biological	biological	JJ
work_kkta46aprvda3kxuww62zfddua	30	52	nanomachine	nanomachine	NN
work_kkta46aprvda3kxuww62zfddua	30	53	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	30	54	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	30	55	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	30	56	,	,	,
work_kkta46aprvda3kxuww62zfddua	30	57	when	when	WRB
work_kkta46aprvda3kxuww62zfddua	30	58	compared	compare	VBN
work_kkta46aprvda3kxuww62zfddua	30	59	with	with	IN
work_kkta46aprvda3kxuww62zfddua	30	60	the	the	DT
work_kkta46aprvda3kxuww62zfddua	30	61	evolutionary	evolutionary	JJ
work_kkta46aprvda3kxuww62zfddua	30	62	related	relate	VBN
work_kkta46aprvda3kxuww62zfddua	30	63	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	30	64	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	30	65	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	30	66	and	and	CC
work_kkta46aprvda3kxuww62zfddua	30	67	eukaryotic	eukaryotic	JJ
work_kkta46aprvda3kxuww62zfddua	30	68	V1VO	v1vo	NN
work_kkta46aprvda3kxuww62zfddua	30	69	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	30	70	.	.	.
work_kkta46aprvda3kxuww62zfddua	31	1	http://crossmark.crossref.org/dialog/?doi=10.1016/j.bbabio.2014.03.004&domain=pdf	http://crossmark.crossref.org/dialog/?doi=10.1016/j.bbabio.2014.03.004&domain=pdf	NNP
work_kkta46aprvda3kxuww62zfddua	31	2	http://dx.doi.org/10.1016/j.bbabio.2014.03.004	http://dx.doi.org/10.1016/j.bbabio.2014.03.004	NNP
work_kkta46aprvda3kxuww62zfddua	31	3	mailto:ggrueber@ntu.edu.sg	mailto:ggrueber@ntu.edu.sg	NNP
work_kkta46aprvda3kxuww62zfddua	31	4	mailto:vmueller@bio.uni-frankfurt.de	mailto:vmueller@bio.uni-frankfurt.de	NNP
work_kkta46aprvda3kxuww62zfddua	31	5	http://dx.doi.org/10.1016/j.bbabio.2014.03.004	http://dx.doi.org/10.1016/j.bbabio.2014.03.004	NNP
work_kkta46aprvda3kxuww62zfddua	31	6	http://www.sciencedirect.com/science/journal/00052728	http://www.sciencedirect.com/science/journal/00052728	NFP
work_kkta46aprvda3kxuww62zfddua	31	7	941G.	941g.	CD
work_kkta46aprvda3kxuww62zfddua	32	1	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	32	2	et	et	FW
work_kkta46aprvda3kxuww62zfddua	32	3	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	32	4	.	.	.
work_kkta46aprvda3kxuww62zfddua	33	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	33	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	33	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	33	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	33	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	33	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	33	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	33	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	33	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	33	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	33	11	2	2	CD
work_kkta46aprvda3kxuww62zfddua	33	12	.	.	.
work_kkta46aprvda3kxuww62zfddua	34	1	Energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	34	2	conservation	conservation	NN
work_kkta46aprvda3kxuww62zfddua	34	3	in	in	IN
work_kkta46aprvda3kxuww62zfddua	34	4	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	34	5	The	the	DT
work_kkta46aprvda3kxuww62zfddua	34	6	principle	principle	JJ
work_kkta46aprvda3kxuww62zfddua	34	7	mechanisms	mechanism	NNS
work_kkta46aprvda3kxuww62zfddua	34	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	34	9	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	34	10	conservation	conservation	NN
work_kkta46aprvda3kxuww62zfddua	34	11	known	know	VBN
work_kkta46aprvda3kxuww62zfddua	34	12	to	to	IN
work_kkta46aprvda3kxuww62zfddua	34	13	date	date	NN
work_kkta46aprvda3kxuww62zfddua	34	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	34	15	e.	e.	NNP
work_kkta46aprvda3kxuww62zfddua	34	16	g.	g.	NNP
work_kkta46aprvda3kxuww62zfddua	34	17	chemiosmosis	chemiosmosis	NNP
work_kkta46aprvda3kxuww62zfddua	34	18	or	or	CC
work_kkta46aprvda3kxuww62zfddua	34	19	substrate	substrate	VB
work_kkta46aprvda3kxuww62zfddua	34	20	level	level	NN
work_kkta46aprvda3kxuww62zfddua	34	21	phosphorylation	phosphorylation	NN
work_kkta46aprvda3kxuww62zfddua	34	22	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	34	23	SLP	SLP	NNP
work_kkta46aprvda3kxuww62zfddua	34	24	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	34	25	were	be	VBD
work_kkta46aprvda3kxuww62zfddua	34	26	invented	invent	VBN
work_kkta46aprvda3kxuww62zfddua	34	27	very	very	RB
work_kkta46aprvda3kxuww62zfddua	34	28	early	early	RB
work_kkta46aprvda3kxuww62zfddua	34	29	in	in	IN
work_kkta46aprvda3kxuww62zfddua	34	30	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	34	31	and	and	CC
work_kkta46aprvda3kxuww62zfddua	34	32	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	34	33	found	find	VBN
work_kkta46aprvda3kxuww62zfddua	34	34	also	also	RB
work_kkta46aprvda3kxuww62zfddua	34	35	in	in	IN
work_kkta46aprvda3kxuww62zfddua	34	36	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	34	37	,	,	,
work_kkta46aprvda3kxuww62zfddua	34	38	but	but	CC
work_kkta46aprvda3kxuww62zfddua	34	39	due	due	IN
work_kkta46aprvda3kxuww62zfddua	34	40	to	to	IN
work_kkta46aprvda3kxuww62zfddua	34	41	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	34	42	phylogenetic	phylogenetic	JJ
work_kkta46aprvda3kxuww62zfddua	34	43	position	position	NN
work_kkta46aprvda3kxuww62zfddua	34	44	,	,	,
work_kkta46aprvda3kxuww62zfddua	34	45	very	very	RB
work_kkta46aprvda3kxuww62zfddua	34	46	close	close	JJ
work_kkta46aprvda3kxuww62zfddua	34	47	to	to	IN
work_kkta46aprvda3kxuww62zfddua	34	48	the	the	DT
work_kkta46aprvda3kxuww62zfddua	34	49	root	root	NN
work_kkta46aprvda3kxuww62zfddua	34	50	of	of	IN
work_kkta46aprvda3kxuww62zfddua	34	51	the	the	DT
work_kkta46aprvda3kxuww62zfddua	34	52	tree	tree	NN
work_kkta46aprvda3kxuww62zfddua	34	53	of	of	IN
work_kkta46aprvda3kxuww62zfddua	34	54	life	life	NN
work_kkta46aprvda3kxuww62zfddua	34	55	,	,	,
work_kkta46aprvda3kxuww62zfddua	34	56	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	34	57	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	34	58	hypothesized	hypothesize	VBN
work_kkta46aprvda3kxuww62zfddua	34	59	that	that	IN
work_kkta46aprvda3kxuww62zfddua	34	60	ancient	ancient	JJ
work_kkta46aprvda3kxuww62zfddua	34	61	forms	form	NNS
work_kkta46aprvda3kxuww62zfddua	34	62	of	of	IN
work_kkta46aprvda3kxuww62zfddua	34	63	chemiosmosis	chemiosmosis	NN
work_kkta46aprvda3kxuww62zfddua	34	64	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	34	65	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	34	66	in	in	IN
work_kkta46aprvda3kxuww62zfddua	34	67	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	34	68	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	34	69	19	19	CD
work_kkta46aprvda3kxuww62zfddua	34	70	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	34	71	.	.	.
work_kkta46aprvda3kxuww62zfddua	35	1	Up	up	IN
work_kkta46aprvda3kxuww62zfddua	35	2	to	to	IN
work_kkta46aprvda3kxuww62zfddua	35	3	now	now	RB
work_kkta46aprvda3kxuww62zfddua	35	4	five	five	CD
work_kkta46aprvda3kxuww62zfddua	35	5	phyla	phylum	NNS
work_kkta46aprvda3kxuww62zfddua	35	6	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	35	7	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	35	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	35	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	35	10	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	35	11	Archaea	Archaea	NNP
work_kkta46aprvda3kxuww62zfddua	35	12	.	.	.
work_kkta46aprvda3kxuww62zfddua	36	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	36	2	Euryarchaeota	Euryarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	36	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	36	4	containing	contain	VBG
work_kkta46aprvda3kxuww62zfddua	36	5	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	36	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	36	7	hyperthermophilic	hyperthermophilic	NN
work_kkta46aprvda3kxuww62zfddua	36	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	36	9	halophilic	halophilic	JJ
work_kkta46aprvda3kxuww62zfddua	36	10	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	36	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	36	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	36	13	Crenarchaeota	Crenarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	36	14	with	with	IN
work_kkta46aprvda3kxuww62zfddua	36	15	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	36	16	having	have	VBG
work_kkta46aprvda3kxuww62zfddua	36	17	a	a	DT
work_kkta46aprvda3kxuww62zfddua	36	18	sulfur	sulfur	NN
work_kkta46aprvda3kxuww62zfddua	36	19	metabolism	metabolism	NN
work_kkta46aprvda3kxuww62zfddua	36	20	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	36	21	including	include	VBG
work_kkta46aprvda3kxuww62zfddua	36	22	some	some	DT
work_kkta46aprvda3kxuww62zfddua	36	23	hyperthermophiles	hyperthermophile	NNS
work_kkta46aprvda3kxuww62zfddua	36	24	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	36	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	36	26	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	36	27	the	the	DT
work_kkta46aprvda3kxuww62zfddua	36	28	two	two	CD
work_kkta46aprvda3kxuww62zfddua	36	29	major	major	JJ
work_kkta46aprvda3kxuww62zfddua	36	30	phyla	phylum	NNS
work_kkta46aprvda3kxuww62zfddua	36	31	of	of	IN
work_kkta46aprvda3kxuww62zfddua	36	32	Archaea	Archaea	NNP
work_kkta46aprvda3kxuww62zfddua	36	33	.	.	.
work_kkta46aprvda3kxuww62zfddua	37	1	Thaumarchaeota	Thaumarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	37	2	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	37	3	closely	closely	RB
work_kkta46aprvda3kxuww62zfddua	37	4	related	related	JJ
work_kkta46aprvda3kxuww62zfddua	37	5	to	to	IN
work_kkta46aprvda3kxuww62zfddua	37	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	37	7	Crenarchaeota	Crenarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	37	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	37	9	contain	contain	VB
work_kkta46aprvda3kxuww62zfddua	37	10	ammonia	ammonia	NN
work_kkta46aprvda3kxuww62zfddua	37	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	37	12	oxidizing	oxidize	VBG
work_kkta46aprvda3kxuww62zfddua	37	13	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	37	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	38	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	38	2	phyla	phyla	NN
work_kkta46aprvda3kxuww62zfddua	38	3	Nanoarchaeota	Nanoarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	38	4	and	and	CC
work_kkta46aprvda3kxuww62zfddua	38	5	Korarchaeota	Korarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	38	6	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	38	7	represented	represent	VBN
work_kkta46aprvda3kxuww62zfddua	38	8	only	only	RB
work_kkta46aprvda3kxuww62zfddua	38	9	by	by	IN
work_kkta46aprvda3kxuww62zfddua	38	10	one	one	CD
work_kkta46aprvda3kxuww62zfddua	38	11	species	specie	NNS
work_kkta46aprvda3kxuww62zfddua	38	12	Nanoarchaeum	nanoarchaeum	JJ
work_kkta46aprvda3kxuww62zfddua	38	13	equitans	equitan	NNS
work_kkta46aprvda3kxuww62zfddua	38	14	and	and	CC
work_kkta46aprvda3kxuww62zfddua	38	15	Korarchaeum	Korarchaeum	NNP
work_kkta46aprvda3kxuww62zfddua	38	16	cryptofilum	cryptofilum	NN
work_kkta46aprvda3kxuww62zfddua	38	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	38	18	respectively	respectively	RB
work_kkta46aprvda3kxuww62zfddua	38	19	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	38	20	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	38	21	very	very	RB
work_kkta46aprvda3kxuww62zfddua	38	22	close	close	JJ
work_kkta46aprvda3kxuww62zfddua	38	23	to	to	IN
work_kkta46aprvda3kxuww62zfddua	38	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	38	25	root	root	NN
work_kkta46aprvda3kxuww62zfddua	38	26	of	of	IN
work_kkta46aprvda3kxuww62zfddua	38	27	the	the	DT
work_kkta46aprvda3kxuww62zfddua	38	28	tree	tree	NN
work_kkta46aprvda3kxuww62zfddua	38	29	of	of	IN
work_kkta46aprvda3kxuww62zfddua	38	30	life	life	NN
work_kkta46aprvda3kxuww62zfddua	38	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	39	1	Archaea	Archaea	NNP
work_kkta46aprvda3kxuww62zfddua	39	2	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	39	3	physiologically	physiologically	RB
work_kkta46aprvda3kxuww62zfddua	39	4	enormously	enormously	RB
work_kkta46aprvda3kxuww62zfddua	39	5	heteroge-	heteroge-	JJ
work_kkta46aprvda3kxuww62zfddua	39	6	neous	neous	JJ
work_kkta46aprvda3kxuww62zfddua	39	7	.	.	.
work_kkta46aprvda3kxuww62zfddua	40	1	They	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	40	2	can	can	MD
work_kkta46aprvda3kxuww62zfddua	40	3	grow	grow	VB
work_kkta46aprvda3kxuww62zfddua	40	4	heterotrophically	heterotrophically	RB
work_kkta46aprvda3kxuww62zfddua	40	5	on	on	IN
work_kkta46aprvda3kxuww62zfddua	40	6	various	various	JJ
work_kkta46aprvda3kxuww62zfddua	40	7	compounds	compound	NNS
work_kkta46aprvda3kxuww62zfddua	40	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	40	9	use	use	VB
work_kkta46aprvda3kxuww62zfddua	40	10	substrate	substrate	JJ
work_kkta46aprvda3kxuww62zfddua	40	11	level	level	NN
work_kkta46aprvda3kxuww62zfddua	40	12	phosphorylation	phosphorylation	NN
work_kkta46aprvda3kxuww62zfddua	40	13	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	40	14	SLP	SLP	NNP
work_kkta46aprvda3kxuww62zfddua	40	15	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	40	16	to	to	TO
work_kkta46aprvda3kxuww62zfddua	40	17	synthesize	synthesize	VB
work_kkta46aprvda3kxuww62zfddua	40	18	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	40	19	in	in	IN
work_kkta46aprvda3kxuww62zfddua	40	20	combination	combination	NN
work_kkta46aprvda3kxuww62zfddua	40	21	with	with	IN
work_kkta46aprvda3kxuww62zfddua	40	22	chemiosmosis	chemiosmosis	NN
work_kkta46aprvda3kxuww62zfddua	40	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	41	1	Under	under	IN
work_kkta46aprvda3kxuww62zfddua	41	2	anaerobic	anaerobic	JJ
work_kkta46aprvda3kxuww62zfddua	41	3	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	41	4	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	41	5	can	can	MD
work_kkta46aprvda3kxuww62zfddua	41	6	be	be	VB
work_kkta46aprvda3kxuww62zfddua	41	7	conserved	conserve	VBN
work_kkta46aprvda3kxuww62zfddua	41	8	by	by	IN
work_kkta46aprvda3kxuww62zfddua	41	9	fermentation	fermentation	NN
work_kkta46aprvda3kxuww62zfddua	41	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	41	11	anaerobic	anaerobic	JJ
work_kkta46aprvda3kxuww62zfddua	41	12	respiration	respiration	NN
work_kkta46aprvda3kxuww62zfddua	41	13	with	with	IN
work_kkta46aprvda3kxuww62zfddua	41	14	nitrate	nitrate	JJ
work_kkta46aprvda3kxuww62zfddua	41	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	41	16	anaerobic	anaerobic	JJ
work_kkta46aprvda3kxuww62zfddua	41	17	photores-	photores-	NNP
work_kkta46aprvda3kxuww62zfddua	41	18	piration	piration	NN
work_kkta46aprvda3kxuww62zfddua	41	19	using	use	VBG
work_kkta46aprvda3kxuww62zfddua	41	20	bacteriorhodopsin	bacteriorhodopsin	NN
work_kkta46aprvda3kxuww62zfddua	41	21	as	as	RB
work_kkta46aprvda3kxuww62zfddua	41	22	well	well	RB
work_kkta46aprvda3kxuww62zfddua	41	23	as	as	IN
work_kkta46aprvda3kxuww62zfddua	41	24	proton	proton	NNP
work_kkta46aprvda3kxuww62zfddua	41	25	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	41	26	pumping	pump	VBG
work_kkta46aprvda3kxuww62zfddua	41	27	hydroge-	hydroge-	NN
work_kkta46aprvda3kxuww62zfddua	41	28	nases	nase	NNS
work_kkta46aprvda3kxuww62zfddua	41	29	and	and	CC
work_kkta46aprvda3kxuww62zfddua	41	30	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	41	31	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	41	32	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	41	33	pumping	pump	VBG
work_kkta46aprvda3kxuww62zfddua	41	34	methyltransfer	methyltransfer	NN
work_kkta46aprvda3kxuww62zfddua	41	35	reactions	reaction	NNS
work_kkta46aprvda3kxuww62zfddua	41	36	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	41	37	19,20	19,20	CD
work_kkta46aprvda3kxuww62zfddua	41	38	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	41	39	.	.	.
work_kkta46aprvda3kxuww62zfddua	42	1	Especially	especially	RB
work_kkta46aprvda3kxuww62zfddua	42	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	42	3	hydrogenases	hydrogenase	NNS
work_kkta46aprvda3kxuww62zfddua	42	4	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	42	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	42	6	great	great	JJ
work_kkta46aprvda3kxuww62zfddua	42	7	interest	interest	NN
work_kkta46aprvda3kxuww62zfddua	42	8	since	since	IN
work_kkta46aprvda3kxuww62zfddua	42	9	hydrogen	hydrogen	NNP
work_kkta46aprvda3kxuww62zfddua	42	10	certainly	certainly	RB
work_kkta46aprvda3kxuww62zfddua	42	11	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	42	12	around	around	RB
work_kkta46aprvda3kxuww62zfddua	42	13	in	in	IN
work_kkta46aprvda3kxuww62zfddua	42	14	early	early	JJ
work_kkta46aprvda3kxuww62zfddua	42	15	earth	earth	NN
work_kkta46aprvda3kxuww62zfddua	42	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	42	17	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	42	18	used	use	VBN
work_kkta46aprvda3kxuww62zfddua	42	19	by	by	IN
work_kkta46aprvda3kxuww62zfddua	42	20	a	a	DT
work_kkta46aprvda3kxuww62zfddua	42	21	number	number	NN
work_kkta46aprvda3kxuww62zfddua	42	22	of	of	IN
work_kkta46aprvda3kxuww62zfddua	42	23	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	42	24	as	as	IN
work_kkta46aprvda3kxuww62zfddua	42	25	an	an	DT
work_kkta46aprvda3kxuww62zfddua	42	26	electron	electron	NN
work_kkta46aprvda3kxuww62zfddua	42	27	donor	donor	NN
work_kkta46aprvda3kxuww62zfddua	42	28	.	.	.
work_kkta46aprvda3kxuww62zfddua	43	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	43	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	43	3	following	follow	VBG
work_kkta46aprvda3kxuww62zfddua	43	4	section	section	NN
work_kkta46aprvda3kxuww62zfddua	43	5	a	a	DT
work_kkta46aprvda3kxuww62zfddua	43	6	brief	brief	JJ
work_kkta46aprvda3kxuww62zfddua	43	7	introduction	introduction	NN
work_kkta46aprvda3kxuww62zfddua	43	8	to	to	IN
work_kkta46aprvda3kxuww62zfddua	43	9	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	43	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	43	11	dependent	dependent	JJ
work_kkta46aprvda3kxuww62zfddua	43	12	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	43	13	conservation	conservation	NN
work_kkta46aprvda3kxuww62zfddua	43	14	mechanisms	mechanism	NNS
work_kkta46aprvda3kxuww62zfddua	43	15	will	will	MD
work_kkta46aprvda3kxuww62zfddua	43	16	be	be	VB
work_kkta46aprvda3kxuww62zfddua	43	17	given	give	VBN
work_kkta46aprvda3kxuww62zfddua	43	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	44	1	For	for	IN
work_kkta46aprvda3kxuww62zfddua	44	2	more	more	RBR
work_kkta46aprvda3kxuww62zfddua	44	3	comprehensive	comprehensive	JJ
work_kkta46aprvda3kxuww62zfddua	44	4	reviews	review	NNS
work_kkta46aprvda3kxuww62zfddua	44	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	44	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	44	7	reader	reader	NN
work_kkta46aprvda3kxuww62zfddua	44	8	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	44	9	referred	refer	VBN
work_kkta46aprvda3kxuww62zfddua	44	10	to	to	IN
work_kkta46aprvda3kxuww62zfddua	44	11	recent	recent	JJ
work_kkta46aprvda3kxuww62zfddua	44	12	reviews	review	NNS
work_kkta46aprvda3kxuww62zfddua	44	13	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	44	14	20–22	20–22	CD
work_kkta46aprvda3kxuww62zfddua	44	15	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	44	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	45	1	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	45	2	furiosus	furiosus	NNP
work_kkta46aprvda3kxuww62zfddua	45	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	45	4	a	a	DT
work_kkta46aprvda3kxuww62zfddua	45	5	hyperthermophilic	hyperthermophilic	NN
work_kkta46aprvda3kxuww62zfddua	45	6	strictly	strictly	RB
work_kkta46aprvda3kxuww62zfddua	45	7	anaerobic	anaerobic	JJ
work_kkta46aprvda3kxuww62zfddua	45	8	archaeon	archaeon	NN
work_kkta46aprvda3kxuww62zfddua	45	9	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	45	10	belongs	belong	VBZ
work_kkta46aprvda3kxuww62zfddua	45	11	to	to	IN
work_kkta46aprvda3kxuww62zfddua	45	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	45	13	phylum	phylum	NN
work_kkta46aprvda3kxuww62zfddua	45	14	Euryarchaeota	Euryarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	45	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	45	16	conserves	conserve	VBZ
work_kkta46aprvda3kxuww62zfddua	45	17	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	45	18	for	for	IN
work_kkta46aprvda3kxuww62zfddua	45	19	growth	growth	NN
work_kkta46aprvda3kxuww62zfddua	45	20	by	by	IN
work_kkta46aprvda3kxuww62zfddua	45	21	fermentation	fermentation	NN
work_kkta46aprvda3kxuww62zfddua	45	22	of	of	IN
work_kkta46aprvda3kxuww62zfddua	45	23	carbohydrates	carbohydrate	NNS
work_kkta46aprvda3kxuww62zfddua	45	24	and	and	CC
work_kkta46aprvda3kxuww62zfddua	45	25	peptides	peptide	NNS
work_kkta46aprvda3kxuww62zfddua	45	26	to	to	IN
work_kkta46aprvda3kxuww62zfddua	45	27	CO2	CO2	NNP
work_kkta46aprvda3kxuww62zfddua	45	28	,	,	,
work_kkta46aprvda3kxuww62zfddua	45	29	H2	H2	NNP
work_kkta46aprvda3kxuww62zfddua	45	30	and	and	CC
work_kkta46aprvda3kxuww62zfddua	45	31	organic	organic	JJ
work_kkta46aprvda3kxuww62zfddua	45	32	acids	acid	NNS
work_kkta46aprvda3kxuww62zfddua	45	33	,	,	,
work_kkta46aprvda3kxuww62zfddua	45	34	e.g.	e.g.	RB
work_kkta46aprvda3kxuww62zfddua	46	1	acetate	acetate	NNP
work_kkta46aprvda3kxuww62zfddua	46	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	46	3	in	in	IN
work_kkta46aprvda3kxuww62zfddua	46	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	46	5	absence	absence	NN
work_kkta46aprvda3kxuww62zfddua	46	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	46	7	elemental	elemental	JJ
work_kkta46aprvda3kxuww62zfddua	46	8	sulfur	sulfur	NN
work_kkta46aprvda3kxuww62zfddua	46	9	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	46	10	2	2	CD
work_kkta46aprvda3kxuww62zfddua	46	11	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	46	12	.	.	.
work_kkta46aprvda3kxuww62zfddua	47	1	Hydrogen	Hydrogen	NNP
work_kkta46aprvda3kxuww62zfddua	47	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	47	3	evolved	evolve	VBN
work_kkta46aprvda3kxuww62zfddua	47	4	by	by	IN
work_kkta46aprvda3kxuww62zfddua	47	5	hydrogenases	hydrogenase	NNS
work_kkta46aprvda3kxuww62zfddua	47	6	with	with	IN
work_kkta46aprvda3kxuww62zfddua	47	7	reduced	reduced	JJ
work_kkta46aprvda3kxuww62zfddua	47	8	ferredoxin	ferredoxin	NN
work_kkta46aprvda3kxuww62zfddua	47	9	as	as	IN
work_kkta46aprvda3kxuww62zfddua	47	10	an	an	DT
work_kkta46aprvda3kxuww62zfddua	47	11	electron	electron	NN
work_kkta46aprvda3kxuww62zfddua	47	12	donor	donor	NN
work_kkta46aprvda3kxuww62zfddua	47	13	.	.	.
work_kkta46aprvda3kxuww62zfddua	48	1	Ferredoxin	ferredoxin	NN
work_kkta46aprvda3kxuww62zfddua	48	2	plays	play	VBZ
work_kkta46aprvda3kxuww62zfddua	48	3	a	a	DT
work_kkta46aprvda3kxuww62zfddua	48	4	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	48	5	role	role	NN
work_kkta46aprvda3kxuww62zfddua	48	6	in	in	IN
work_kkta46aprvda3kxuww62zfddua	48	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	48	8	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	48	9	metabolism	metabolism	NN
work_kkta46aprvda3kxuww62zfddua	48	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	48	11	many	many	JJ
work_kkta46aprvda3kxuww62zfddua	48	12	anaerobic	anaerobic	JJ
work_kkta46aprvda3kxuww62zfddua	48	13	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	48	14	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	48	15	and	and	CC
work_kkta46aprvda3kxuww62zfddua	48	16	bacteria	bacteria	NNS
work_kkta46aprvda3kxuww62zfddua	48	17	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	48	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	49	1	It	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	49	2	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	49	3	a	a	DT
work_kkta46aprvda3kxuww62zfddua	49	4	redox	redox	JJ
work_kkta46aprvda3kxuww62zfddua	49	5	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	49	6	well	well	RB
work_kkta46aprvda3kxuww62zfddua	49	7	below	below	IN
work_kkta46aprvda3kxuww62zfddua	49	8	−400	−400	NNP
work_kkta46aprvda3kxuww62zfddua	49	9	mV	mV	NNP
work_kkta46aprvda3kxuww62zfddua	49	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	49	11	up	up	IN
work_kkta46aprvda3kxuww62zfddua	49	12	to	to	IN
work_kkta46aprvda3kxuww62zfddua	49	13	−500	−500	NNP
work_kkta46aprvda3kxuww62zfddua	49	14	mV	mV	NNP
work_kkta46aprvda3kxuww62zfddua	49	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	49	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	49	17	thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	49	18	can	can	MD
work_kkta46aprvda3kxuww62zfddua	49	19	be	be	VB
work_kkta46aprvda3kxuww62zfddua	49	20	used	use	VBN
work_kkta46aprvda3kxuww62zfddua	49	21	to	to	TO
work_kkta46aprvda3kxuww62zfddua	49	22	reduce	reduce	VB
work_kkta46aprvda3kxuww62zfddua	49	23	pro-	pro-	NN
work_kkta46aprvda3kxuww62zfddua	49	24	tons	ton	NNS
work_kkta46aprvda3kxuww62zfddua	49	25	to	to	IN
work_kkta46aprvda3kxuww62zfddua	49	26	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	49	27	gas	gas	NN
work_kkta46aprvda3kxuww62zfddua	49	28	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	49	29	E0′	e0′	ADD
work_kkta46aprvda3kxuww62zfddua	49	30	=	=	NFP
work_kkta46aprvda3kxuww62zfddua	49	31	−414	−414	NNP
work_kkta46aprvda3kxuww62zfddua	49	32	mV	mV	NNP
work_kkta46aprvda3kxuww62zfddua	49	33	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	49	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	50	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	50	2	exergonic	exergonic	JJ
work_kkta46aprvda3kxuww62zfddua	50	3	reaction	reaction	NN
work_kkta46aprvda3kxuww62zfddua	50	4	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	50	5	used	use	VBN
work_kkta46aprvda3kxuww62zfddua	50	6	to	to	TO
work_kkta46aprvda3kxuww62zfddua	50	7	pump	pump	VB
work_kkta46aprvda3kxuww62zfddua	50	8	ions	ion	NNS
work_kkta46aprvda3kxuww62zfddua	50	9	out	out	IN
work_kkta46aprvda3kxuww62zfddua	50	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	50	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	50	12	cell	cell	NN
work_kkta46aprvda3kxuww62zfddua	50	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	50	14	most	most	RBS
work_kkta46aprvda3kxuww62zfddua	50	15	likely	likely	JJ
work_kkta46aprvda3kxuww62zfddua	50	16	Na+	na+	UH
work_kkta46aprvda3kxuww62zfddua	50	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	50	18	and	and	CC
work_kkta46aprvda3kxuww62zfddua	50	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	50	20	electrochemical	electrochemical	JJ
work_kkta46aprvda3kxuww62zfddua	50	21	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	50	22	gradient	gradient	NN
work_kkta46aprvda3kxuww62zfddua	50	23	established	establish	VBN
work_kkta46aprvda3kxuww62zfddua	50	24	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	50	25	then	then	RB
work_kkta46aprvda3kxuww62zfddua	50	26	used	use	VBN
work_kkta46aprvda3kxuww62zfddua	50	27	to	to	TO
work_kkta46aprvda3kxuww62zfddua	50	28	drive	drive	VB
work_kkta46aprvda3kxuww62zfddua	50	29	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	50	30	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	50	31	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	50	32	21	21	CD
work_kkta46aprvda3kxuww62zfddua	50	33	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	50	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	51	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	51	2	multisubunit	multisubunit	NN
work_kkta46aprvda3kxuww62zfddua	51	3	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	51	4	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	51	5	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	51	6	hydrogenase	hydrogenase	NN
work_kkta46aprvda3kxuww62zfddua	51	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	51	8	Mbh	Mbh	NNP
work_kkta46aprvda3kxuww62zfddua	51	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	51	10	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	51	11	eight	eight	CD
work_kkta46aprvda3kxuww62zfddua	51	12	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	51	13	comprising	comprise	VBG
work_kkta46aprvda3kxuww62zfddua	51	14	a	a	DT
work_kkta46aprvda3kxuww62zfddua	51	15	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	51	16	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	51	17	oxidizing	oxidize	VBG
work_kkta46aprvda3kxuww62zfddua	51	18	module	module	NN
work_kkta46aprvda3kxuww62zfddua	51	19	as	as	RB
work_kkta46aprvda3kxuww62zfddua	51	20	well	well	RB
work_kkta46aprvda3kxuww62zfddua	51	21	as	as	IN
work_kkta46aprvda3kxuww62zfddua	51	22	Na+/H+	Na+/H+	NNP
work_kkta46aprvda3kxuww62zfddua	51	23	antiporter	antiporter	NN
work_kkta46aprvda3kxuww62zfddua	51	24	modules	module	NNS
work_kkta46aprvda3kxuww62zfddua	51	25	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	51	26	22	22	CD
work_kkta46aprvda3kxuww62zfddua	51	27	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	51	28	.	.	.
work_kkta46aprvda3kxuww62zfddua	52	1	Thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	52	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	52	3	for	for	IN
work_kkta46aprvda3kxuww62zfddua	52	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	52	5	subunit	subunit	JJ
work_kkta46aprvda3kxuww62zfddua	52	6	composition	composition	NN
work_kkta46aprvda3kxuww62zfddua	52	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	52	8	Mbh	Mbh	NNP
work_kkta46aprvda3kxuww62zfddua	52	9	resembles	resemble	VBZ
work_kkta46aprvda3kxuww62zfddua	52	10	modern	modern	JJ
work_kkta46aprvda3kxuww62zfddua	52	11	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	52	12	I	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	52	13	enzymes	enzyme	VBZ
work_kkta46aprvda3kxuww62zfddua	52	14	and	and	CC
work_kkta46aprvda3kxuww62zfddua	52	15	indeed	indeed	RB
work_kkta46aprvda3kxuww62zfddua	52	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	52	17	hydrogenases	hydrogenase	NNS
work_kkta46aprvda3kxuww62zfddua	52	18	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	52	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	52	20	evolu-	evolu-	NNP
work_kkta46aprvda3kxuww62zfddua	52	21	tionary	tionary	JJ
work_kkta46aprvda3kxuww62zfddua	52	22	precursor	precursor	NN
work_kkta46aprvda3kxuww62zfddua	52	23	of	of	IN
work_kkta46aprvda3kxuww62zfddua	52	24	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	52	25	I	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	52	26	found	find	VBD
work_kkta46aprvda3kxuww62zfddua	52	27	in	in	IN
work_kkta46aprvda3kxuww62zfddua	52	28	mitochondria	mitochondria	NNP
work_kkta46aprvda3kxuww62zfddua	52	29	or	or	CC
work_kkta46aprvda3kxuww62zfddua	52	30	bacterial	bacterial	JJ
work_kkta46aprvda3kxuww62zfddua	52	31	membranes	membrane	NNS
work_kkta46aprvda3kxuww62zfddua	52	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	53	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	53	2	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	53	3	furiosus	furiosus	NNP
work_kkta46aprvda3kxuww62zfddua	53	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	53	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	53	6	hydrogenase	hydrogenase	NN
work_kkta46aprvda3kxuww62zfddua	53	7	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	53	8	used	use	VBN
work_kkta46aprvda3kxuww62zfddua	53	9	to	to	TO
work_kkta46aprvda3kxuww62zfddua	53	10	generate	generate	VB
work_kkta46aprvda3kxuww62zfddua	53	11	an	an	DT
work_kkta46aprvda3kxuww62zfddua	53	12	elec-	elec-	NNP
work_kkta46aprvda3kxuww62zfddua	53	13	trochemical	trochemical	NNP
work_kkta46aprvda3kxuww62zfddua	53	14	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	53	15	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	53	16	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	53	17	ΔeμNa	ΔeμNa	NNP
work_kkta46aprvda3kxuww62zfddua	53	18	þ	þ	NNP
work_kkta46aprvda3kxuww62zfddua	53	19	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	53	20	for	for	IN
work_kkta46aprvda3kxuww62zfddua	53	21	transport	transport	NN
work_kkta46aprvda3kxuww62zfddua	53	22	processes	process	NNS
work_kkta46aprvda3kxuww62zfddua	53	23	and	and	CC
work_kkta46aprvda3kxuww62zfddua	53	24	other	other	JJ
work_kkta46aprvda3kxuww62zfddua	53	25	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	53	26	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	53	27	consuming	consume	VBG
work_kkta46aprvda3kxuww62zfddua	53	28	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	53	29	reactions	reaction	NNS
work_kkta46aprvda3kxuww62zfddua	53	30	but	but	CC
work_kkta46aprvda3kxuww62zfddua	53	31	most	most	JJS
work_kkta46aprvda3kxuww62zfddua	53	32	of	of	IN
work_kkta46aprvda3kxuww62zfddua	53	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	53	34	cellular	cellular	JJ
work_kkta46aprvda3kxuww62zfddua	53	35	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	53	36	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	53	37	generated	generate	VBN
work_kkta46aprvda3kxuww62zfddua	53	38	by	by	IN
work_kkta46aprvda3kxuww62zfddua	53	39	substrate	substrate	JJ
work_kkta46aprvda3kxuww62zfddua	53	40	level	level	NN
work_kkta46aprvda3kxuww62zfddua	53	41	phosphorylation	phosphorylation	NN
work_kkta46aprvda3kxuww62zfddua	53	42	during	during	IN
work_kkta46aprvda3kxuww62zfddua	53	43	glycolysis	glycolysis	NN
work_kkta46aprvda3kxuww62zfddua	53	44	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	53	45	21	21	CD
work_kkta46aprvda3kxuww62zfddua	53	46	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	53	47	.	.	.
work_kkta46aprvda3kxuww62zfddua	54	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	54	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	54	3	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	54	4	in	in	IN
work_kkta46aprvda3kxuww62zfddua	54	5	Thermococcus	Thermococcus	NNP
work_kkta46aprvda3kxuww62zfddua	54	6	onnurineus	onnurineus	NN
work_kkta46aprvda3kxuww62zfddua	54	7	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	54	8	can	can	MD
work_kkta46aprvda3kxuww62zfddua	54	9	grow	grow	VB
work_kkta46aprvda3kxuww62zfddua	54	10	by	by	IN
work_kkta46aprvda3kxuww62zfddua	54	11	oxidation	oxidation	NN
work_kkta46aprvda3kxuww62zfddua	54	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	54	13	formate	formate	NN
work_kkta46aprvda3kxuww62zfddua	54	14	to	to	IN
work_kkta46aprvda3kxuww62zfddua	54	15	carbon	carbon	NN
work_kkta46aprvda3kxuww62zfddua	54	16	dioxide	dioxide	NN
work_kkta46aprvda3kxuww62zfddua	54	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	54	18	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	54	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	55	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	55	2	reaction	reaction	NN
work_kkta46aprvda3kxuww62zfddua	55	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	55	4	close	close	JJ
work_kkta46aprvda3kxuww62zfddua	55	5	to	to	IN
work_kkta46aprvda3kxuww62zfddua	55	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	55	7	thermodynamic	thermodynamic	JJ
work_kkta46aprvda3kxuww62zfddua	55	8	equilibrium	equilibrium	NN
work_kkta46aprvda3kxuww62zfddua	55	9	and	and	CC
work_kkta46aprvda3kxuww62zfddua	55	10	actually	actually	RB
work_kkta46aprvda3kxuww62zfddua	55	11	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	55	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	55	13	reaction	reaction	NN
work_kkta46aprvda3kxuww62zfddua	55	14	with	with	IN
work_kkta46aprvda3kxuww62zfddua	55	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	55	16	lowest	low	JJS
work_kkta46aprvda3kxuww62zfddua	55	17	ΔG	δg	NN
work_kkta46aprvda3kxuww62zfddua	55	18	known	know	VBN
work_kkta46aprvda3kxuww62zfddua	55	19	to	to	TO
work_kkta46aprvda3kxuww62zfddua	55	20	sustain	sustain	VB
work_kkta46aprvda3kxuww62zfddua	55	21	life	life	NN
work_kkta46aprvda3kxuww62zfddua	55	22	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	55	23	−2.6	−2.6	NNP
work_kkta46aprvda3kxuww62zfddua	55	24	kJ	kJ	NNP
work_kkta46aprvda3kxuww62zfddua	55	25	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	55	26	mol	mol	NNP
work_kkta46aprvda3kxuww62zfddua	55	27	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	55	28	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	55	29	23,24	23,24	CD
work_kkta46aprvda3kxuww62zfddua	55	30	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	55	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	56	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	56	2	reaction	reaction	NN
work_kkta46aprvda3kxuww62zfddua	56	3	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	56	4	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	56	5	simple	simple	JJ
work_kkta46aprvda3kxuww62zfddua	56	6	and	and	CC
work_kkta46aprvda3kxuww62zfddua	56	7	involves	involve	VBZ
work_kkta46aprvda3kxuww62zfddua	56	8	a	a	DT
work_kkta46aprvda3kxuww62zfddua	56	9	formate	formate	NN
work_kkta46aprvda3kxuww62zfddua	56	10	dehydrogenase	dehydrogenase	NN
work_kkta46aprvda3kxuww62zfddua	56	11	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	56	12	oxidizes	oxidize	VBZ
work_kkta46aprvda3kxuww62zfddua	56	13	formate	formate	NN
work_kkta46aprvda3kxuww62zfddua	56	14	and	and	CC
work_kkta46aprvda3kxuww62zfddua	56	15	channels	channel	VBZ
work_kkta46aprvda3kxuww62zfddua	56	16	electrons	electron	NNS
work_kkta46aprvda3kxuww62zfddua	56	17	to	to	IN
work_kkta46aprvda3kxuww62zfddua	56	18	a	a	DT
work_kkta46aprvda3kxuww62zfddua	56	19	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	56	20	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	56	21	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	56	22	hydrogenase	hydrogenase	NN
work_kkta46aprvda3kxuww62zfddua	56	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	56	24	very	very	RB
work_kkta46aprvda3kxuww62zfddua	56	25	simi-	simi-	NN
work_kkta46aprvda3kxuww62zfddua	56	26	lar	lar	NN
work_kkta46aprvda3kxuww62zfddua	56	27	to	to	IN
work_kkta46aprvda3kxuww62zfddua	56	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	56	29	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	56	30	described	describe	VBN
work_kkta46aprvda3kxuww62zfddua	56	31	above	above	IN
work_kkta46aprvda3kxuww62zfddua	56	32	for	for	IN
work_kkta46aprvda3kxuww62zfddua	56	33	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	56	34	furiosus	furiosus	NNP
work_kkta46aprvda3kxuww62zfddua	56	35	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	56	36	22,23	22,23	CD
work_kkta46aprvda3kxuww62zfddua	56	37	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	56	38	.	.	.
work_kkta46aprvda3kxuww62zfddua	57	1	Electron	Electron	NNP
work_kkta46aprvda3kxuww62zfddua	57	2	trans-	trans-	NN
work_kkta46aprvda3kxuww62zfddua	57	3	fer	fer	NNP
work_kkta46aprvda3kxuww62zfddua	57	4	to	to	IN
work_kkta46aprvda3kxuww62zfddua	57	5	protons	proton	NNS
work_kkta46aprvda3kxuww62zfddua	57	6	leads	lead	VBZ
work_kkta46aprvda3kxuww62zfddua	57	7	to	to	IN
work_kkta46aprvda3kxuww62zfddua	57	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	57	9	generation	generation	NN
work_kkta46aprvda3kxuww62zfddua	57	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	57	11	an	an	DT
work_kkta46aprvda3kxuww62zfddua	57	12	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	57	13	gradient	gradient	NN
work_kkta46aprvda3kxuww62zfddua	57	14	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	57	15	then	then	RB
work_kkta46aprvda3kxuww62zfddua	57	16	drives	drive	VBZ
work_kkta46aprvda3kxuww62zfddua	57	17	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	57	18	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	57	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	58	1	Although	although	IN
work_kkta46aprvda3kxuww62zfddua	58	2	this	this	DT
work_kkta46aprvda3kxuww62zfddua	58	3	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	58	4	not	not	RB
work_kkta46aprvda3kxuww62zfddua	58	5	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	58	6	addressed	address	VBN
work_kkta46aprvda3kxuww62zfddua	58	7	experimentally	experimentally	RB
work_kkta46aprvda3kxuww62zfddua	58	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	58	9	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	58	10	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	58	11	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	58	12	suggested	suggest	VBN
work_kkta46aprvda3kxuww62zfddua	58	13	to	to	TO
work_kkta46aprvda3kxuww62zfddua	58	14	involve	involve	VB
work_kkta46aprvda3kxuww62zfddua	58	15	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	58	16	as	as	IN
work_kkta46aprvda3kxuww62zfddua	58	17	a	a	DT
work_kkta46aprvda3kxuww62zfddua	58	18	coupling	couple	VBG
work_kkta46aprvda3kxuww62zfddua	58	19	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	58	20	.	.	.
work_kkta46aprvda3kxuww62zfddua	59	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	59	2	unique	unique	JJ
work_kkta46aprvda3kxuww62zfddua	59	3	pathway	pathway	NN
work_kkta46aprvda3kxuww62zfddua	59	4	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	59	5	allows	allow	VBZ
work_kkta46aprvda3kxuww62zfddua	59	6	growth	growth	NN
work_kkta46aprvda3kxuww62zfddua	59	7	under	under	IN
work_kkta46aprvda3kxuww62zfddua	59	8	strictly	strictly	RB
work_kkta46aprvda3kxuww62zfddua	59	9	anaerobic	anaerobic	JJ
work_kkta46aprvda3kxuww62zfddua	59	10	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	59	11	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	59	12	methanogenesis	methanogenesis	NN
work_kkta46aprvda3kxuww62zfddua	59	13	.	.	.
work_kkta46aprvda3kxuww62zfddua	60	1	Methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	60	2	use	use	VBP
work_kkta46aprvda3kxuww62zfddua	60	3	only	only	JJ
work_kkta46aprvda3kxuww62zfddua	60	4	chemiosmosis	chemiosmosis	NN
work_kkta46aprvda3kxuww62zfddua	60	5	for	for	IN
work_kkta46aprvda3kxuww62zfddua	60	6	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	60	7	conservation	conservation	NN
work_kkta46aprvda3kxuww62zfddua	60	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	60	9	couple	couple	NN
work_kkta46aprvda3kxuww62zfddua	60	10	methanogenesis	methanogenesis	NN
work_kkta46aprvda3kxuww62zfddua	60	11	to	to	IN
work_kkta46aprvda3kxuww62zfddua	60	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	60	13	generation	generation	NN
work_kkta46aprvda3kxuww62zfddua	60	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	60	15	two	two	CD
work_kkta46aprvda3kxuww62zfddua	60	16	primary	primary	JJ
work_kkta46aprvda3kxuww62zfddua	60	17	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	60	18	gradients	gradient	NNS
work_kkta46aprvda3kxuww62zfddua	60	19	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	60	20	25	25	CD
work_kkta46aprvda3kxuww62zfddua	60	21	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	60	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	61	1	One	one	CD
work_kkta46aprvda3kxuww62zfddua	61	2	of	of	IN
work_kkta46aprvda3kxuww62zfddua	61	3	these	these	DT
work_kkta46aprvda3kxuww62zfddua	61	4	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	61	5	gradients	gradient	NNS
work_kkta46aprvda3kxuww62zfddua	61	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	61	7	a	a	DT
work_kkta46aprvda3kxuww62zfddua	61	8	primary	primary	JJ
work_kkta46aprvda3kxuww62zfddua	61	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	61	10	electrochemical	electrochemical	JJ
work_kkta46aprvda3kxuww62zfddua	61	11	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	61	12	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	61	13	gradient	gradient	NN
work_kkta46aprvda3kxuww62zfddua	61	14	established	establish	VBN
work_kkta46aprvda3kxuww62zfddua	61	15	by	by	IN
work_kkta46aprvda3kxuww62zfddua	61	16	the	the	DT
work_kkta46aprvda3kxuww62zfddua	61	17	methyltetrahydromethanopterin	methyltetrahydromethanopterin	NN
work_kkta46aprvda3kxuww62zfddua	61	18	–	–	:
work_kkta46aprvda3kxuww62zfddua	61	19	coenzyme	coenzyme	NNS
work_kkta46aprvda3kxuww62zfddua	61	20	M	M	NNP
work_kkta46aprvda3kxuww62zfddua	61	21	methyltransferase	methyltransferase	NN
work_kkta46aprvda3kxuww62zfddua	61	22	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	61	23	Mtr	Mtr	NNP
work_kkta46aprvda3kxuww62zfddua	61	24	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	61	25	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	61	26	26,27	26,27	CD
work_kkta46aprvda3kxuww62zfddua	61	27	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	61	28	.	.	.
work_kkta46aprvda3kxuww62zfddua	62	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	62	2	reaction	reaction	NN
work_kkta46aprvda3kxuww62zfddua	62	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	62	4	common	common	JJ
work_kkta46aprvda3kxuww62zfddua	62	5	to	to	IN
work_kkta46aprvda3kxuww62zfddua	62	6	every	every	DT
work_kkta46aprvda3kxuww62zfddua	62	7	methanogen	methanogen	NN
work_kkta46aprvda3kxuww62zfddua	62	8	.	.	.
work_kkta46aprvda3kxuww62zfddua	63	1	Some	some	DT
work_kkta46aprvda3kxuww62zfddua	63	2	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	63	3	also	also	RB
work_kkta46aprvda3kxuww62zfddua	63	4	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	63	5	an	an	DT
work_kkta46aprvda3kxuww62zfddua	63	6	additional	additional	JJ
work_kkta46aprvda3kxuww62zfddua	63	7	electron	electron	NN
work_kkta46aprvda3kxuww62zfddua	63	8	transport	transport	NN
work_kkta46aprvda3kxuww62zfddua	63	9	chain(s	chain(s	.
work_kkta46aprvda3kxuww62zfddua	63	10	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	63	11	that	that	DT
work_kkta46aprvda3kxuww62zfddua	63	12	includes	include	VBZ
work_kkta46aprvda3kxuww62zfddua	63	13	cytochromes	cytochrome	NNS
work_kkta46aprvda3kxuww62zfddua	63	14	and	and	CC
work_kkta46aprvda3kxuww62zfddua	63	15	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	63	16	evolved	evolve	VBN
work_kkta46aprvda3kxuww62zfddua	63	17	a	a	DT
work_kkta46aprvda3kxuww62zfddua	63	18	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	63	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	63	20	additional	additional	JJ
work_kkta46aprvda3kxuww62zfddua	63	21	mecha-	mecha-	NN
work_kkta46aprvda3kxuww62zfddua	63	22	nism	nism	NN
work_kkta46aprvda3kxuww62zfddua	63	23	to	to	TO
work_kkta46aprvda3kxuww62zfddua	63	24	energize	energize	VB
work_kkta46aprvda3kxuww62zfddua	63	25	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	63	26	membranes	membrane	NNS
work_kkta46aprvda3kxuww62zfddua	63	27	.	.	.
work_kkta46aprvda3kxuww62zfddua	64	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	64	2	proton	proton	NNP
work_kkta46aprvda3kxuww62zfddua	64	3	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	64	4	motive	motive	NN
work_kkta46aprvda3kxuww62zfddua	64	5	electron	electron	NNP
work_kkta46aprvda3kxuww62zfddua	64	6	trans-	trans-	NNP
work_kkta46aprvda3kxuww62zfddua	64	7	port	port	NN
work_kkta46aprvda3kxuww62zfddua	64	8	chain	chain	NN
work_kkta46aprvda3kxuww62zfddua	64	9	leads	lead	VBZ
work_kkta46aprvda3kxuww62zfddua	64	10	to	to	IN
work_kkta46aprvda3kxuww62zfddua	64	11	a	a	DT
work_kkta46aprvda3kxuww62zfddua	64	12	heterodisulfide	heterodisulfide	NN
work_kkta46aprvda3kxuww62zfddua	64	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	64	14	coenzyme	coenzyme	NNS
work_kkta46aprvda3kxuww62zfddua	64	15	M	M	NNP
work_kkta46aprvda3kxuww62zfddua	64	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	64	17	coenzyme	coenzyme	NNS
work_kkta46aprvda3kxuww62zfddua	64	18	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	64	19	as	as	IN
work_kkta46aprvda3kxuww62zfddua	64	20	an	an	DT
work_kkta46aprvda3kxuww62zfddua	64	21	electron	electron	NN
work_kkta46aprvda3kxuww62zfddua	64	22	acceptor	acceptor	NN
work_kkta46aprvda3kxuww62zfddua	64	23	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	64	24	28,29	28,29	CD
work_kkta46aprvda3kxuww62zfddua	64	25	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	64	26	.	.	.
work_kkta46aprvda3kxuww62zfddua	65	1	Therefore	therefore	RB
work_kkta46aprvda3kxuww62zfddua	65	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	65	3	methanogenic	methanogenic	NNP
work_kkta46aprvda3kxuww62zfddua	65	4	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	65	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	65	6	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	65	7	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	65	8	a	a	DT
work_kkta46aprvda3kxuww62zfddua	65	9	methyltetrahydromethanopterin	methyltetrahydromethanopterin	NN
work_kkta46aprvda3kxuww62zfddua	65	10	–	–	:
work_kkta46aprvda3kxuww62zfddua	65	11	coenzyme	coenzyme	NNS
work_kkta46aprvda3kxuww62zfddua	65	12	M	M	NNP
work_kkta46aprvda3kxuww62zfddua	65	13	methyl-	methyl-	NN
work_kkta46aprvda3kxuww62zfddua	65	14	transferase	transferase	NN
work_kkta46aprvda3kxuww62zfddua	65	15	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	65	16	Mtr	Mtr	NNP
work_kkta46aprvda3kxuww62zfddua	65	17	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	65	18	and	and	CC
work_kkta46aprvda3kxuww62zfddua	65	19	a	a	DT
work_kkta46aprvda3kxuww62zfddua	65	20	proton	proton	NNP
work_kkta46aprvda3kxuww62zfddua	65	21	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	65	22	motive	motive	NN
work_kkta46aprvda3kxuww62zfddua	65	23	electron	electron	NNP
work_kkta46aprvda3kxuww62zfddua	65	24	transport	transport	NN
work_kkta46aprvda3kxuww62zfddua	65	25	chain	chain	NN
work_kkta46aprvda3kxuww62zfddua	65	26	with	with	IN
work_kkta46aprvda3kxuww62zfddua	65	27	cy-	cy-	NN
work_kkta46aprvda3kxuww62zfddua	65	28	tochromes	tochrome	NNS
work_kkta46aprvda3kxuww62zfddua	65	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	65	30	couple	couple	NN
work_kkta46aprvda3kxuww62zfddua	65	31	methanogenesis	methanogenesis	NN
work_kkta46aprvda3kxuww62zfddua	65	32	to	to	IN
work_kkta46aprvda3kxuww62zfddua	65	33	a	a	DT
work_kkta46aprvda3kxuww62zfddua	65	34	proton	proton	NNP
work_kkta46aprvda3kxuww62zfddua	65	35	and	and	CC
work_kkta46aprvda3kxuww62zfddua	65	36	a	a	DT
work_kkta46aprvda3kxuww62zfddua	65	37	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	65	38	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	65	39	gradient	gradient	NN
work_kkta46aprvda3kxuww62zfddua	65	40	at	at	IN
work_kkta46aprvda3kxuww62zfddua	65	41	the	the	DT
work_kkta46aprvda3kxuww62zfddua	65	42	same	same	JJ
work_kkta46aprvda3kxuww62zfddua	65	43	time	time	NN
work_kkta46aprvda3kxuww62zfddua	65	44	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	65	45	30	30	CD
work_kkta46aprvda3kxuww62zfddua	65	46	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	65	47	.	.	.
work_kkta46aprvda3kxuww62zfddua	66	1	3	3	LS
work_kkta46aprvda3kxuww62zfddua	66	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	67	1	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	67	2	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	67	3	from	from	IN
work_kkta46aprvda3kxuww62zfddua	67	4	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	67	5	Despite	despite	IN
work_kkta46aprvda3kxuww62zfddua	67	6	all	all	PDT
work_kkta46aprvda3kxuww62zfddua	67	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	67	8	differences	difference	NNS
work_kkta46aprvda3kxuww62zfddua	67	9	in	in	IN
work_kkta46aprvda3kxuww62zfddua	67	10	how	how	WRB
work_kkta46aprvda3kxuww62zfddua	67	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	67	12	electrochemical	electrochemical	JJ
work_kkta46aprvda3kxuww62zfddua	67	13	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	67	14	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	67	15	to	to	TO
work_kkta46aprvda3kxuww62zfddua	67	16	drive	drive	VB
work_kkta46aprvda3kxuww62zfddua	67	17	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	67	18	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	67	19	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	67	20	generated	generate	VBN
work_kkta46aprvda3kxuww62zfddua	67	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	67	22	all	all	DT
work_kkta46aprvda3kxuww62zfddua	67	23	archaea	archaea	VBN
work_kkta46aprvda3kxuww62zfddua	67	24	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	67	25	an	an	DT
work_kkta46aprvda3kxuww62zfddua	67	26	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	67	27	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	67	28	.	.	.
work_kkta46aprvda3kxuww62zfddua	68	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	68	2	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	68	3	catalyzes	catalyze	VBZ
work_kkta46aprvda3kxuww62zfddua	68	4	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	68	5	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	68	6	according	accord	VBG
work_kkta46aprvda3kxuww62zfddua	68	7	to	to	IN
work_kkta46aprvda3kxuww62zfddua	68	8	Eq	Eq	NNP
work_kkta46aprvda3kxuww62zfddua	68	9	.	.	.
work_kkta46aprvda3kxuww62zfddua	69	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	69	2	1	1	CD
work_kkta46aprvda3kxuww62zfddua	69	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	69	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	69	5	at	at	IN
work_kkta46aprvda3kxuww62zfddua	69	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	69	7	expense	expense	NN
work_kkta46aprvda3kxuww62zfddua	69	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	69	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	69	10	transmembrane	transmembrane	JJ
work_kkta46aprvda3kxuww62zfddua	69	11	electrical	electrical	JJ
work_kkta46aprvda3kxuww62zfddua	69	12	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	69	13	gradient	gradient	NN
work_kkta46aprvda3kxuww62zfddua	69	14	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	69	15	31,32	31,32	CD
work_kkta46aprvda3kxuww62zfddua	69	16	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	69	17	:	:	:
work_kkta46aprvda3kxuww62zfddua	69	18	ADP	ADP	NNP
work_kkta46aprvda3kxuww62zfddua	69	19	þ	þ	NNP
work_kkta46aprvda3kxuww62zfddua	69	20	Pi	Pi	NNP
work_kkta46aprvda3kxuww62zfddua	69	21	þ	þ	NN
work_kkta46aprvda3kxuww62zfddua	69	22	n	n	NN
work_kkta46aprvda3kxuww62zfddua	69	23	ionsout↔ATP	ionsout↔ATP	NNP
work_kkta46aprvda3kxuww62zfddua	69	24	þ	þ	NNP
work_kkta46aprvda3kxuww62zfddua	69	25	n	n	NN
work_kkta46aprvda3kxuww62zfddua	69	26	ionsin	ionsin	NN
work_kkta46aprvda3kxuww62zfddua	69	27	:	:	:
work_kkta46aprvda3kxuww62zfddua	69	28	ð1Þ	ð1þ	XX
work_kkta46aprvda3kxuww62zfddua	69	29	Since	since	IN
work_kkta46aprvda3kxuww62zfddua	69	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	69	31	bioenergetics	bioenergetic	NNS
work_kkta46aprvda3kxuww62zfddua	69	32	of	of	IN
work_kkta46aprvda3kxuww62zfddua	69	33	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	69	34	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	69	35	such	such	PDT
work_kkta46aprvda3kxuww62zfddua	69	36	a	a	DT
work_kkta46aprvda3kxuww62zfddua	69	37	wide	wide	JJ
work_kkta46aprvda3kxuww62zfddua	69	38	variety	variety	NN
work_kkta46aprvda3kxuww62zfddua	69	39	of	of	IN
work_kkta46aprvda3kxuww62zfddua	69	40	differ-	differ-	JJ
work_kkta46aprvda3kxuww62zfddua	69	41	ent	ent	NN
work_kkta46aprvda3kxuww62zfddua	69	42	mechanisms	mechanism	NNS
work_kkta46aprvda3kxuww62zfddua	69	43	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	69	44	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	69	45	thought	think	VBN
work_kkta46aprvda3kxuww62zfddua	69	46	that	that	IN
work_kkta46aprvda3kxuww62zfddua	69	47	the	the	DT
work_kkta46aprvda3kxuww62zfddua	69	48	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	69	49	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	69	50	of	of	IN
work_kkta46aprvda3kxuww62zfddua	69	51	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	69	52	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	69	53	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	69	54	in	in	IN
work_kkta46aprvda3kxuww62zfddua	69	55	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	69	56	tribes	tribe	NNS
work_kkta46aprvda3kxuww62zfddua	69	57	!	!	.
work_kkta46aprvda3kxuww62zfddua	70	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	70	2	activity	activity	NN
work_kkta46aprvda3kxuww62zfddua	70	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	70	4	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	70	5	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	70	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	70	7	rather	rather	RB
work_kkta46aprvda3kxuww62zfddua	70	8	easy	easy	JJ
work_kkta46aprvda3kxuww62zfddua	70	9	to	to	TO
work_kkta46aprvda3kxuww62zfddua	70	10	analyze	analyze	VB
work_kkta46aprvda3kxuww62zfddua	70	11	.	.	.
work_kkta46aprvda3kxuww62zfddua	71	1	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	71	2	hydrolysis	hydrolysis	NN
work_kkta46aprvda3kxuww62zfddua	71	3	can	can	MD
work_kkta46aprvda3kxuww62zfddua	71	4	be	be	VB
work_kkta46aprvda3kxuww62zfddua	71	5	measured	measure	VBN
work_kkta46aprvda3kxuww62zfddua	71	6	by	by	IN
work_kkta46aprvda3kxuww62zfddua	71	7	phosphate	phosphate	NN
work_kkta46aprvda3kxuww62zfddua	71	8	release	release	NN
work_kkta46aprvda3kxuww62zfddua	71	9	from	from	IN
work_kkta46aprvda3kxuww62zfddua	71	10	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	71	11	or	or	CC
work_kkta46aprvda3kxuww62zfddua	71	12	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	71	13	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	71	14	can	can	MD
work_kkta46aprvda3kxuww62zfddua	71	15	be	be	VB
work_kkta46aprvda3kxuww62zfddua	71	16	studied	study	VBN
work_kkta46aprvda3kxuww62zfddua	71	17	by	by	IN
work_kkta46aprvda3kxuww62zfddua	71	18	artificial	artificial	JJ
work_kkta46aprvda3kxuww62zfddua	71	19	pH	pH	NNP
work_kkta46aprvda3kxuww62zfddua	71	20	jumps	jump	NNS
work_kkta46aprvda3kxuww62zfddua	71	21	in	in	IN
work_kkta46aprvda3kxuww62zfddua	71	22	whole	whole	JJ
work_kkta46aprvda3kxuww62zfddua	71	23	cells	cell	NNS
work_kkta46aprvda3kxuww62zfddua	71	24	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	71	25	33	33	CD
work_kkta46aprvda3kxuww62zfddua	71	26	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	71	27	.	.	.
work_kkta46aprvda3kxuww62zfddua	72	1	Thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	72	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	72	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	72	4	presence	presence	NN
work_kkta46aprvda3kxuww62zfddua	72	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	72	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	72	7	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	72	8	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	72	9	demonstrated	demonstrate	VBN
work_kkta46aprvda3kxuww62zfddua	72	10	rather	rather	RB
work_kkta46aprvda3kxuww62zfddua	72	11	early	early	RB
work_kkta46aprvda3kxuww62zfddua	72	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	72	13	time	time	NN
work_kkta46aprvda3kxuww62zfddua	72	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	73	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	73	2	nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	73	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	73	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	73	5	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	73	6	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	73	7	then	then	RB
work_kkta46aprvda3kxuww62zfddua	73	8	addressed	address	VBN
work_kkta46aprvda3kxuww62zfddua	73	9	by	by	IN
work_kkta46aprvda3kxuww62zfddua	73	10	attempts	attempt	NNS
work_kkta46aprvda3kxuww62zfddua	73	11	to	to	TO
work_kkta46aprvda3kxuww62zfddua	73	12	purify	purify	VB
work_kkta46aprvda3kxuww62zfddua	73	13	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	73	14	from	from	IN
work_kkta46aprvda3kxuww62zfddua	73	15	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	73	16	sources	source	NNS
work_kkta46aprvda3kxuww62zfddua	73	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	74	1	Interestingly	interestingly	RB
work_kkta46aprvda3kxuww62zfddua	74	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	74	3	despite	despite	IN
work_kkta46aprvda3kxuww62zfddua	74	4	all	all	PDT
work_kkta46aprvda3kxuww62zfddua	74	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	74	6	attempts	attempt	NNS
work_kkta46aprvda3kxuww62zfddua	74	7	in	in	IN
work_kkta46aprvda3kxuww62zfddua	74	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	74	9	1970–1980s	1970–1980s	CD
work_kkta46aprvda3kxuww62zfddua	74	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	74	11	there	there	EX
work_kkta46aprvda3kxuww62zfddua	74	12	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	74	13	no	no	DT
work_kkta46aprvda3kxuww62zfddua	74	14	clear	clear	JJ
work_kkta46aprvda3kxuww62zfddua	74	15	picture	picture	NN
work_kkta46aprvda3kxuww62zfddua	74	16	on	on	IN
work_kkta46aprvda3kxuww62zfddua	74	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	74	18	subunit	subunit	JJ
work_kkta46aprvda3kxuww62zfddua	74	19	composition	composition	NN
work_kkta46aprvda3kxuww62zfddua	74	20	of	of	IN
work_kkta46aprvda3kxuww62zfddua	74	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	74	22	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	74	23	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	74	24	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	74	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	75	1	All	all	DT
work_kkta46aprvda3kxuww62zfddua	75	2	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	75	3	prepara-	prepara-	JJ
work_kkta46aprvda3kxuww62zfddua	75	4	tions	tion	NNS
work_kkta46aprvda3kxuww62zfddua	75	5	varied	vary	VBN
work_kkta46aprvda3kxuww62zfddua	75	6	in	in	IN
work_kkta46aprvda3kxuww62zfddua	75	7	polypeptide	polypeptide	NN
work_kkta46aprvda3kxuww62zfddua	75	8	compositions	composition	NNS
work_kkta46aprvda3kxuww62zfddua	75	9	and	and	CC
work_kkta46aprvda3kxuww62zfddua	75	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	75	11	idea	idea	NN
work_kkta46aprvda3kxuww62zfddua	75	12	arose	arise	VBD
work_kkta46aprvda3kxuww62zfddua	75	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	75	14	that	that	IN
work_kkta46aprvda3kxuww62zfddua	75	15	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	75	16	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	75	17	from	from	IN
work_kkta46aprvda3kxuww62zfddua	75	18	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	75	19	differ	differ	NNP
work_kkta46aprvda3kxuww62zfddua	75	20	in	in	IN
work_kkta46aprvda3kxuww62zfddua	75	21	subunit	subunit	JJ
work_kkta46aprvda3kxuww62zfddua	75	22	composition	composition	NN
work_kkta46aprvda3kxuww62zfddua	75	23	and	and	CC
work_kkta46aprvda3kxuww62zfddua	75	24	thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	75	25	in	in	IN
work_kkta46aprvda3kxuww62zfddua	75	26	struc-	struc-	NNP
work_kkta46aprvda3kxuww62zfddua	75	27	ture	ture	NN
work_kkta46aprvda3kxuww62zfddua	75	28	and	and	CC
work_kkta46aprvda3kxuww62zfddua	75	29	function	function	NN
work_kkta46aprvda3kxuww62zfddua	75	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	76	1	Genes	gene	NNS
work_kkta46aprvda3kxuww62zfddua	76	2	had	have	VBD
work_kkta46aprvda3kxuww62zfddua	76	3	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	76	4	isolated	isolate	VBN
work_kkta46aprvda3kxuww62zfddua	76	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	76	6	but	but	CC
work_kkta46aprvda3kxuww62zfddua	76	7	only	only	RB
work_kkta46aprvda3kxuww62zfddua	76	8	single	single	JJ
work_kkta46aprvda3kxuww62zfddua	76	9	genes	gene	NNS
work_kkta46aprvda3kxuww62zfddua	76	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	76	11	not	not	RB
work_kkta46aprvda3kxuww62zfddua	76	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	76	13	entire	entire	JJ
work_kkta46aprvda3kxuww62zfddua	76	14	collection	collection	NN
work_kkta46aprvda3kxuww62zfddua	76	15	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	76	16	encodes	encode	VBZ
work_kkta46aprvda3kxuww62zfddua	76	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	76	18	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	76	19	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	76	20	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	76	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	77	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	77	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	77	3	due	due	JJ
work_kkta46aprvda3kxuww62zfddua	77	4	to	to	IN
work_kkta46aprvda3kxuww62zfddua	77	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	77	6	fact	fact	NN
work_kkta46aprvda3kxuww62zfddua	77	7	that	that	IN
work_kkta46aprvda3kxuww62zfddua	77	8	genes	gene	NNS
work_kkta46aprvda3kxuww62zfddua	77	9	had	have	VBD
work_kkta46aprvda3kxuww62zfddua	77	10	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	77	11	isolated	isolate	VBN
work_kkta46aprvda3kxuww62zfddua	77	12	from	from	IN
work_kkta46aprvda3kxuww62zfddua	77	13	Crenachaeota	Crenachaeota	NNP
work_kkta46aprvda3kxuww62zfddua	77	14	in	in	IN
work_kkta46aprvda3kxuww62zfddua	77	15	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	77	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	77	17	as	as	IN
work_kkta46aprvda3kxuww62zfddua	77	18	determined	determine	VBN
work_kkta46aprvda3kxuww62zfddua	77	19	later	later	RB
work_kkta46aprvda3kxuww62zfddua	77	20	by	by	IN
work_kkta46aprvda3kxuww62zfddua	77	21	genome	genome	JJ
work_kkta46aprvda3kxuww62zfddua	77	22	sequencing	sequencing	NN
work_kkta46aprvda3kxuww62zfddua	77	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	77	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	77	25	genes	gene	NNS
work_kkta46aprvda3kxuww62zfddua	77	26	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	77	27	spread	spread	VBN
work_kkta46aprvda3kxuww62zfddua	77	28	over	over	IN
work_kkta46aprvda3kxuww62zfddua	77	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	77	30	genome	genome	JJ
work_kkta46aprvda3kxuww62zfddua	77	31	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	77	32	34	34	CD
work_kkta46aprvda3kxuww62zfddua	77	33	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	77	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	78	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	78	2	contrast	contrast	NN
work_kkta46aprvda3kxuww62zfddua	78	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	78	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	78	5	euryarchaeon	euryarchaeon	NN
work_kkta46aprvda3kxuww62zfddua	78	6	Methanosarcina	Methanosarcina	NNP
work_kkta46aprvda3kxuww62zfddua	78	7	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	78	8	Gö1	Gö1	NNP
work_kkta46aprvda3kxuww62zfddua	78	9	contained	contain	VBD
work_kkta46aprvda3kxuww62zfddua	78	10	all	all	DT
work_kkta46aprvda3kxuww62zfddua	78	11	genes	gene	NNS
work_kkta46aprvda3kxuww62zfddua	78	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	78	13	a	a	DT
work_kkta46aprvda3kxuww62zfddua	78	14	cluster	cluster	NN
work_kkta46aprvda3kxuww62zfddua	78	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	78	16	actually	actually	RB
work_kkta46aprvda3kxuww62zfddua	78	17	in	in	IN
work_kkta46aprvda3kxuww62zfddua	78	18	an	an	DT
work_kkta46aprvda3kxuww62zfddua	78	19	operon	operon	NN
work_kkta46aprvda3kxuww62zfddua	78	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	78	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	78	22	this	this	DT
work_kkta46aprvda3kxuww62zfddua	78	23	allowed	allow	VBN
work_kkta46aprvda3kxuww62zfddua	78	24	for	for	IN
work_kkta46aprvda3kxuww62zfddua	78	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	78	26	first	first	JJ
work_kkta46aprvda3kxuww62zfddua	78	27	time	time	NN
work_kkta46aprvda3kxuww62zfddua	78	28	a	a	DT
work_kkta46aprvda3kxuww62zfddua	78	29	proposal	proposal	NN
work_kkta46aprvda3kxuww62zfddua	78	30	on	on	IN
work_kkta46aprvda3kxuww62zfddua	78	31	the	the	DT
work_kkta46aprvda3kxuww62zfddua	78	32	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	78	33	composition	composition	NN
work_kkta46aprvda3kxuww62zfddua	78	34	and	and	CC
work_kkta46aprvda3kxuww62zfddua	78	35	topology	topology	NN
work_kkta46aprvda3kxuww62zfddua	78	36	in	in	IN
work_kkta46aprvda3kxuww62zfddua	78	37	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	78	38	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	78	39	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	78	40	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	78	41	35	35	CD
work_kkta46aprvda3kxuww62zfddua	78	42	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	78	43	.	.	.
work_kkta46aprvda3kxuww62zfddua	79	1	These	these	DT
work_kkta46aprvda3kxuww62zfddua	79	2	data	datum	NNS
work_kkta46aprvda3kxuww62zfddua	79	3	indicate	indicate	VBP
work_kkta46aprvda3kxuww62zfddua	79	4	that	that	IN
work_kkta46aprvda3kxuww62zfddua	79	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	79	6	en-	en-	XX
work_kkta46aprvda3kxuww62zfddua	79	7	zyme	zyme	NNS
work_kkta46aprvda3kxuww62zfddua	79	8	contains	contain	VBZ
work_kkta46aprvda3kxuww62zfddua	79	9	at	at	IN
work_kkta46aprvda3kxuww62zfddua	79	10	least	least	JJS
work_kkta46aprvda3kxuww62zfddua	79	11	nine	nine	CD
work_kkta46aprvda3kxuww62zfddua	79	12	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	79	13	.	.	.
work_kkta46aprvda3kxuww62zfddua	80	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	80	2	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	80	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	80	4	much	much	RB
work_kkta46aprvda3kxuww62zfddua	80	5	later	later	RB
work_kkta46aprvda3kxuww62zfddua	80	6	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	80	7	confirmed	confirm	VBD
work_kkta46aprvda3kxuww62zfddua	80	8	after	after	IN
work_kkta46aprvda3kxuww62zfddua	80	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	80	10	first	first	JJ
work_kkta46aprvda3kxuww62zfddua	80	11	“	"	``
work_kkta46aprvda3kxuww62zfddua	80	12	complete	complete	JJ
work_kkta46aprvda3kxuww62zfddua	80	13	”	"	''
work_kkta46aprvda3kxuww62zfddua	80	14	enzymes	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	80	15	had	have	VBD
work_kkta46aprvda3kxuww62zfddua	80	16	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	80	17	isolated	isolate	VBN
work_kkta46aprvda3kxuww62zfddua	80	18	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	80	19	36	36	CD
work_kkta46aprvda3kxuww62zfddua	80	20	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	80	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	81	1	Early	early	JJ
work_kkta46aprvda3kxuww62zfddua	81	2	electron	electron	NNP
work_kkta46aprvda3kxuww62zfddua	81	3	micrographs	micrograph	NNS
work_kkta46aprvda3kxuww62zfddua	81	4	revealed	reveal	VBD
work_kkta46aprvda3kxuww62zfddua	81	5	that	that	IN
work_kkta46aprvda3kxuww62zfddua	81	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	81	7	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	81	8	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	81	9	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	81	10	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	81	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	81	12	like	like	IN
work_kkta46aprvda3kxuww62zfddua	81	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	81	14	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	81	15	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	81	16	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	81	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	81	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	81	19	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	81	20	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	81	21	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	81	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	81	23	organized	organize	VBN
work_kkta46aprvda3kxuww62zfddua	81	24	in	in	IN
work_kkta46aprvda3kxuww62zfddua	81	25	two	two	CD
work_kkta46aprvda3kxuww62zfddua	81	26	domains	domain	NNS
work_kkta46aprvda3kxuww62zfddua	81	27	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	81	28	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	81	29	connected	connect	VBN
work_kkta46aprvda3kxuww62zfddua	81	30	by	by	IN
work_kkta46aprvda3kxuww62zfddua	81	31	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	81	32	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	81	33	35	35	CD
work_kkta46aprvda3kxuww62zfddua	81	34	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	81	35	.	.	.
work_kkta46aprvda3kxuww62zfddua	82	1	At	at	IN
work_kkta46aprvda3kxuww62zfddua	82	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	82	3	time	time	NN
work_kkta46aprvda3kxuww62zfddua	82	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	82	5	discovery	discovery	NN
work_kkta46aprvda3kxuww62zfddua	82	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	82	7	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	82	8	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	82	9	synthases	synthase	VBZ
work_kkta46aprvda3kxuww62zfddua	82	10	two	two	CD
work_kkta46aprvda3kxuww62zfddua	82	11	classes	class	NNS
work_kkta46aprvda3kxuww62zfddua	82	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	82	13	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	82	14	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	82	15	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	82	16	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	82	17	were	be	VBD
work_kkta46aprvda3kxuww62zfddua	82	18	known	know	VBN
work_kkta46aprvda3kxuww62zfddua	82	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	83	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	83	2	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	83	3	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	83	4	synthases	synthase	VBZ
work_kkta46aprvda3kxuww62zfddua	83	5	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	83	6	in	in	IN
work_kkta46aprvda3kxuww62zfddua	83	7	bacteria	bacteria	NNS
work_kkta46aprvda3kxuww62zfddua	83	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	83	9	mitochondria	mitochondrion	NNS
work_kkta46aprvda3kxuww62zfddua	83	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	83	11	chloroplasts	chloroplast	NNS
work_kkta46aprvda3kxuww62zfddua	83	12	were	be	VBD
work_kkta46aprvda3kxuww62zfddua	83	13	evolved	evolve	VBN
work_kkta46aprvda3kxuww62zfddua	83	14	to	to	TO
work_kkta46aprvda3kxuww62zfddua	83	15	synthesize	synthesize	VB
work_kkta46aprvda3kxuww62zfddua	83	16	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	83	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	84	1	On	on	IN
work_kkta46aprvda3kxuww62zfddua	84	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	84	3	other	other	JJ
work_kkta46aprvda3kxuww62zfddua	84	4	hand	hand	NN
work_kkta46aprvda3kxuww62zfddua	84	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	84	6	organelles	organelle	NNS
work_kkta46aprvda3kxuww62zfddua	84	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	84	8	eukaryotes	eukaryote	NNS
work_kkta46aprvda3kxuww62zfddua	84	9	need	need	VBP
work_kkta46aprvda3kxuww62zfddua	84	10	to	to	TO
work_kkta46aprvda3kxuww62zfddua	84	11	be	be	VB
work_kkta46aprvda3kxuww62zfddua	84	12	energized	energize	VBN
work_kkta46aprvda3kxuww62zfddua	84	13	to	to	TO
work_kkta46aprvda3kxuww62zfddua	84	14	drive	drive	VB
work_kkta46aprvda3kxuww62zfddua	84	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	84	16	for	for	IN
work_kkta46aprvda3kxuww62zfddua	84	17	example	example	NN
work_kkta46aprvda3kxuww62zfddua	84	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	84	19	transport	transport	NN
work_kkta46aprvda3kxuww62zfddua	84	20	processes	process	NNS
work_kkta46aprvda3kxuww62zfddua	84	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	85	1	Since	since	IN
work_kkta46aprvda3kxuww62zfddua	85	2	electron	electron	NN
work_kkta46aprvda3kxuww62zfddua	85	3	transport	transport	NN
work_kkta46aprvda3kxuww62zfddua	85	4	machineries	machinery	NNS
work_kkta46aprvda3kxuww62zfddua	85	5	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	85	6	only	only	RB
work_kkta46aprvda3kxuww62zfddua	85	7	found	find	VBN
work_kkta46aprvda3kxuww62zfddua	85	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	85	9	mitochondria	mitochondrion	NNS
work_kkta46aprvda3kxuww62zfddua	85	10	or	or	CC
work_kkta46aprvda3kxuww62zfddua	85	11	chloroplasts	chloroplast	NNS
work_kkta46aprvda3kxuww62zfddua	85	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	85	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	85	14	other	other	JJ
work_kkta46aprvda3kxuww62zfddua	85	15	organelles	organelle	NNS
work_kkta46aprvda3kxuww62zfddua	85	16	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	85	17	energized	energize	VBN
work_kkta46aprvda3kxuww62zfddua	85	18	by	by	IN
work_kkta46aprvda3kxuww62zfddua	85	19	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	85	20	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	85	21	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	85	22	hydrolyzed	hydrolyze	VBN
work_kkta46aprvda3kxuww62zfddua	85	23	according	accord	VBG
work_kkta46aprvda3kxuww62zfddua	85	24	to	to	IN
work_kkta46aprvda3kxuww62zfddua	85	25	Eq	Eq	NNP
work_kkta46aprvda3kxuww62zfddua	85	26	.	.	.
work_kkta46aprvda3kxuww62zfddua	86	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	86	2	1	1	CD
work_kkta46aprvda3kxuww62zfddua	86	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	86	4	.	.	.
work_kkta46aprvda3kxuww62zfddua	87	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	87	2	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	87	3	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	87	4	catalyzes	catalyze	VBZ
work_kkta46aprvda3kxuww62zfddua	87	5	this	this	DT
work_kkta46aprvda3kxuww62zfddua	87	6	reaction	reaction	NN
work_kkta46aprvda3kxuww62zfddua	87	7	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	87	8	purified	purify	VBN
work_kkta46aprvda3kxuww62zfddua	87	9	from	from	IN
work_kkta46aprvda3kxuww62zfddua	87	10	those	those	DT
work_kkta46aprvda3kxuww62zfddua	87	11	organelles	organelle	NNS
work_kkta46aprvda3kxuww62zfddua	87	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	87	13	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	87	14	to	to	TO
work_kkta46aprvda3kxuww62zfddua	87	15	have	have	VB
work_kkta46aprvda3kxuww62zfddua	87	16	the	the	DT
work_kkta46aprvda3kxuww62zfddua	87	17	same	same	JJ
work_kkta46aprvda3kxuww62zfddua	87	18	overall	overall	JJ
work_kkta46aprvda3kxuww62zfddua	87	19	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	87	20	topology	topology	NN
work_kkta46aprvda3kxuww62zfddua	87	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	87	22	with	with	IN
work_kkta46aprvda3kxuww62zfddua	87	23	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	87	24	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	87	25	and	and	CC
work_kkta46aprvda3kxuww62zfddua	87	26	a	a	DT
work_kkta46aprvda3kxuww62zfddua	87	27	cytoplasmic	cytoplasmic	JJ
work_kkta46aprvda3kxuww62zfddua	87	28	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	87	29	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	87	30	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	87	31	connected	connect	VBN
work_kkta46aprvda3kxuww62zfddua	87	32	by	by	IN
work_kkta46aprvda3kxuww62zfddua	87	33	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	87	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	88	1	Some	some	DT
work_kkta46aprvda3kxuww62zfddua	88	2	of	of	IN
work_kkta46aprvda3kxuww62zfddua	88	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	88	4	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	88	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	88	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	88	7	globular	globular	JJ
work_kkta46aprvda3kxuww62zfddua	88	8	cytoplasmic	cytoplasmic	JJ
work_kkta46aprvda3kxuww62zfddua	88	9	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	88	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	88	11	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	88	12	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	88	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	88	14	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	88	15	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	88	16	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	88	17	like	like	IN
work_kkta46aprvda3kxuww62zfddua	88	18	α	α	NN
work_kkta46aprvda3kxuww62zfddua	88	19	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	88	20	B	b	NN
work_kkta46aprvda3kxuww62zfddua	88	21	or	or	CC
work_kkta46aprvda3kxuww62zfddua	88	22	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	88	23	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	88	24	A	a	DT
work_kkta46aprvda3kxuww62zfddua	88	25	shared	share	VBD
work_kkta46aprvda3kxuww62zfddua	88	26	a	a	DT
work_kkta46aprvda3kxuww62zfddua	88	27	consider-	consider-	NN
work_kkta46aprvda3kxuww62zfddua	88	28	able	able	JJ
work_kkta46aprvda3kxuww62zfddua	88	29	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	88	30	identity	identity	NN
work_kkta46aprvda3kxuww62zfddua	88	31	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	88	32	20–30	20–30	CD
work_kkta46aprvda3kxuww62zfddua	88	33	%	%	NN
work_kkta46aprvda3kxuww62zfddua	88	34	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	88	35	,	,	,
work_kkta46aprvda3kxuww62zfddua	88	36	whereas	whereas	IN
work_kkta46aprvda3kxuww62zfddua	88	37	other	other	JJ
work_kkta46aprvda3kxuww62zfddua	88	38	smaller	small	JJR
work_kkta46aprvda3kxuww62zfddua	88	39	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	88	40	did	do	VBD
work_kkta46aprvda3kxuww62zfddua	88	41	not	not	RB
work_kkta46aprvda3kxuww62zfddua	88	42	.	.	.
work_kkta46aprvda3kxuww62zfddua	89	1	Therefore	therefore	RB
work_kkta46aprvda3kxuww62zfddua	89	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	89	3	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	89	4	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	89	5	concluded	conclude	VBN
work_kkta46aprvda3kxuww62zfddua	89	6	that	that	IN
work_kkta46aprvda3kxuww62zfddua	89	7	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	89	8	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	89	9	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	89	10	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	89	11	arose	arise	VBD
work_kkta46aprvda3kxuww62zfddua	89	12	from	from	IN
work_kkta46aprvda3kxuww62zfddua	89	13	a	a	DT
work_kkta46aprvda3kxuww62zfddua	89	14	common	common	JJ
work_kkta46aprvda3kxuww62zfddua	89	15	ancestor	ancestor	NN
work_kkta46aprvda3kxuww62zfddua	89	16	but	but	CC
work_kkta46aprvda3kxuww62zfddua	89	17	evolved	evolve	VBD
work_kkta46aprvda3kxuww62zfddua	89	18	into	into	IN
work_kkta46aprvda3kxuww62zfddua	89	19	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	89	20	classes	class	NNS
work_kkta46aprvda3kxuww62zfddua	89	21	with	with	IN
work_kkta46aprvda3kxuww62zfddua	89	22	distinct	distinct	JJ
work_kkta46aprvda3kxuww62zfddua	89	23	function	function	NN
work_kkta46aprvda3kxuww62zfddua	89	24	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	89	25	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	89	26	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	89	27	vs.	vs.	IN
work_kkta46aprvda3kxuww62zfddua	89	28	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	89	29	hydrolysis	hydrolysis	NN
work_kkta46aprvda3kxuww62zfddua	89	30	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	89	31	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	89	32	32,37–40	32,37–40	CD
work_kkta46aprvda3kxuww62zfddua	89	33	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	89	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	90	1	Since	since	IN
work_kkta46aprvda3kxuww62zfddua	90	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	90	3	first	first	JJ
work_kkta46aprvda3kxuww62zfddua	90	4	organellar	organellar	JJ
work_kkta46aprvda3kxuww62zfddua	90	5	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	90	6	were	be	VBD
work_kkta46aprvda3kxuww62zfddua	90	7	purified	purify	VBN
work_kkta46aprvda3kxuww62zfddua	90	8	from	from	IN
work_kkta46aprvda3kxuww62zfddua	90	9	vacuoles	vacuole	NNS
work_kkta46aprvda3kxuww62zfddua	90	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	90	11	this	this	DT
work_kkta46aprvda3kxuww62zfddua	90	12	class	class	NN
work_kkta46aprvda3kxuww62zfddua	90	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	90	14	enzymes	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	90	15	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	90	16	now	now	RB
work_kkta46aprvda3kxuww62zfddua	90	17	referred	refer	VBN
work_kkta46aprvda3kxuww62zfddua	90	18	to	to	IN
work_kkta46aprvda3kxuww62zfddua	90	19	as	as	RB
work_kkta46aprvda3kxuww62zfddua	90	20	vacuolar	vacuolar	JJ
work_kkta46aprvda3kxuww62zfddua	90	21	V1VO	v1vo	NN
work_kkta46aprvda3kxuww62zfddua	90	22	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	90	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	91	1	It	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	91	2	should	should	MD
work_kkta46aprvda3kxuww62zfddua	91	3	be	be	VB
work_kkta46aprvda3kxuww62zfddua	91	4	pointed	point	VBN
work_kkta46aprvda3kxuww62zfddua	91	5	out	out	RP
work_kkta46aprvda3kxuww62zfddua	91	6	that	that	IN
work_kkta46aprvda3kxuww62zfddua	91	7	eukaryotes	eukaryote	NNS
work_kkta46aprvda3kxuww62zfddua	91	8	thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	91	9	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	91	10	two	two	CD
work_kkta46aprvda3kxuww62zfddua	91	11	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	91	12	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	91	13	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	91	14	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	91	15	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	91	16	:	:	:
work_kkta46aprvda3kxuww62zfddua	91	17	a	a	DT
work_kkta46aprvda3kxuww62zfddua	91	18	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	91	19	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	91	20	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	91	21	in	in	IN
work_kkta46aprvda3kxuww62zfddua	91	22	mitochondria	mitochondrion	NNS
work_kkta46aprvda3kxuww62zfddua	91	23	and	and	CC
work_kkta46aprvda3kxuww62zfddua	91	24	chloroplasts	chloroplast	NNS
work_kkta46aprvda3kxuww62zfddua	91	25	and	and	CC
work_kkta46aprvda3kxuww62zfddua	91	26	a	a	DT
work_kkta46aprvda3kxuww62zfddua	91	27	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	91	28	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	91	29	in	in	IN
work_kkta46aprvda3kxuww62zfddua	91	30	other	other	JJ
work_kkta46aprvda3kxuww62zfddua	91	31	organelles	organelle	NNS
work_kkta46aprvda3kxuww62zfddua	91	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	92	1	For	for	IN
work_kkta46aprvda3kxuww62zfddua	92	2	a	a	DT
work_kkta46aprvda3kxuww62zfddua	92	3	long	long	JJ
work_kkta46aprvda3kxuww62zfddua	92	4	time	time	NN
work_kkta46aprvda3kxuww62zfddua	92	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	92	6	there	there	EX
work_kkta46aprvda3kxuww62zfddua	92	7	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	92	8	a	a	DT
work_kkta46aprvda3kxuww62zfddua	92	9	clear	clear	JJ
work_kkta46aprvda3kxuww62zfddua	92	10	view	view	NN
work_kkta46aprvda3kxuww62zfddua	92	11	on	on	IN
work_kkta46aprvda3kxuww62zfddua	92	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	92	13	“	"	``
work_kkta46aprvda3kxuww62zfddua	92	14	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	92	15	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	92	16	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	92	17	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	92	18	world	world	NN
work_kkta46aprvda3kxuww62zfddua	92	19	”	"	''
work_kkta46aprvda3kxuww62zfddua	92	20	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	92	21	had	have	VBD
work_kkta46aprvda3kxuww62zfddua	92	22	two	two	CD
work_kkta46aprvda3kxuww62zfddua	92	23	“	"	``
work_kkta46aprvda3kxuww62zfddua	92	24	continents	continent	NNS
work_kkta46aprvda3kxuww62zfddua	92	25	”	"	''
work_kkta46aprvda3kxuww62zfddua	92	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	92	27	the	the	DT
work_kkta46aprvda3kxuww62zfddua	92	28	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	92	29	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	92	30	syn-	syn-	NN
work_kkta46aprvda3kxuww62zfddua	92	31	thase	thase	NN
work_kkta46aprvda3kxuww62zfddua	92	32	and	and	CC
work_kkta46aprvda3kxuww62zfddua	92	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	92	34	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	92	35	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	92	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	93	1	942	942	CD
work_kkta46aprvda3kxuww62zfddua	93	2	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	93	3	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	93	4	et	et	FW
work_kkta46aprvda3kxuww62zfddua	93	5	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	93	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	94	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	94	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	94	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	94	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	94	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	94	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	94	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	94	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	94	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	94	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	94	11	After	after	IN
work_kkta46aprvda3kxuww62zfddua	94	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	94	13	first	first	JJ
work_kkta46aprvda3kxuww62zfddua	94	14	biochemical	biochemical	JJ
work_kkta46aprvda3kxuww62zfddua	94	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	94	16	immunological	immunological	JJ
work_kkta46aprvda3kxuww62zfddua	94	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	94	18	molecular	molecular	JJ
work_kkta46aprvda3kxuww62zfddua	94	19	studies	study	NNS
work_kkta46aprvda3kxuww62zfddua	94	20	re-	re-	JJ
work_kkta46aprvda3kxuww62zfddua	94	21	searchers	searcher	NNS
work_kkta46aprvda3kxuww62zfddua	94	22	were	be	VBD
work_kkta46aprvda3kxuww62zfddua	94	23	puzzled	puzzle	VBN
work_kkta46aprvda3kxuww62zfddua	94	24	to	to	TO
work_kkta46aprvda3kxuww62zfddua	94	25	group	group	VB
work_kkta46aprvda3kxuww62zfddua	94	26	the	the	DT
work_kkta46aprvda3kxuww62zfddua	94	27	archaeal	archaeal	NN
work_kkta46aprvda3kxuww62zfddua	94	28	enzymes	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	94	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	95	1	They	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	95	2	apparently	apparently	RB
work_kkta46aprvda3kxuww62zfddua	95	3	had	have	VBD
work_kkta46aprvda3kxuww62zfddua	95	4	properties	property	NNS
work_kkta46aprvda3kxuww62zfddua	95	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	95	6	enzymes	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	95	7	from	from	IN
work_kkta46aprvda3kxuww62zfddua	95	8	both	both	DT
work_kkta46aprvda3kxuww62zfddua	95	9	classes	class	NNS
work_kkta46aprvda3kxuww62zfddua	95	10	.	.	.
work_kkta46aprvda3kxuww62zfddua	96	1	Sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	96	2	analysis	analysis	NN
work_kkta46aprvda3kxuww62zfddua	96	3	revealed	reveal	VBD
work_kkta46aprvda3kxuww62zfddua	96	4	a	a	DT
work_kkta46aprvda3kxuww62zfddua	96	5	close	close	JJ
work_kkta46aprvda3kxuww62zfddua	96	6	relationship	relationship	NN
work_kkta46aprvda3kxuww62zfddua	96	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	96	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	96	9	A	a	NN
work_kkta46aprvda3kxuww62zfddua	96	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	96	11	B	b	NN
work_kkta46aprvda3kxuww62zfddua	96	12	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	96	13	to	to	IN
work_kkta46aprvda3kxuww62zfddua	96	14	A	a	NN
work_kkta46aprvda3kxuww62zfddua	96	15	and	and	CC
work_kkta46aprvda3kxuww62zfddua	96	16	B	b	NN
work_kkta46aprvda3kxuww62zfddua	96	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	96	18	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	96	19	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	96	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	96	21	respectively	respectively	RB
work_kkta46aprvda3kxuww62zfddua	96	22	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	96	23	41	41	CD
work_kkta46aprvda3kxuww62zfddua	96	24	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	96	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	97	1	Since	since	IN
work_kkta46aprvda3kxuww62zfddua	97	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	97	3	primary	primary	JJ
work_kkta46aprvda3kxuww62zfddua	97	4	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	97	5	identity	identity	NN
work_kkta46aprvda3kxuww62zfddua	97	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	97	7	A	a	NN
work_kkta46aprvda3kxuww62zfddua	97	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	97	9	B	b	NN
work_kkta46aprvda3kxuww62zfddua	97	10	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	97	11	higher	high	JJR
work_kkta46aprvda3kxuww62zfddua	97	12	to	to	IN
work_kkta46aprvda3kxuww62zfddua	97	13	A	a	NN
work_kkta46aprvda3kxuww62zfddua	97	14	and	and	CC
work_kkta46aprvda3kxuww62zfddua	97	15	B	b	NN
work_kkta46aprvda3kxuww62zfddua	97	16	from	from	IN
work_kkta46aprvda3kxuww62zfddua	97	17	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	97	18	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	97	19	than	than	IN
work_kkta46aprvda3kxuww62zfddua	97	20	β#α	β#α	IN
work_kkta46aprvda3kxuww62zfddua	97	21	from	from	IN
work_kkta46aprvda3kxuww62zfddua	97	22	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	97	23	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	97	24	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	97	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	97	26	the	the	DT
work_kkta46aprvda3kxuww62zfddua	97	27	archaeal	archaeal	NN
work_kkta46aprvda3kxuww62zfddua	97	28	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	97	29	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	97	30	named	name	VBN
work_kkta46aprvda3kxuww62zfddua	97	31	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	97	32	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	97	33	and	and	CC
work_kkta46aprvda3kxuww62zfddua	97	34	genes	gene	NNS
work_kkta46aprvda3kxuww62zfddua	97	35	were	be	VBD
work_kkta46aprvda3kxuww62zfddua	97	36	annotated	annotate	VBN
work_kkta46aprvda3kxuww62zfddua	97	37	as	as	IN
work_kkta46aprvda3kxuww62zfddua	97	38	genes	gene	NNS
work_kkta46aprvda3kxuww62zfddua	97	39	encoding	encode	VBG
work_kkta46aprvda3kxuww62zfddua	97	40	V1VO	v1vo	NN
work_kkta46aprvda3kxuww62zfddua	97	41	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	97	42	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	97	43	.	.	.
work_kkta46aprvda3kxuww62zfddua	98	1	However	however	RB
work_kkta46aprvda3kxuww62zfddua	98	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	98	3	already	already	RB
work_kkta46aprvda3kxuww62zfddua	98	4	at	at	IN
work_kkta46aprvda3kxuww62zfddua	98	5	that	that	DT
work_kkta46aprvda3kxuww62zfddua	98	6	time	time	NN
work_kkta46aprvda3kxuww62zfddua	98	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	98	8	Mukohata	Mukohata	NNP
work_kkta46aprvda3kxuww62zfddua	98	9	and	and	CC
work_kkta46aprvda3kxuww62zfddua	98	10	Schäfer	schäfer	VB
work_kkta46aprvda3kxuww62zfddua	98	11	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	98	12	42,43	42,43	CD
work_kkta46aprvda3kxuww62zfddua	98	13	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	98	14	argued	argue	VBD
work_kkta46aprvda3kxuww62zfddua	98	15	that	that	IN
work_kkta46aprvda3kxuww62zfddua	98	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	98	17	although	although	IN
work_kkta46aprvda3kxuww62zfddua	98	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	98	19	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	98	20	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	98	21	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	98	22	shares	share	NNS
work_kkta46aprvda3kxuww62zfddua	98	23	features	feature	VBZ
work_kkta46aprvda3kxuww62zfddua	98	24	with	with	IN
work_kkta46aprvda3kxuww62zfddua	98	25	both	both	DT
work_kkta46aprvda3kxuww62zfddua	98	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	98	27	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	98	28	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	98	29	and	and	CC
work_kkta46aprvda3kxuww62zfddua	98	30	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	98	31	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	98	32	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	98	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	98	34	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	98	35	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	98	36	so	so	RB
work_kkta46aprvda3kxuww62zfddua	98	37	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	98	38	from	from	IN
work_kkta46aprvda3kxuww62zfddua	98	39	the	the	DT
work_kkta46aprvda3kxuww62zfddua	98	40	other	other	JJ
work_kkta46aprvda3kxuww62zfddua	98	41	two	two	CD
work_kkta46aprvda3kxuww62zfddua	98	42	groups	group	NNS
work_kkta46aprvda3kxuww62zfddua	98	43	,	,	,
work_kkta46aprvda3kxuww62zfddua	98	44	that	that	IN
work_kkta46aprvda3kxuww62zfddua	98	45	they	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	98	46	should	should	MD
work_kkta46aprvda3kxuww62zfddua	98	47	be	be	VB
work_kkta46aprvda3kxuww62zfddua	98	48	grouped	group	VBN
work_kkta46aprvda3kxuww62zfddua	98	49	in	in	IN
work_kkta46aprvda3kxuww62zfddua	98	50	a	a	DT
work_kkta46aprvda3kxuww62zfddua	98	51	third	third	JJ
work_kkta46aprvda3kxuww62zfddua	98	52	class	class	NN
work_kkta46aprvda3kxuww62zfddua	98	53	,	,	,
work_kkta46aprvda3kxuww62zfddua	98	54	the	the	DT
work_kkta46aprvda3kxuww62zfddua	98	55	archaeal	archaeal	NN
work_kkta46aprvda3kxuww62zfddua	98	56	or	or	CC
work_kkta46aprvda3kxuww62zfddua	98	57	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	98	58	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	98	59	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	98	60	.	.	.
work_kkta46aprvda3kxuww62zfddua	99	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	99	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	99	3	now	now	RB
work_kkta46aprvda3kxuww62zfddua	99	4	clearly	clearly	RB
work_kkta46aprvda3kxuww62zfddua	99	5	justified	justify	VBN
work_kkta46aprvda3kxuww62zfddua	99	6	by	by	IN
work_kkta46aprvda3kxuww62zfddua	99	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	99	8	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	99	9	and	and	CC
work_kkta46aprvda3kxuww62zfddua	99	10	mechanistic	mechanistic	JJ
work_kkta46aprvda3kxuww62zfddua	99	11	results	result	NNS
work_kkta46aprvda3kxuww62zfddua	99	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	99	13	as	as	IN
work_kkta46aprvda3kxuww62zfddua	99	14	discussed	discuss	VBN
work_kkta46aprvda3kxuww62zfddua	99	15	below	below	RB
work_kkta46aprvda3kxuww62zfddua	99	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	99	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	99	18	functional	functional	JJ
work_kkta46aprvda3kxuww62zfddua	99	19	studies	study	NNS
work_kkta46aprvda3kxuww62zfddua	99	20	.	.	.
work_kkta46aprvda3kxuww62zfddua	100	1	Whereas	whereas	IN
work_kkta46aprvda3kxuww62zfddua	100	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	100	3	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	100	4	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	100	5	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	100	6	catalyzes	catalyze	VBZ
work_kkta46aprvda3kxuww62zfddua	100	7	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	100	8	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	100	9	at	at	IN
work_kkta46aprvda3kxuww62zfddua	100	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	100	11	expense	expense	NN
work_kkta46aprvda3kxuww62zfddua	100	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	100	13	an	an	DT
work_kkta46aprvda3kxuww62zfddua	100	14	electrochemical	electrochemical	JJ
work_kkta46aprvda3kxuww62zfddua	100	15	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	100	16	gradient	gradient	NN
work_kkta46aprvda3kxuww62zfddua	100	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	100	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	100	19	eukaryal	eukaryal	NN
work_kkta46aprvda3kxuww62zfddua	100	20	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	100	21	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	100	22	functions	function	NNS
work_kkta46aprvda3kxuww62zfddua	100	23	as	as	IN
work_kkta46aprvda3kxuww62zfddua	100	24	an	an	DT
work_kkta46aprvda3kxuww62zfddua	100	25	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	100	26	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	100	27	driven	drive	VBN
work_kkta46aprvda3kxuww62zfddua	100	28	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	100	29	pump	pump	NN
work_kkta46aprvda3kxuww62zfddua	100	30	,	,	,
work_kkta46aprvda3kxuww62zfddua	100	31	unable	unable	JJ
work_kkta46aprvda3kxuww62zfddua	100	32	to	to	TO
work_kkta46aprvda3kxuww62zfddua	100	33	synthesize	synthesize	VB
work_kkta46aprvda3kxuww62zfddua	100	34	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	100	35	under	under	IN
work_kkta46aprvda3kxuww62zfddua	100	36	physiological	physiological	JJ
work_kkta46aprvda3kxuww62zfddua	100	37	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	100	38	.	.	.
work_kkta46aprvda3kxuww62zfddua	101	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	101	2	cellular	cellular	JJ
work_kkta46aprvda3kxuww62zfddua	101	3	function	function	NN
work_kkta46aprvda3kxuww62zfddua	101	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	101	5	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	101	6	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	101	7	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	101	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	101	9	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	101	10	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	101	11	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	101	12	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	101	13	to	to	TO
work_kkta46aprvda3kxuww62zfddua	101	14	synthesize	synthesize	VB
work_kkta46aprvda3kxuww62zfddua	101	15	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	101	16	by	by	IN
work_kkta46aprvda3kxuww62zfddua	101	17	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	101	18	gradient	gradient	NN
work_kkta46aprvda3kxuww62zfddua	101	19	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	101	20	driven	drive	VBN
work_kkta46aprvda3kxuww62zfddua	101	21	phosphorylation	phosphorylation	NN
work_kkta46aprvda3kxuww62zfddua	101	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	101	23	but	but	CC
work_kkta46aprvda3kxuww62zfddua	101	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	101	25	reaction	reaction	NN
work_kkta46aprvda3kxuww62zfddua	101	26	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	101	27	reversible	reversible	JJ
work_kkta46aprvda3kxuww62zfddua	101	28	and	and	CC
work_kkta46aprvda3kxuww62zfddua	101	29	they	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	101	30	may	may	MD
work_kkta46aprvda3kxuww62zfddua	101	31	also	also	RB
work_kkta46aprvda3kxuww62zfddua	101	32	work	work	VB
work_kkta46aprvda3kxuww62zfddua	101	33	as	as	IN
work_kkta46aprvda3kxuww62zfddua	101	34	an	an	DT
work_kkta46aprvda3kxuww62zfddua	101	35	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	101	36	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	101	37	driven	drive	VBN
work_kkta46aprvda3kxuww62zfddua	101	38	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	101	39	pumps	pump	NNS
work_kkta46aprvda3kxuww62zfddua	101	40	to	to	TO
work_kkta46aprvda3kxuww62zfddua	101	41	generate	generate	VB
work_kkta46aprvda3kxuww62zfddua	101	42	an	an	DT
work_kkta46aprvda3kxuww62zfddua	101	43	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	101	44	gradient	gradient	NN
work_kkta46aprvda3kxuww62zfddua	101	45	under	under	IN
work_kkta46aprvda3kxuww62zfddua	101	46	fermentative	fermentative	JJ
work_kkta46aprvda3kxuww62zfddua	101	47	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	101	48	.	.	.
work_kkta46aprvda3kxuww62zfddua	102	1	4	4	LS
work_kkta46aprvda3kxuww62zfddua	102	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	103	1	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	103	2	and	and	CC
work_kkta46aprvda3kxuww62zfddua	103	3	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	103	4	mechanism	mechanism	NN
work_kkta46aprvda3kxuww62zfddua	103	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	103	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	103	7	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	103	8	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	103	9	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	103	10	4.1	4.1	CD
work_kkta46aprvda3kxuww62zfddua	103	11	.	.	.
work_kkta46aprvda3kxuww62zfddua	104	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	104	2	overall	overall	JJ
work_kkta46aprvda3kxuww62zfddua	104	3	arrangement	arrangement	NN
work_kkta46aprvda3kxuww62zfddua	104	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	104	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	104	6	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	104	7	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	104	8	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	104	9	The	the	DT
work_kkta46aprvda3kxuww62zfddua	104	10	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	104	11	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	104	12	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	104	13	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	104	14	composed	compose	VBN
work_kkta46aprvda3kxuww62zfddua	104	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	104	16	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	104	17	A	a	NN
work_kkta46aprvda3kxuww62zfddua	104	18	–	–	:
work_kkta46aprvda3kxuww62zfddua	104	19	F	f	NN
work_kkta46aprvda3kxuww62zfddua	104	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	104	21	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	104	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	104	23	a	a	NN
work_kkta46aprvda3kxuww62zfddua	104	24	and	and	CC
work_kkta46aprvda3kxuww62zfddua	104	25	c	c	NN
work_kkta46aprvda3kxuww62zfddua	104	26	in	in	IN
work_kkta46aprvda3kxuww62zfddua	104	27	the	the	DT
work_kkta46aprvda3kxuww62zfddua	104	28	proposed	propose	VBN
work_kkta46aprvda3kxuww62zfddua	104	29	stoichiometry	stoichiometry	NN
work_kkta46aprvda3kxuww62zfddua	104	30	of	of	IN
work_kkta46aprvda3kxuww62zfddua	104	31	A3	A3	NNP
work_kkta46aprvda3kxuww62zfddua	104	32	:	:	:
work_kkta46aprvda3kxuww62zfddua	104	33	B3	b3	NN
work_kkta46aprvda3kxuww62zfddua	104	34	:	:	:
work_kkta46aprvda3kxuww62zfddua	104	35	C	c	NN
work_kkta46aprvda3kxuww62zfddua	104	36	:	:	:
work_kkta46aprvda3kxuww62zfddua	104	37	D	d	NN
work_kkta46aprvda3kxuww62zfddua	104	38	:	:	:
work_kkta46aprvda3kxuww62zfddua	104	39	E2	e2	NN
work_kkta46aprvda3kxuww62zfddua	104	40	:	:	:
work_kkta46aprvda3kxuww62zfddua	104	41	F	f	NN
work_kkta46aprvda3kxuww62zfddua	104	42	:	:	:
work_kkta46aprvda3kxuww62zfddua	104	43	H2	h2	NN
work_kkta46aprvda3kxuww62zfddua	104	44	:	:	:
work_kkta46aprvda3kxuww62zfddua	104	45	a	a	DT
work_kkta46aprvda3kxuww62zfddua	104	46	:	:	:
work_kkta46aprvda3kxuww62zfddua	104	47	cx	cx	NNP
work_kkta46aprvda3kxuww62zfddua	104	48	.	.	.
work_kkta46aprvda3kxuww62zfddua	105	1	Similar	similar	JJ
work_kkta46aprvda3kxuww62zfddua	105	2	to	to	IN
work_kkta46aprvda3kxuww62zfddua	105	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	105	4	related	related	JJ
work_kkta46aprvda3kxuww62zfddua	105	5	bacterial	bacterial	JJ
work_kkta46aprvda3kxuww62zfddua	105	6	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	105	7	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	105	8	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	105	9	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	105	10	α3	α3	NN
work_kkta46aprvda3kxuww62zfddua	105	11	:	:	:
work_kkta46aprvda3kxuww62zfddua	105	12	β3	β3	NNP
work_kkta46aprvda3kxuww62zfddua	105	13	:	:	:
work_kkta46aprvda3kxuww62zfddua	105	14	γ	γ	NNP
work_kkta46aprvda3kxuww62zfddua	105	15	:	:	:
work_kkta46aprvda3kxuww62zfddua	105	16	δ	δ	NNP
work_kkta46aprvda3kxuww62zfddua	105	17	:	:	:
work_kkta46aprvda3kxuww62zfddua	105	18	ε	ε	LS
work_kkta46aprvda3kxuww62zfddua	105	19	:	:	:
work_kkta46aprvda3kxuww62zfddua	105	20	a	a	LS
work_kkta46aprvda3kxuww62zfddua	105	21	:	:	:
work_kkta46aprvda3kxuww62zfddua	105	22	b2	b2	NN
work_kkta46aprvda3kxuww62zfddua	105	23	:	:	:
work_kkta46aprvda3kxuww62zfddua	105	24	cx	cx	NNP
work_kkta46aprvda3kxuww62zfddua	105	25	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	105	26	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	105	27	possesses	possess	VBZ
work_kkta46aprvda3kxuww62zfddua	105	28	a	a	DT
work_kkta46aprvda3kxuww62zfddua	105	29	water-	water-	JJ
work_kkta46aprvda3kxuww62zfddua	105	30	soluble	soluble	JJ
work_kkta46aprvda3kxuww62zfddua	105	31	A1	a1	NN
work_kkta46aprvda3kxuww62zfddua	105	32	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	105	33	,	,	,
work_kkta46aprvda3kxuww62zfddua	105	34	containing	contain	VBG
work_kkta46aprvda3kxuww62zfddua	105	35	the	the	DT
work_kkta46aprvda3kxuww62zfddua	105	36	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	105	37	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	105	38	,	,	,
work_kkta46aprvda3kxuww62zfddua	105	39	and	and	CC
work_kkta46aprvda3kxuww62zfddua	105	40	an	an	DT
work_kkta46aprvda3kxuww62zfddua	105	41	integral	integral	JJ
work_kkta46aprvda3kxuww62zfddua	105	42	mem-	mem-	NN
work_kkta46aprvda3kxuww62zfddua	105	43	brane	brane	NN
work_kkta46aprvda3kxuww62zfddua	105	44	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	105	45	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	105	46	,	,	,
work_kkta46aprvda3kxuww62zfddua	105	47	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	105	48	in	in	IN
work_kkta46aprvda3kxuww62zfddua	105	49	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	105	50	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	105	51	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	105	52	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	105	53	.	.	.
work_kkta46aprvda3kxuww62zfddua	106	1	1A	1a	LS
work_kkta46aprvda3kxuww62zfddua	106	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	106	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	107	1	Two	two	CD
work_kkta46aprvda3kxuww62zfddua	107	2	dimensional-	dimensional-	NN
work_kkta46aprvda3kxuww62zfddua	107	3	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	107	4	44,45	44,45	CD
work_kkta46aprvda3kxuww62zfddua	107	5	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	107	6	and	and	CC
work_kkta46aprvda3kxuww62zfddua	107	7	three	three	CD
work_kkta46aprvda3kxuww62zfddua	107	8	dimensional	dimensional	JJ
work_kkta46aprvda3kxuww62zfddua	107	9	reconstructions	reconstruction	NNS
work_kkta46aprvda3kxuww62zfddua	107	10	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	107	11	46–48	46–48	CD
work_kkta46aprvda3kxuww62zfddua	107	12	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	107	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	107	14	electron	electron	NNP
work_kkta46aprvda3kxuww62zfddua	107	15	micrographs	micrographs	NNP
work_kkta46aprvda3kxuww62zfddua	107	16	revealed	reveal	VBD
work_kkta46aprvda3kxuww62zfddua	107	17	a	a	DT
work_kkta46aprvda3kxuww62zfddua	107	18	bipartite	bipartite	JJ
work_kkta46aprvda3kxuww62zfddua	107	19	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	107	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	107	21	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	107	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	108	1	1	1	LS
work_kkta46aprvda3kxuww62zfddua	108	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	109	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	2	A	a	DT
work_kkta46aprvda3kxuww62zfddua	109	3	–	–	:
work_kkta46aprvda3kxuww62zfddua	109	4	D	d	NN
work_kkta46aprvda3kxuww62zfddua	109	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	6	Arrangements	arrangement	NNS
work_kkta46aprvda3kxuww62zfddua	109	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	109	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	109	9	atomic	atomic	JJ
work_kkta46aprvda3kxuww62zfddua	109	10	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	109	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	109	12	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	109	13	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	109	14	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	109	15	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	109	16	inside	inside	IN
work_kkta46aprvda3kxuww62zfddua	109	17	th	th	NNP
work_kkta46aprvda3kxuww62zfddua	109	18	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	19	orange	orange	NN
work_kkta46aprvda3kxuww62zfddua	109	20	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	109	22	B	b	NN
work_kkta46aprvda3kxuww62zfddua	109	23	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	24	dark	dark	JJ
work_kkta46aprvda3kxuww62zfddua	109	25	green	green	NN
work_kkta46aprvda3kxuww62zfddua	109	26	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	27	from	from	IN
work_kkta46aprvda3kxuww62zfddua	109	28	Enterococcus	Enterococcus	NNP
work_kkta46aprvda3kxuww62zfddua	109	29	hirae	hirae	NN
work_kkta46aprvda3kxuww62zfddua	109	30	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	31	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	109	32	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	109	33	:	:	:
work_kkta46aprvda3kxuww62zfddua	109	34	3VR2	3vr2	CD
work_kkta46aprvda3kxuww62zfddua	109	35	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	36	55	55	CD
work_kkta46aprvda3kxuww62zfddua	109	37	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	38	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	39	alternate	alternate	JJ
work_kkta46aprvda3kxuww62zfddua	109	40	in	in	IN
work_kkta46aprvda3kxuww62zfddua	109	41	the	the	DT
work_kkta46aprvda3kxuww62zfddua	109	42	A3B	A3B	NNP
work_kkta46aprvda3kxuww62zfddua	109	43	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	109	44	of	of	IN
work_kkta46aprvda3kxuww62zfddua	109	45	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	109	46	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	109	47	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	48	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	109	49	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	109	50	:	:	:
work_kkta46aprvda3kxuww62zfddua	109	51	1R5Z	1r5z	CD
work_kkta46aprvda3kxuww62zfddua	109	52	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	53	51	51	CD
work_kkta46aprvda3kxuww62zfddua	109	54	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	55	;	;	:
work_kkta46aprvda3kxuww62zfddua	109	56	blue	blue	NNP
work_kkta46aprvda3kxuww62zfddua	109	57	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	58	and	and	CC
work_kkta46aprvda3kxuww62zfddua	109	59	D	D	NNP
work_kkta46aprvda3kxuww62zfddua	109	60	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	61	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	109	62	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	109	63	:	:	:
work_kkta46aprvda3kxuww62zfddua	109	64	3AON	3aon	NN
work_kkta46aprvda3kxuww62zfddua	109	65	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	66	52	52	CD
work_kkta46aprvda3kxuww62zfddua	109	67	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	68	;	;	:
work_kkta46aprvda3kxuww62zfddua	109	69	purple	purple	NNP
work_kkta46aprvda3kxuww62zfddua	109	70	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	71	form	form	VBP
work_kkta46aprvda3kxuww62zfddua	109	72	the	the	DT
work_kkta46aprvda3kxuww62zfddua	109	73	the	the	DT
work_kkta46aprvda3kxuww62zfddua	109	74	c	c	NN
work_kkta46aprvda3kxuww62zfddua	109	75	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	109	76	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	77	wheat	wheat	NN
work_kkta46aprvda3kxuww62zfddua	109	78	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	79	from	from	IN
work_kkta46aprvda3kxuww62zfddua	109	80	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	109	81	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	109	82	:	:	:
work_kkta46aprvda3kxuww62zfddua	109	83	2BL2	2bl2	CD
work_kkta46aprvda3kxuww62zfddua	109	84	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	109	85	96	96	CD
work_kkta46aprvda3kxuww62zfddua	109	86	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	109	87	.	.	.
work_kkta46aprvda3kxuww62zfddua	110	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	110	2	Thermus	Thermus	NNP
work_kkta46aprvda3kxuww62zfddua	110	3	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	110	4	EH	EH	NNP
work_kkta46aprvda3kxuww62zfddua	110	5	dimer	dimer	NN
work_kkta46aprvda3kxuww62zfddua	110	6	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	110	7	green	green	JJ
work_kkta46aprvda3kxuww62zfddua	110	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	110	9	c	c	NN
work_kkta46aprvda3kxuww62zfddua	110	10	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	110	11	B	b	NN
work_kkta46aprvda3kxuww62zfddua	110	12	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	110	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	110	14	whereas	whereas	IN
work_kkta46aprvda3kxuww62zfddua	110	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	110	16	crystal	crystal	NN
work_kkta46aprvda3kxuww62zfddua	110	17	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	110	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	110	19	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	110	20	horikoshii	horikoshii	NN
work_kkta46aprvda3kxuww62zfddua	110	21	OT3	OT3	NNP
work_kkta46aprvda3kxuww62zfddua	110	22	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	110	23	E	E	NNP
work_kkta46aprvda3kxuww62zfddua	110	24	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	110	25	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	110	26	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	110	27	:	:	:
work_kkta46aprvda3kxuww62zfddua	110	28	4DT0	4dt0	CD
work_kkta46aprvda3kxuww62zfddua	110	29	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	110	30	79	79	CD
work_kkta46aprvda3kxuww62zfddua	110	31	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	110	32	;	;	,
work_kkta46aprvda3kxuww62zfddua	110	33	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	110	34	proposed	propose	VBN
work_kkta46aprvda3kxuww62zfddua	110	35	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	110	36	79	79	CD
work_kkta46aprvda3kxuww62zfddua	110	37	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	110	38	that	that	IN
work_kkta46aprvda3kxuww62zfddua	110	39	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	110	40	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	110	41	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	110	42	in	in	IN
work_kkta46aprvda3kxuww62zfddua	110	43	the	the	DT
work_kkta46aprvda3kxuww62zfddua	110	44	interface	interface	NN
work_kkta46aprvda3kxuww62zfddua	110	45	of	of	IN
work_kkta46aprvda3kxuww62zfddua	110	46	the	the	DT
work_kkta46aprvda3kxuww62zfddua	110	47	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	110	48	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	110	49	and	and	CC
work_kkta46aprvda3kxuww62zfddua	110	50	the	the	DT
work_kkta46aprvda3kxuww62zfddua	110	51	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	110	52	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	110	53	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	110	54	mem	mem	NN
work_kkta46aprvda3kxuww62zfddua	110	55	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	110	56	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	110	57	transferred	transfer	VBN
work_kkta46aprvda3kxuww62zfddua	110	58	to	to	IN
work_kkta46aprvda3kxuww62zfddua	110	59	the	the	DT
work_kkta46aprvda3kxuww62zfddua	110	60	barbelled	barbelle	VBN
work_kkta46aprvda3kxuww62zfddua	110	61	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	110	62	shaped	shape	VBN
work_kkta46aprvda3kxuww62zfddua	110	63	N	n	NN
work_kkta46aprvda3kxuww62zfddua	110	64	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	110	65	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	110	66	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	110	67	of	of	IN
work_kkta46aprvda3kxuww62zfddua	110	68	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	110	69	a	a	DT
work_kkta46aprvda3kxuww62zfddua	110	70	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	110	71	yellow	yellow	NN
work_kkta46aprvda3kxuww62zfddua	110	72	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	110	73	and	and	CC
work_kkta46aprvda3kxuww62zfddua	110	74	sub	sub	VB
work_kkta46aprvda3kxuww62zfddua	110	75	to	to	TO
work_kkta46aprvda3kxuww62zfddua	110	76	switch	switch	VB
work_kkta46aprvda3kxuww62zfddua	110	77	from	from	IN
work_kkta46aprvda3kxuww62zfddua	110	78	a	a	DT
work_kkta46aprvda3kxuww62zfddua	110	79	more	more	RBR
work_kkta46aprvda3kxuww62zfddua	110	80	extended	extended	JJ
work_kkta46aprvda3kxuww62zfddua	110	81	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	110	82	D	d	NN
work_kkta46aprvda3kxuww62zfddua	110	83	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	110	84	into	into	IN
work_kkta46aprvda3kxuww62zfddua	110	85	a	a	DT
work_kkta46aprvda3kxuww62zfddua	110	86	curved	curved	JJ
work_kkta46aprvda3kxuww62zfddua	110	87	conformation	conformation	NN
work_kkta46aprvda3kxuww62zfddua	110	88	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	110	89	A	a	NN
work_kkta46aprvda3kxuww62zfddua	110	90	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	110	91	and	and	CC
work_kkta46aprvda3kxuww62zfddua	110	92	vice	vice	NN
work_kkta46aprvda3kxuww62zfddua	110	93	versa	versa	RB
work_kkta46aprvda3kxuww62zfddua	110	94	,	,	,
work_kkta46aprvda3kxuww62zfddua	110	95	providing	provide	VBG
work_kkta46aprvda3kxuww62zfddua	110	96	the	the	DT
work_kkta46aprvda3kxuww62zfddua	110	97	For	for	IN
work_kkta46aprvda3kxuww62zfddua	110	98	clarity	clarity	NN
work_kkta46aprvda3kxuww62zfddua	110	99	the	the	DT
work_kkta46aprvda3kxuww62zfddua	110	100	EM	EM	NNP
work_kkta46aprvda3kxuww62zfddua	110	101	map	map	NN
work_kkta46aprvda3kxuww62zfddua	110	102	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	110	103	not	not	RB
work_kkta46aprvda3kxuww62zfddua	110	104	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	110	105	in	in	IN
work_kkta46aprvda3kxuww62zfddua	110	106	figures	figure	NNS
work_kkta46aprvda3kxuww62zfddua	110	107	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	110	108	and	and	CC
work_kkta46aprvda3kxuww62zfddua	110	109	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	110	110	,	,	,
work_kkta46aprvda3kxuww62zfddua	110	111	while	while	IN
work_kkta46aprvda3kxuww62zfddua	110	112	in	in	IN
work_kkta46aprvda3kxuww62zfddua	110	113	figure	figure	NN
work_kkta46aprvda3kxuww62zfddua	110	114	D	D	NNP
work_kkta46aprvda3kxuww62zfddua	110	115	one	one	CD
work_kkta46aprvda3kxuww62zfddua	110	116	of	of	IN
work_kkta46aprvda3kxuww62zfddua	110	117	the	the	DT
work_kkta46aprvda3kxuww62zfddua	110	118	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	110	119	consisting	consisting	NN
work_kkta46aprvda3kxuww62zfddua	110	120	of	of	IN
work_kkta46aprvda3kxuww62zfddua	110	121	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	110	122	and	and	CC
work_kkta46aprvda3kxuww62zfddua	110	123	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	110	124	domains	domain	NNS
work_kkta46aprvda3kxuww62zfddua	110	125	,	,	,
work_kkta46aprvda3kxuww62zfddua	110	126	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	110	127	form	form	VBP
work_kkta46aprvda3kxuww62zfddua	110	128	a	a	DT
work_kkta46aprvda3kxuww62zfddua	110	129	pair	pair	NN
work_kkta46aprvda3kxuww62zfddua	110	130	of	of	IN
work_kkta46aprvda3kxuww62zfddua	110	131	coupled	couple	VBN
work_kkta46aprvda3kxuww62zfddua	110	132	rotary	rotary	JJ
work_kkta46aprvda3kxuww62zfddua	110	133	motors	motor	NNS
work_kkta46aprvda3kxuww62zfddua	110	134	connected	connect	VBN
work_kkta46aprvda3kxuww62zfddua	110	135	with	with	IN
work_kkta46aprvda3kxuww62zfddua	110	136	one	one	CD
work_kkta46aprvda3kxuww62zfddua	110	137	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	110	138	and	and	CC
work_kkta46aprvda3kxuww62zfddua	110	139	two	two	CD
work_kkta46aprvda3kxuww62zfddua	110	140	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	110	141	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	110	142	.	.	.
work_kkta46aprvda3kxuww62zfddua	111	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	111	2	soluble	soluble	JJ
work_kkta46aprvda3kxuww62zfddua	111	3	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	111	4	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	111	5	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	111	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	111	7	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	111	8	activity	activity	NN
work_kkta46aprvda3kxuww62zfddua	111	9	and	and	CC
work_kkta46aprvda3kxuww62zfddua	111	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	111	11	hydrophobic	hydrophobic	NN
work_kkta46aprvda3kxuww62zfddua	111	12	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	111	13	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	111	14	embedded	embed	VBN
work_kkta46aprvda3kxuww62zfddua	111	15	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	111	16	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	111	17	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	111	18	responsible	responsible	JJ
work_kkta46aprvda3kxuww62zfddua	111	19	for	for	IN
work_kkta46aprvda3kxuww62zfddua	111	20	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	111	21	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	111	22	across	across	IN
work_kkta46aprvda3kxuww62zfddua	111	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	111	24	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	111	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	112	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	112	2	collar	collar	NN
work_kkta46aprvda3kxuww62zfddua	112	3	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	112	4	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	112	5	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	112	6	located	locate	VBN
work_kkta46aprvda3kxuww62zfddua	112	7	perpendicular	perpendicular	JJ
work_kkta46aprvda3kxuww62zfddua	112	8	to	to	IN
work_kkta46aprvda3kxuww62zfddua	112	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	112	10	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	112	11	seems	seem	VBZ
work_kkta46aprvda3kxuww62zfddua	112	12	to	to	TO
work_kkta46aprvda3kxuww62zfddua	112	13	anchor	anchor	VB
work_kkta46aprvda3kxuww62zfddua	112	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	112	15	two	two	CD
work_kkta46aprvda3kxuww62zfddua	112	16	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	112	17	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	112	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	112	19	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	112	20	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	112	21	not	not	RB
work_kkta46aprvda3kxuww62zfddua	112	22	penetrating	penetrate	VBG
work_kkta46aprvda3kxuww62zfddua	112	23	into	into	IN
work_kkta46aprvda3kxuww62zfddua	112	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	112	25	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	112	26	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	112	27	.	.	.
work_kkta46aprvda3kxuww62zfddua	113	1	Both	both	DT
work_kkta46aprvda3kxuww62zfddua	113	2	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	113	3	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	113	4	go	go	VBP
work_kkta46aprvda3kxuww62zfddua	113	5	all	all	PDT
work_kkta46aprvda3kxuww62zfddua	113	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	113	7	way	way	NN
work_kkta46aprvda3kxuww62zfddua	113	8	up	up	IN
work_kkta46aprvda3kxuww62zfddua	113	9	to	to	IN
work_kkta46aprvda3kxuww62zfddua	113	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	113	11	top	top	NN
work_kkta46aprvda3kxuww62zfddua	113	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	113	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	113	14	A3B3	A3B3	NNP
work_kkta46aprvda3kxuww62zfddua	113	15	headpiece	headpiece	NN
work_kkta46aprvda3kxuww62zfddua	113	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	113	17	thereby	thereby	RB
work_kkta46aprvda3kxuww62zfddua	113	18	connecting	connect	VBG
work_kkta46aprvda3kxuww62zfddua	113	19	statically	statically	RB
work_kkta46aprvda3kxuww62zfddua	113	20	and	and	CC
work_kkta46aprvda3kxuww62zfddua	113	21	mechanistically	mechanistically	RB
work_kkta46aprvda3kxuww62zfddua	113	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	113	23	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	113	24	with	with	IN
work_kkta46aprvda3kxuww62zfddua	113	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	113	26	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	113	27	sector	sector	NN
work_kkta46aprvda3kxuww62zfddua	113	28	via	via	IN
work_kkta46aprvda3kxuww62zfddua	113	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	113	30	collar	collar	NN
work_kkta46aprvda3kxuww62zfddua	113	31	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	113	32	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	113	33	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	113	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	114	1	4.2	4.2	CD
work_kkta46aprvda3kxuww62zfddua	114	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	115	1	High	high	JJ
work_kkta46aprvda3kxuww62zfddua	115	2	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	115	3	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	115	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	115	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	115	6	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	115	7	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	115	8	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	115	9	A	a	NN
work_kkta46aprvda3kxuww62zfddua	115	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	115	11	B	b	NN
work_kkta46aprvda3kxuww62zfddua	115	12	The	the	DT
work_kkta46aprvda3kxuww62zfddua	115	13	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	115	14	sector	sector	NN
work_kkta46aprvda3kxuww62zfddua	115	15	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	115	16	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	115	17	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	115	18	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	115	19	consists	consist	VBZ
work_kkta46aprvda3kxuww62zfddua	115	20	of	of	IN
work_kkta46aprvda3kxuww62zfddua	115	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	115	22	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	115	23	A	a	NN
work_kkta46aprvda3kxuww62zfddua	115	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	115	25	B	b	NN
work_kkta46aprvda3kxuww62zfddua	115	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	115	27	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	115	28	,	,	,
work_kkta46aprvda3kxuww62zfddua	115	29	D	D	NNP
work_kkta46aprvda3kxuww62zfddua	115	30	and	and	CC
work_kkta46aprvda3kxuww62zfddua	115	31	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	115	32	in	in	IN
work_kkta46aprvda3kxuww62zfddua	115	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	115	34	stoichiometry	stoichiometry	NN
work_kkta46aprvda3kxuww62zfddua	115	35	of	of	IN
work_kkta46aprvda3kxuww62zfddua	115	36	A3	A3	NNP
work_kkta46aprvda3kxuww62zfddua	115	37	:	:	:
work_kkta46aprvda3kxuww62zfddua	115	38	B3	b3	NN
work_kkta46aprvda3kxuww62zfddua	115	39	:	:	:
work_kkta46aprvda3kxuww62zfddua	115	40	C	c	NN
work_kkta46aprvda3kxuww62zfddua	115	41	:	:	:
work_kkta46aprvda3kxuww62zfddua	115	42	D	d	NN
work_kkta46aprvda3kxuww62zfddua	115	43	:	:	:
work_kkta46aprvda3kxuww62zfddua	115	44	F	f	NN
work_kkta46aprvda3kxuww62zfddua	115	45	and	and	CC
work_kkta46aprvda3kxuww62zfddua	115	46	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	115	47	able	able	JJ
work_kkta46aprvda3kxuww62zfddua	115	48	to	to	TO
work_kkta46aprvda3kxuww62zfddua	115	49	catalyze	catalyze	VB
work_kkta46aprvda3kxuww62zfddua	115	50	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	115	51	hydrolysis	hydrolysis	NN
work_kkta46aprvda3kxuww62zfddua	115	52	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	115	53	40	40	CD
work_kkta46aprvda3kxuww62zfddua	115	54	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	115	55	.	.	.
work_kkta46aprvda3kxuww62zfddua	116	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	116	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	116	3	last	last	JJ
work_kkta46aprvda3kxuww62zfddua	116	4	decade	decade	NN
work_kkta46aprvda3kxuww62zfddua	116	5	all	all	DT
work_kkta46aprvda3kxuww62zfddua	116	6	individual	individual	JJ
work_kkta46aprvda3kxuww62zfddua	116	7	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	116	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	116	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	116	10	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	116	11	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	116	12	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	116	13	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	116	14	solved	solve	VBN
work_kkta46aprvda3kxuww62zfddua	116	15	at	at	IN
work_kkta46aprvda3kxuww62zfddua	116	16	high	high	JJ
work_kkta46aprvda3kxuww62zfddua	116	17	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	116	18	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	116	19	49–55	49–55	NN
work_kkta46aprvda3kxuww62zfddua	116	20	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	116	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	117	1	Firstly	firstly	RB
work_kkta46aprvda3kxuww62zfddua	117	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	117	3	low	low	JJ
work_kkta46aprvda3kxuww62zfddua	117	4	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	117	5	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	117	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	117	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	117	8	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	117	9	sector	sector	NN
work_kkta46aprvda3kxuww62zfddua	117	10	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	117	11	56,57	56,57	CD
work_kkta46aprvda3kxuww62zfddua	117	12	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	117	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	117	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	117	15	entire	entire	JJ
work_kkta46aprvda3kxuww62zfddua	117	16	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	117	17	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	117	18	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	117	19	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	117	20	45–48	45–48	NN
work_kkta46aprvda3kxuww62zfddua	117	21	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	117	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	117	23	combined	combine	VBN
work_kkta46aprvda3kxuww62zfddua	117	24	with	with	IN
work_kkta46aprvda3kxuww62zfddua	117	25	cross	cross	JJ
work_kkta46aprvda3kxuww62zfddua	117	26	-	-	JJ
work_kkta46aprvda3kxuww62zfddua	117	27	linking	linking	JJ
work_kkta46aprvda3kxuww62zfddua	117	28	data	datum	NNS
work_kkta46aprvda3kxuww62zfddua	117	29	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	117	30	58,59	58,59	CD
work_kkta46aprvda3kxuww62zfddua	117	31	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	117	32	,	,	,
work_kkta46aprvda3kxuww62zfddua	117	33	and	and	CC
work_kkta46aprvda3kxuww62zfddua	117	34	later	later	RB
work_kkta46aprvda3kxuww62zfddua	117	35	crystallographic	crystallographic	JJ
work_kkta46aprvda3kxuww62zfddua	117	36	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	117	37	of	of	IN
work_kkta46aprvda3kxuww62zfddua	117	38	the	the	DT
work_kkta46aprvda3kxuww62zfddua	117	39	A3	a3	NN
work_kkta46aprvda3kxuww62zfddua	117	40	:	:	:
work_kkta46aprvda3kxuww62zfddua	117	41	B3-	B3-	NNP
work_kkta46aprvda3kxuww62zfddua	117	42	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	117	43	54	54	CD
work_kkta46aprvda3kxuww62zfddua	117	44	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	117	45	and	and	CC
work_kkta46aprvda3kxuww62zfddua	117	46	A3	a3	NN
work_kkta46aprvda3kxuww62zfddua	117	47	:	:	:
work_kkta46aprvda3kxuww62zfddua	117	48	B3	b3	NN
work_kkta46aprvda3kxuww62zfddua	117	49	:	:	:
work_kkta46aprvda3kxuww62zfddua	117	50	D	d	NN
work_kkta46aprvda3kxuww62zfddua	117	51	:	:	:
work_kkta46aprvda3kxuww62zfddua	117	52	F	f	NN
work_kkta46aprvda3kxuww62zfddua	117	53	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	117	54	complex	complex	JJ
work_kkta46aprvda3kxuww62zfddua	117	55	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	117	56	55	55	CD
work_kkta46aprvda3kxuww62zfddua	117	57	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	117	58	enabled	enable	VBD
work_kkta46aprvda3kxuww62zfddua	117	59	the	the	DT
work_kkta46aprvda3kxuww62zfddua	117	60	assignment	assignment	NN
work_kkta46aprvda3kxuww62zfddua	117	61	into	into	IN
work_kkta46aprvda3kxuww62zfddua	117	62	the	the	DT
work_kkta46aprvda3kxuww62zfddua	117	63	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	117	64	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	117	65	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	117	66	in	in	IN
work_kkta46aprvda3kxuww62zfddua	117	67	Fig	Fig	NNP
work_kkta46aprvda3kxuww62zfddua	117	68	.	.	.
work_kkta46aprvda3kxuww62zfddua	118	1	1A	1a	LS
work_kkta46aprvda3kxuww62zfddua	118	2	–	–	:
work_kkta46aprvda3kxuww62zfddua	118	3	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	119	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	119	2	headpiece	headpiece	NN
work_kkta46aprvda3kxuww62zfddua	119	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	119	4	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	119	5	consists	consist	VBZ
work_kkta46aprvda3kxuww62zfddua	119	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	119	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	119	8	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	119	9	A	a	NN
work_kkta46aprvda3kxuww62zfddua	119	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	119	11	B	b	NN
work_kkta46aprvda3kxuww62zfddua	119	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	119	13	alternating	alternate	VBG
work_kkta46aprvda3kxuww62zfddua	119	14	around	around	IN
work_kkta46aprvda3kxuww62zfddua	119	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	119	16	periphery	periphery	NN
work_kkta46aprvda3kxuww62zfddua	119	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	119	18	a	a	DT
work_kkta46aprvda3kxuww62zfddua	119	19	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	119	20	cavity	cavity	NN
work_kkta46aprvda3kxuww62zfddua	119	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	119	22	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	119	23	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	119	24	made	make	VBN
work_kkta46aprvda3kxuww62zfddua	119	25	up	up	RP
work_kkta46aprvda3kxuww62zfddua	119	26	by	by	IN
work_kkta46aprvda3kxuww62zfddua	119	27	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	119	28	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	119	29	This	this	DT
work_kkta46aprvda3kxuww62zfddua	119	30	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	119	31	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	119	32	penetrates	penetrate	NNS
work_kkta46aprvda3kxuww62zfddua	119	33	inside	inside	IN
work_kkta46aprvda3kxuww62zfddua	119	34	this	this	DT
work_kkta46aprvda3kxuww62zfddua	119	35	cavity	cavity	NN
work_kkta46aprvda3kxuww62zfddua	119	36	and	and	CC
work_kkta46aprvda3kxuww62zfddua	119	37	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	119	38	in	in	IN
work_kkta46aprvda3kxuww62zfddua	119	39	proximity	proximity	NN
work_kkta46aprvda3kxuww62zfddua	119	40	to	to	IN
work_kkta46aprvda3kxuww62zfddua	119	41	an	an	DT
work_kkta46aprvda3kxuww62zfddua	119	42	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	119	43	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	119	44	B	b	NN
work_kkta46aprvda3kxuww62zfddua	119	45	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	119	46	A	a	NN
work_kkta46aprvda3kxuww62zfddua	119	47	triplet	triplet	NN
work_kkta46aprvda3kxuww62zfddua	119	48	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	119	49	52,54–56	52,54–56	CD
work_kkta46aprvda3kxuww62zfddua	119	50	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	119	51	,	,	,
work_kkta46aprvda3kxuww62zfddua	119	52	thereby	thereby	RB
work_kkta46aprvda3kxuww62zfddua	119	53	coupling	couple	VBG
work_kkta46aprvda3kxuww62zfddua	119	54	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	119	55	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	119	56	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	119	57	in	in	IN
work_kkta46aprvda3kxuww62zfddua	119	58	the	the	DT
work_kkta46aprvda3kxuww62zfddua	119	59	a	a	NN
work_kkta46aprvda3kxuww62zfddua	119	60	–	–	:
work_kkta46aprvda3kxuww62zfddua	119	61	c	c	NN
work_kkta46aprvda3kxuww62zfddua	119	62	interface	interface	NN
work_kkta46aprvda3kxuww62zfddua	119	63	of	of	IN
work_kkta46aprvda3kxuww62zfddua	119	64	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	119	65	with	with	IN
work_kkta46aprvda3kxuww62zfddua	119	66	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	119	67	events	event	NNS
work_kkta46aprvda3kxuww62zfddua	119	68	in	in	IN
work_kkta46aprvda3kxuww62zfddua	119	69	the	the	DT
work_kkta46aprvda3kxuww62zfddua	119	70	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	119	71	synthesizing	synthesize	VBG
work_kkta46aprvda3kxuww62zfddua	119	72	inter-	inter-	NN
work_kkta46aprvda3kxuww62zfddua	119	73	face	face	NN
work_kkta46aprvda3kxuww62zfddua	119	74	of	of	IN
work_kkta46aprvda3kxuww62zfddua	119	75	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	119	76	A	a	NN
work_kkta46aprvda3kxuww62zfddua	119	77	–	–	:
work_kkta46aprvda3kxuww62zfddua	119	78	B.	B.	NNP
work_kkta46aprvda3kxuww62zfddua	120	1	Subunit	Subunit	NNP
work_kkta46aprvda3kxuww62zfddua	120	2	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	120	3	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	120	4	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	120	5	regarded	regard	VBN
work_kkta46aprvda3kxuww62zfddua	120	6	as	as	IN
work_kkta46aprvda3kxuww62zfddua	120	7	having	have	VBG
work_kkta46aprvda3kxuww62zfddua	120	8	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	120	9	function	function	NN
work_kkta46aprvda3kxuww62zfddua	120	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	120	11	while	while	IN
work_kkta46aprvda3kxuww62zfddua	120	12	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	120	13	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	120	14	plays	play	VBZ
work_kkta46aprvda3kxuww62zfddua	120	15	an	an	DT
work_kkta46aprvda3kxuww62zfddua	120	16	important	important	JJ
work_kkta46aprvda3kxuww62zfddua	120	17	role	role	NN
work_kkta46aprvda3kxuww62zfddua	120	18	in	in	IN
work_kkta46aprvda3kxuww62zfddua	120	19	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	120	20	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	120	21	and/or	and/or	CC
work_kkta46aprvda3kxuww62zfddua	120	22	regulatory	regulatory	JJ
work_kkta46aprvda3kxuww62zfddua	120	23	function	function	NN
work_kkta46aprvda3kxuww62zfddua	120	24	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	120	25	50,59	50,59	CD
work_kkta46aprvda3kxuww62zfddua	120	26	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	120	27	.	.	.
work_kkta46aprvda3kxuww62zfddua	121	1	Crystallographic	crystallographic	JJ
work_kkta46aprvda3kxuww62zfddua	121	2	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	121	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	121	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	121	5	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	121	6	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	121	7	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	121	8	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	121	9	A	a	DT
work_kkta46aprvda3kxuww62zfddua	121	10	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	121	11	49,54,55	49,54,55	CD
work_kkta46aprvda3kxuww62zfddua	121	12	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	121	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	121	14	B	b	NN
work_kkta46aprvda3kxuww62zfddua	121	15	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	121	16	50,54,55	50,54,55	NN
work_kkta46aprvda3kxuww62zfddua	121	17	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	121	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	121	19	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	121	20	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	121	21	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	121	22	show	show	VBP
work_kkta46aprvda3kxuww62zfddua	121	23	that	that	IN
work_kkta46aprvda3kxuww62zfddua	121	24	they	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	121	25	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	121	26	composed	compose	VBN
work_kkta46aprvda3kxuww62zfddua	121	27	of	of	IN
work_kkta46aprvda3kxuww62zfddua	121	28	an	an	DT
work_kkta46aprvda3kxuww62zfddua	121	29	N	N	NNP
work_kkta46aprvda3kxuww62zfddua	121	30	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	121	31	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	121	32	β	β	NN
work_kkta46aprvda3kxuww62zfddua	121	33	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	121	34	barrel	barrel	NNP
work_kkta46aprvda3kxuww62zfddua	121	35	,	,	,
work_kkta46aprvda3kxuww62zfddua	121	36	an	an	DT
work_kkta46aprvda3kxuww62zfddua	121	37	α	α	NNP
work_kkta46aprvda3kxuww62zfddua	121	38	–	–	:
work_kkta46aprvda3kxuww62zfddua	121	39	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	121	40	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	121	41	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	121	42	,	,	,
work_kkta46aprvda3kxuww62zfddua	121	43	and	and	CC
work_kkta46aprvda3kxuww62zfddua	121	44	a	a	DT
work_kkta46aprvda3kxuww62zfddua	121	45	C	c	NN
work_kkta46aprvda3kxuww62zfddua	121	46	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	121	47	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	121	48	α	α	XX
work_kkta46aprvda3kxuww62zfddua	121	49	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	121	50	helical	helical	JJ
work_kkta46aprvda3kxuww62zfddua	121	51	bundle	bundle	NN
work_kkta46aprvda3kxuww62zfddua	121	52	,	,	,
work_kkta46aprvda3kxuww62zfddua	121	53	similar	similar	JJ
work_kkta46aprvda3kxuww62zfddua	121	54	to	to	IN
work_kkta46aprvda3kxuww62zfddua	121	55	the	the	DT
work_kkta46aprvda3kxuww62zfddua	121	56	homologue	homologue	NNP
work_kkta46aprvda3kxuww62zfddua	121	57	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	121	58	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	121	59	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	121	60	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	121	61	α	α	NN
work_kkta46aprvda3kxuww62zfddua	121	62	and	and	CC
work_kkta46aprvda3kxuww62zfddua	121	63	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	121	64	of	of	IN
work_kkta46aprvda3kxuww62zfddua	121	65	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	121	66	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	121	67	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	121	68	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	121	69	60	60	CD
work_kkta46aprvda3kxuww62zfddua	121	70	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	121	71	.	.	.
work_kkta46aprvda3kxuww62zfddua	122	1	However	however	RB
work_kkta46aprvda3kxuww62zfddua	122	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	122	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	122	4	superimposition	superimposition	NN
work_kkta46aprvda3kxuww62zfddua	122	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	122	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	122	7	two	two	CD
work_kkta46aprvda3kxuww62zfddua	122	8	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	122	9	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	122	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	122	11	A	a	NN
work_kkta46aprvda3kxuww62zfddua	122	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	122	13	β	β	NN
work_kkta46aprvda3kxuww62zfddua	122	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	122	15	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	122	16	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	122	17	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	122	18	and	and	CC
work_kkta46aprvda3kxuww62zfddua	122	19	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	122	20	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	122	21	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	122	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	122	23	respectively	respectively	RB
work_kkta46aprvda3kxuww62zfddua	122	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	122	25	e	e	NNP
work_kkta46aprvda3kxuww62zfddua	122	26	EM	EM	NNP
work_kkta46aprvda3kxuww62zfddua	122	27	map	map	NN
work_kkta46aprvda3kxuww62zfddua	122	28	of	of	IN
work_kkta46aprvda3kxuww62zfddua	122	29	archaeon	archaeon	NNP
work_kkta46aprvda3kxuww62zfddua	122	30	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	122	31	furiosus	furiosus	NN
work_kkta46aprvda3kxuww62zfddua	122	32	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	122	33	EM	EM	NNP
work_kkta46aprvda3kxuww62zfddua	122	34	Database	Database	NNP
work_kkta46aprvda3kxuww62zfddua	122	35	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	122	36	:	:	:
work_kkta46aprvda3kxuww62zfddua	122	37	EMD	EMD	NNP
work_kkta46aprvda3kxuww62zfddua	122	38	1542	1542	CD
work_kkta46aprvda3kxuww62zfddua	122	39	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	122	40	47	47	CD
work_kkta46aprvda3kxuww62zfddua	122	41	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	122	42	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	122	43	.	.	.
work_kkta46aprvda3kxuww62zfddua	123	1	Subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	123	2	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	123	3	3	3	CD
work_kkta46aprvda3kxuww62zfddua	123	4	hexamer	hexamer	NN
work_kkta46aprvda3kxuww62zfddua	123	5	.	.	.
work_kkta46aprvda3kxuww62zfddua	124	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	124	2	NMR	NMR	NNP
work_kkta46aprvda3kxuww62zfddua	124	3	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	124	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	124	5	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	124	6	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	124	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	124	8	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	124	9	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	124	10	:	:	:
work_kkta46aprvda3kxuww62zfddua	124	11	2OV6	2ov6	CD
work_kkta46aprvda3kxuww62zfddua	124	12	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	124	13	53	53	CD
work_kkta46aprvda3kxuww62zfddua	124	14	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	124	15	;	;	:
work_kkta46aprvda3kxuww62zfddua	124	16	magenta	magenta	NNP
work_kkta46aprvda3kxuww62zfddua	124	17	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	124	18	and	and	CC
work_kkta46aprvda3kxuww62zfddua	124	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	124	20	crystal	crystal	NNP
work_kkta46aprvda3kxuww62zfddua	124	21	central	central	NNP
work_kkta46aprvda3kxuww62zfddua	124	22	stalk	stalk	NNP
work_kkta46aprvda3kxuww62zfddua	124	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	125	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	125	2	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	125	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	125	4	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	125	5	a	a	DT
work_kkta46aprvda3kxuww62zfddua	125	6	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	125	7	yellow	yellow	NN
work_kkta46aprvda3kxuww62zfddua	125	8	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	125	9	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	125	10	taken	take	VBN
work_kkta46aprvda3kxuww62zfddua	125	11	from	from	IN
work_kkta46aprvda3kxuww62zfddua	125	12	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	125	13	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	125	14	:	:	:
work_kkta46aprvda3kxuww62zfddua	125	15	3RRK	3rrk	NN
work_kkta46aprvda3kxuww62zfddua	125	16	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	125	17	81	81	CD
work_kkta46aprvda3kxuww62zfddua	125	18	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	125	19	and	and	CC
work_kkta46aprvda3kxuww62zfddua	125	20	yan	yan	NNP
work_kkta46aprvda3kxuww62zfddua	125	21	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	125	22	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	125	23	taken	take	VBN
work_kkta46aprvda3kxuww62zfddua	125	24	from	from	IN
work_kkta46aprvda3kxuww62zfddua	125	25	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	125	26	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	125	27	:	:	:
work_kkta46aprvda3kxuww62zfddua	125	28	3K5B	3k5b	CD
work_kkta46aprvda3kxuww62zfddua	125	29	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	125	30	77	77	CD
work_kkta46aprvda3kxuww62zfddua	125	31	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	125	32	and	and	CC
work_kkta46aprvda3kxuww62zfddua	125	33	reveals	reveal	VBZ
work_kkta46aprvda3kxuww62zfddua	125	34	the	the	DT
work_kkta46aprvda3kxuww62zfddua	125	35	almost	almost	RB
work_kkta46aprvda3kxuww62zfddua	125	36	straight	straight	JJ
work_kkta46aprvda3kxuww62zfddua	125	37	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	125	38	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	125	39	red	red	JJ
work_kkta46aprvda3kxuww62zfddua	125	40	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	125	41	and	and	CC
work_kkta46aprvda3kxuww62zfddua	125	42	the	the	DT
work_kkta46aprvda3kxuww62zfddua	125	43	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	125	44	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	125	45	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	125	46	form	form	NN
work_kkta46aprvda3kxuww62zfddua	125	47	the	the	DT
work_kkta46aprvda3kxuww62zfddua	125	48	kinked	kinked	JJ
work_kkta46aprvda3kxuww62zfddua	125	49	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	125	50	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	125	51	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	125	52	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	125	53	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	125	54	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	125	55	.	.	.
work_kkta46aprvda3kxuww62zfddua	126	1	It	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	126	2	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	126	3	brane	brane	NN
work_kkta46aprvda3kxuww62zfddua	126	4	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	126	5	embedded	embed	VBN
work_kkta46aprvda3kxuww62zfddua	126	6	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	126	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	126	8	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	126	9	a	a	DT
work_kkta46aprvda3kxuww62zfddua	126	10	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	126	11	yellow	yellow	JJ
work_kkta46aprvda3kxuww62zfddua	126	12	cylinder	cylinder	NN
work_kkta46aprvda3kxuww62zfddua	126	13	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	126	14	causes	cause	VBZ
work_kkta46aprvda3kxuww62zfddua	126	15	alterations	alteration	NNS
work_kkta46aprvda3kxuww62zfddua	126	16	in	in	IN
work_kkta46aprvda3kxuww62zfddua	126	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	126	18	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	126	19	sector	sector	NN
work_kkta46aprvda3kxuww62zfddua	126	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	126	21	unit	unit	NN
work_kkta46aprvda3kxuww62zfddua	126	22	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	126	23	As	As	NNP
work_kkta46aprvda3kxuww62zfddua	126	24	one	one	CD
work_kkta46aprvda3kxuww62zfddua	126	25	consequence	consequence	NN
work_kkta46aprvda3kxuww62zfddua	126	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	126	27	the	the	DT
work_kkta46aprvda3kxuww62zfddua	126	28	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	126	29	a	a	DT
work_kkta46aprvda3kxuww62zfddua	126	30	alterations	alteration	NNS
work_kkta46aprvda3kxuww62zfddua	126	31	will	will	MD
work_kkta46aprvda3kxuww62zfddua	126	32	force	force	VB
work_kkta46aprvda3kxuww62zfddua	126	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	126	34	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	126	35	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	126	36	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	126	37	storage	storage	NN
work_kkta46aprvda3kxuww62zfddua	126	38	of	of	IN
work_kkta46aprvda3kxuww62zfddua	126	39	transient	transient	JJ
work_kkta46aprvda3kxuww62zfddua	126	40	elastic	elastic	JJ
work_kkta46aprvda3kxuww62zfddua	126	41	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	126	42	during	during	IN
work_kkta46aprvda3kxuww62zfddua	126	43	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	126	44	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	126	45	pumping	pumping	NN
work_kkta46aprvda3kxuww62zfddua	126	46	and	and	CC
work_kkta46aprvda3kxuww62zfddua	126	47	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	126	48	synthesis/-hydrolysis	synthesis/-hydrolysis	NN
work_kkta46aprvda3kxuww62zfddua	126	49	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	126	50	D	D	NNP
work_kkta46aprvda3kxuww62zfddua	126	51	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	126	52	.	.	.
work_kkta46aprvda3kxuww62zfddua	127	1	stalk	stalk	NNP
work_kkta46aprvda3kxuww62zfddua	127	2	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	127	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	127	4	removed	remove	VBN
work_kkta46aprvda3kxuww62zfddua	127	5	.	.	.
work_kkta46aprvda3kxuww62zfddua	128	1	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	128	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	129	1	2	2	LS
work_kkta46aprvda3kxuww62zfddua	129	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	130	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	130	2	A	a	DT
work_kkta46aprvda3kxuww62zfddua	130	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	130	4	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	130	5	comparison	comparison	NN
work_kkta46aprvda3kxuww62zfddua	130	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	130	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	130	8	bovine	bovine	NNP
work_kkta46aprvda3kxuww62zfddua	130	9	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	130	10	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	130	11	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	130	12	yellow	yellow	NNP
work_kkta46aprvda3kxuww62zfddua	130	13	;	;	:
work_kkta46aprvda3kxuww62zfddua	130	14	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	130	15	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	130	16	:	:	:
work_kkta46aprvda3kxuww62zfddua	130	17	1BMF	1BMF	NNP
work_kkta46aprvda3kxuww62zfddua	130	18	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	130	19	60	60	CD
work_kkta46aprvda3kxuww62zfddua	130	20	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	130	21	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	130	22	and	and	CC
work_kkta46aprvda3kxuww62zfddua	130	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	130	24	AMP	AMP	NNP
work_kkta46aprvda3kxuww62zfddua	130	25	–	–	:
work_kkta46aprvda3kxuww62zfddua	130	26	PNP	PNP	NNP
work_kkta46aprvda3kxuww62zfddua	130	27	bound	bind	VBD
work_kkta46aprvda3kxuww62zfddua	130	28	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	130	29	A	a	DT
work_kkta46aprvda3kxuww62zfddua	130	30	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	130	31	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	130	32	orange	orange	JJ
work_kkta46aprvda3kxuww62zfddua	130	33	;	;	:
work_kkta46aprvda3kxuww62zfddua	130	34	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	130	35	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	130	36	:	:	:
work_kkta46aprvda3kxuww62zfddua	130	37	3I4L	3i4l	CD
work_kkta46aprvda3kxuww62zfddua	130	38	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	130	39	49	49	CD
work_kkta46aprvda3kxuww62zfddua	130	40	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	130	41	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	130	42	.	.	.
work_kkta46aprvda3kxuww62zfddua	131	1	Subunit	Subunit	NNP
work_kkta46aprvda3kxuww62zfddua	131	2	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	131	3	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	131	4	two	two	CD
work_kkta46aprvda3kxuww62zfddua	131	5	distinct	distinct	JJ
work_kkta46aprvda3kxuww62zfddua	131	6	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	131	7	features	feature	NNS
work_kkta46aprvda3kxuww62zfddua	131	8	compared	compare	VBN
work_kkta46aprvda3kxuww62zfddua	131	9	to	to	IN
work_kkta46aprvda3kxuww62zfddua	131	10	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	131	11	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	131	12	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	131	13	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	131	14	highlighted	highlight	VBN
work_kkta46aprvda3kxuww62zfddua	131	15	in	in	IN
work_kkta46aprvda3kxuww62zfddua	131	16	brown	brown	JJ
work_kkta46aprvda3kxuww62zfddua	131	17	color	color	NN
work_kkta46aprvda3kxuww62zfddua	131	18	;	;	:
work_kkta46aprvda3kxuww62zfddua	131	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	131	20	non	non	JJ
work_kkta46aprvda3kxuww62zfddua	131	21	-	-	JJ
work_kkta46aprvda3kxuww62zfddua	131	22	homologues	homologues	JJ
work_kkta46aprvda3kxuww62zfddua	131	23	region	region	NN
work_kkta46aprvda3kxuww62zfddua	131	24	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	131	25	NHR	NHR	NNP
work_kkta46aprvda3kxuww62zfddua	131	26	from	from	IN
work_kkta46aprvda3kxuww62zfddua	131	27	117	117	CD
work_kkta46aprvda3kxuww62zfddua	131	28	to	to	IN
work_kkta46aprvda3kxuww62zfddua	131	29	188	188	CD
work_kkta46aprvda3kxuww62zfddua	131	30	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	131	31	and	and	CC
work_kkta46aprvda3kxuww62zfddua	131	32	the	the	DT
work_kkta46aprvda3kxuww62zfddua	131	33	C	c	NN
work_kkta46aprvda3kxuww62zfddua	131	34	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	131	35	terminal	terminal	NNP
work_kkta46aprvda3kxuww62zfddua	131	36	two	two	CD
work_kkta46aprvda3kxuww62zfddua	131	37	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	131	38	extension	extension	NN
work_kkta46aprvda3kxuww62zfddua	131	39	from	from	IN
work_kkta46aprvda3kxuww62zfddua	131	40	540	540	CD
work_kkta46aprvda3kxuww62zfddua	131	41	to	to	TO
work_kkta46aprvda3kxuww62zfddua	131	42	588	588	CD
work_kkta46aprvda3kxuww62zfddua	131	43	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	131	44	.	.	.
work_kkta46aprvda3kxuww62zfddua	132	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	132	2	difference	difference	NN
work_kkta46aprvda3kxuww62zfddua	132	3	in	in	IN
work_kkta46aprvda3kxuww62zfddua	132	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	132	5	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	132	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	132	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	132	8	AMP	AMP	NNP
work_kkta46aprvda3kxuww62zfddua	132	9	–	–	:
work_kkta46aprvda3kxuww62zfddua	132	10	PNP	PNP	NNP
work_kkta46aprvda3kxuww62zfddua	132	11	molecules	molecule	NNS
work_kkta46aprvda3kxuww62zfddua	132	12	could	could	MD
work_kkta46aprvda3kxuww62zfddua	132	13	also	also	RB
work_kkta46aprvda3kxuww62zfddua	132	14	be	be	VB
work_kkta46aprvda3kxuww62zfddua	132	15	clearly	clearly	RB
work_kkta46aprvda3kxuww62zfddua	132	16	noted	note	VBN
work_kkta46aprvda3kxuww62zfddua	132	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	133	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	133	2	B	b	NN
work_kkta46aprvda3kxuww62zfddua	133	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	133	4	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	133	5	comparison	comparison	NN
work_kkta46aprvda3kxuww62zfddua	133	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	133	7	vanadate	vanadate	NNP
work_kkta46aprvda3kxuww62zfddua	133	8	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	133	9	AVi	AVi	NNP
work_kkta46aprvda3kxuww62zfddua	133	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	133	11	cyan	cyan	NNP
work_kkta46aprvda3kxuww62zfddua	133	12	;	;	:
work_kkta46aprvda3kxuww62zfddua	133	13	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	133	14	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	133	15	:	:	:
work_kkta46aprvda3kxuww62zfddua	133	16	3P20	3p20	CD
work_kkta46aprvda3kxuww62zfddua	133	17	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	133	18	66	66	CD
work_kkta46aprvda3kxuww62zfddua	133	19	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	133	20	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	133	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	133	22	sulfate	sulfate	NN
work_kkta46aprvda3kxuww62zfddua	133	23	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	133	24	AS	as	IN
work_kkta46aprvda3kxuww62zfddua	133	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	133	26	yellow	yellow	NN
work_kkta46aprvda3kxuww62zfddua	133	27	;	;	:
work_kkta46aprvda3kxuww62zfddua	133	28	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	133	29	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	133	30	:	:	:
work_kkta46aprvda3kxuww62zfddua	133	31	3I72	3i72	CD
work_kkta46aprvda3kxuww62zfddua	133	32	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	133	33	49	49	CD
work_kkta46aprvda3kxuww62zfddua	133	34	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	133	35	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	133	36	and	and	CC
work_kkta46aprvda3kxuww62zfddua	133	37	AMP	AMP	NNP
work_kkta46aprvda3kxuww62zfddua	133	38	–	–	:
work_kkta46aprvda3kxuww62zfddua	133	39	PNP	PNP	NNP
work_kkta46aprvda3kxuww62zfddua	133	40	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	133	41	APNP	APNP	NNP
work_kkta46aprvda3kxuww62zfddua	133	42	,	,	,
work_kkta46aprvda3kxuww62zfddua	133	43	orange	orange	NN
work_kkta46aprvda3kxuww62zfddua	133	44	;	;	:
work_kkta46aprvda3kxuww62zfddua	133	45	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	133	46	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	133	47	:	:	:
work_kkta46aprvda3kxuww62zfddua	133	48	3I4L	3i4l	CD
work_kkta46aprvda3kxuww62zfddua	133	49	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	133	50	49	49	CD
work_kkta46aprvda3kxuww62zfddua	133	51	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	133	52	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	133	53	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	133	54	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	133	55	of	of	IN
work_kkta46aprvda3kxuww62zfddua	133	56	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	133	57	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	134	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	134	2	sheet	sheet	NN
work_kkta46aprvda3kxuww62zfddua	134	3	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	134	4	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	134	5	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	134	6	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	134	7	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	134	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	134	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	134	10	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	134	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	134	12	loop	loop	NNP
work_kkta46aprvda3kxuww62zfddua	134	13	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	134	14	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	134	15	in	in	IN
work_kkta46aprvda3kxuww62zfddua	134	16	cartoon	cartoon	NN
work_kkta46aprvda3kxuww62zfddua	134	17	representation	representation	NN
work_kkta46aprvda3kxuww62zfddua	134	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	135	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	135	2	various	various	JJ
work_kkta46aprvda3kxuww62zfddua	135	3	modes	mode	NNS
work_kkta46aprvda3kxuww62zfddua	135	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	135	5	interaction	interaction	NN
work_kkta46aprvda3kxuww62zfddua	135	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	135	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	135	8	bound	bound	NNP
work_kkta46aprvda3kxuww62zfddua	135	9	sulfate	sulfate	NN
work_kkta46aprvda3kxuww62zfddua	135	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	135	11	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	135	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	135	13	AMP	AMP	NNP
work_kkta46aprvda3kxuww62zfddua	135	14	–	–	:
work_kkta46aprvda3kxuww62zfddua	135	15	PNP	PNP	NNP
work_kkta46aprvda3kxuww62zfddua	135	16	molecules	molecule	NNS
work_kkta46aprvda3kxuww62zfddua	135	17	to	to	IN
work_kkta46aprvda3kxuww62zfddua	135	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	135	19	S238	S238	NNP
work_kkta46aprvda3kxuww62zfddua	135	20	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	135	21	in	in	IN
work_kkta46aprvda3kxuww62zfddua	135	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	135	23	AS	AS	NNP
work_kkta46aprvda3kxuww62zfddua	135	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	135	25	AVi	AVi	NNS
work_kkta46aprvda3kxuww62zfddua	135	26	and	and	CC
work_kkta46aprvda3kxuww62zfddua	135	27	APNP	APNP	NNP
work_kkta46aprvda3kxuww62zfddua	135	28	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	135	29	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	135	30	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	135	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	136	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	136	2	crucial	crucial	JJ
work_kkta46aprvda3kxuww62zfddua	136	3	water	water	NN
work_kkta46aprvda3kxuww62zfddua	136	4	molecules	molecule	NNS
work_kkta46aprvda3kxuww62zfddua	136	5	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	136	6	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	136	7	in	in	IN
work_kkta46aprvda3kxuww62zfddua	136	8	sphere	sphere	JJ
work_kkta46aprvda3kxuww62zfddua	136	9	representation	representation	NN
work_kkta46aprvda3kxuww62zfddua	136	10	.	.	.
work_kkta46aprvda3kxuww62zfddua	137	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	137	2	water	water	NN
work_kkta46aprvda3kxuww62zfddua	137	3	molecule	molecule	VBP
work_kkta46aprvda3kxuww62zfddua	137	4	from	from	IN
work_kkta46aprvda3kxuww62zfddua	137	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	137	6	AS	AS	NNP
work_kkta46aprvda3kxuww62zfddua	137	7	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	137	8	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	137	9	marked	mark	VBN
work_kkta46aprvda3kxuww62zfddua	137	10	as	as	IN
work_kkta46aprvda3kxuww62zfddua	137	11	W1	W1	NNP
work_kkta46aprvda3kxuww62zfddua	137	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	137	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	137	14	one	one	CD
work_kkta46aprvda3kxuww62zfddua	137	15	from	from	IN
work_kkta46aprvda3kxuww62zfddua	137	16	APNP	APNP	NNP
work_kkta46aprvda3kxuww62zfddua	137	17	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	137	18	marked	mark	VBN
work_kkta46aprvda3kxuww62zfddua	137	19	as	as	IN
work_kkta46aprvda3kxuww62zfddua	137	20	W2	W2	NNP
work_kkta46aprvda3kxuww62zfddua	137	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	138	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	138	2	sulfate	sulfate	NN
work_kkta46aprvda3kxuww62zfddua	138	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	138	4	yellow	yellow	JJ
work_kkta46aprvda3kxuww62zfddua	138	5	stick	stick	NN
work_kkta46aprvda3kxuww62zfddua	138	6	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	138	7	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	138	8	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	138	9	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	138	10	AS	AS	NNP
work_kkta46aprvda3kxuww62zfddua	138	11	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	138	12	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	138	13	assumed	assume	VBN
work_kkta46aprvda3kxuww62zfddua	138	14	to	to	TO
work_kkta46aprvda3kxuww62zfddua	138	15	be	be	VB
work_kkta46aprvda3kxuww62zfddua	138	16	in	in	IN
work_kkta46aprvda3kxuww62zfddua	138	17	a	a	DT
work_kkta46aprvda3kxuww62zfddua	138	18	substrate	substrate	NN
work_kkta46aprvda3kxuww62zfddua	138	19	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	138	20	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	138	21	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	138	22	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	138	23	state	state	NN
work_kkta46aprvda3kxuww62zfddua	138	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	138	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	138	26	vanadate-	vanadate-	NNP
work_kkta46aprvda3kxuww62zfddua	138	27	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	138	28	V1	V1	NNP
work_kkta46aprvda3kxuww62zfddua	138	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	138	30	cyan	cyan	NNP
work_kkta46aprvda3kxuww62zfddua	138	31	stick	stick	NNP
work_kkta46aprvda3kxuww62zfddua	138	32	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	138	33	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	138	34	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	138	35	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	138	36	AVi	AVi	NNP
work_kkta46aprvda3kxuww62zfddua	138	37	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	138	38	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	138	39	proposed	propose	VBN
work_kkta46aprvda3kxuww62zfddua	138	40	to	to	TO
work_kkta46aprvda3kxuww62zfddua	138	41	take	take	VB
work_kkta46aprvda3kxuww62zfddua	138	42	a	a	DT
work_kkta46aprvda3kxuww62zfddua	138	43	transition	transition	NN
work_kkta46aprvda3kxuww62zfddua	138	44	like	like	IN
work_kkta46aprvda3kxuww62zfddua	138	45	state	state	NN
work_kkta46aprvda3kxuww62zfddua	138	46	,	,	,
work_kkta46aprvda3kxuww62zfddua	138	47	and	and	CC
work_kkta46aprvda3kxuww62zfddua	138	48	the	the	DT
work_kkta46aprvda3kxuww62zfddua	138	49	AMP	AMP	NNP
work_kkta46aprvda3kxuww62zfddua	138	50	–	–	:
work_kkta46aprvda3kxuww62zfddua	138	51	PNP-	PNP-	NNP
work_kkta46aprvda3kxuww62zfddua	138	52	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	138	53	orange	orange	NNP
work_kkta46aprvda3kxuww62zfddua	138	54	stick	stick	NNP
work_kkta46aprvda3kxuww62zfddua	138	55	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	138	56	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	138	57	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	138	58	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	138	59	APNP	APNP	NNP
work_kkta46aprvda3kxuww62zfddua	138	60	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	138	61	the	the	DT
work_kkta46aprvda3kxuww62zfddua	138	62	product	product	NN
work_kkta46aprvda3kxuww62zfddua	138	63	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	138	64	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	138	65	state	state	NN
work_kkta46aprvda3kxuww62zfddua	138	66	.	.	.
work_kkta46aprvda3kxuww62zfddua	139	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	139	2	S238	S238	NNP
work_kkta46aprvda3kxuww62zfddua	139	3	residue	residue	NN
work_kkta46aprvda3kxuww62zfddua	139	4	plays	play	VBZ
work_kkta46aprvda3kxuww62zfddua	139	5	an	an	DT
work_kkta46aprvda3kxuww62zfddua	139	6	important	important	JJ
work_kkta46aprvda3kxuww62zfddua	139	7	role	role	NN
work_kkta46aprvda3kxuww62zfddua	139	8	by	by	IN
work_kkta46aprvda3kxuww62zfddua	139	9	way	way	NN
work_kkta46aprvda3kxuww62zfddua	139	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	139	11	interacting	interact	VBG
work_kkta46aprvda3kxuww62zfddua	139	12	with	with	IN
work_kkta46aprvda3kxuww62zfddua	139	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	139	14	ligand	ligand	NN
work_kkta46aprvda3kxuww62zfddua	139	15	molecules	molecule	NNS
work_kkta46aprvda3kxuww62zfddua	139	16	in	in	IN
work_kkta46aprvda3kxuww62zfddua	139	17	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	139	18	modes	mode	NNS
work_kkta46aprvda3kxuww62zfddua	139	19	in	in	IN
work_kkta46aprvda3kxuww62zfddua	139	20	all	all	DT
work_kkta46aprvda3kxuww62zfddua	139	21	states	state	NNS
work_kkta46aprvda3kxuww62zfddua	139	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	140	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	140	2	substrate	substrate	NN
work_kkta46aprvda3kxuww62zfddua	140	3	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	140	4	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	140	5	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	140	6	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	140	7	state	state	NN
work_kkta46aprvda3kxuww62zfddua	140	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	140	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	140	10	product	product	NN
work_kkta46aprvda3kxuww62zfddua	140	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	140	12	release	release	NN
work_kkta46aprvda3kxuww62zfddua	140	13	state	state	NN
work_kkta46aprvda3kxuww62zfddua	140	14	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	140	15	hydrated	hydrate	VBN
work_kkta46aprvda3kxuww62zfddua	140	16	while	while	IN
work_kkta46aprvda3kxuww62zfddua	140	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	140	18	transition	transition	NN
work_kkta46aprvda3kxuww62zfddua	140	19	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	140	20	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	140	21	state	state	NN
work_kkta46aprvda3kxuww62zfddua	140	22	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	140	23	deprived	deprive	VBN
work_kkta46aprvda3kxuww62zfddua	140	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	140	25	water	water	NN
work_kkta46aprvda3kxuww62zfddua	140	26	molecules	molecule	NNS
work_kkta46aprvda3kxuww62zfddua	140	27	in	in	IN
work_kkta46aprvda3kxuww62zfddua	140	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	140	29	active	active	JJ
work_kkta46aprvda3kxuww62zfddua	140	30	site	site	NN
work_kkta46aprvda3kxuww62zfddua	140	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	141	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	141	2	distances	distance	NNS
work_kkta46aprvda3kxuww62zfddua	141	3	between	between	IN
work_kkta46aprvda3kxuww62zfddua	141	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	141	5	closest	close	JJS
work_kkta46aprvda3kxuww62zfddua	141	6	oxygen	oxygen	NN
work_kkta46aprvda3kxuww62zfddua	141	7	atom	atom	NN
work_kkta46aprvda3kxuww62zfddua	141	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	141	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	141	10	sulfate	sulfate	NN
work_kkta46aprvda3kxuww62zfddua	141	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	141	12	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	141	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	141	14	γ	γ	NN
work_kkta46aprvda3kxuww62zfddua	141	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	141	16	phosphate	phosphate	NN
work_kkta46aprvda3kxuww62zfddua	141	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	141	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	141	19	AMP	AMP	NNP
work_kkta46aprvda3kxuww62zfddua	141	20	–	–	:
work_kkta46aprvda3kxuww62zfddua	141	21	PNP	PNP	NNP
work_kkta46aprvda3kxuww62zfddua	141	22	molecules	molecule	NNS
work_kkta46aprvda3kxuww62zfddua	141	23	to	to	IN
work_kkta46aprvda3kxuww62zfddua	141	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	141	25	GER	GER	NNP
work_kkta46aprvda3kxuww62zfddua	141	26	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	141	27	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	141	28	residues	residue	VBZ
work_kkta46aprvda3kxuww62zfddua	141	29	E263	E263	NNP
work_kkta46aprvda3kxuww62zfddua	141	30	and	and	CC
work_kkta46aprvda3kxuww62zfddua	141	31	R264	R264	NNP
work_kkta46aprvda3kxuww62zfddua	141	32	for	for	IN
work_kkta46aprvda3kxuww62zfddua	141	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	141	34	AS	AS	NNP
work_kkta46aprvda3kxuww62zfddua	141	35	,	,	,
work_kkta46aprvda3kxuww62zfddua	141	36	AVi	AVi	NNS
work_kkta46aprvda3kxuww62zfddua	141	37	and	and	CC
work_kkta46aprvda3kxuww62zfddua	141	38	APNP	APNP	NNP
work_kkta46aprvda3kxuww62zfddua	141	39	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	141	40	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	141	41	also	also	RB
work_kkta46aprvda3kxuww62zfddua	141	42	indicated	indicate	VBN
work_kkta46aprvda3kxuww62zfddua	141	43	.	.	.
work_kkta46aprvda3kxuww62zfddua	142	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	142	2	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	142	3	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	142	4	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	142	5	V2	v2	NN
work_kkta46aprvda3kxuww62zfddua	142	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	142	7	cyan	cyan	NNP
work_kkta46aprvda3kxuww62zfddua	142	8	stick	stick	NNP
work_kkta46aprvda3kxuww62zfddua	142	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	142	10	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	142	11	also	also	RB
work_kkta46aprvda3kxuww62zfddua	142	12	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	142	13	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	142	14	demonstrates	demonstrate	VBZ
work_kkta46aprvda3kxuww62zfddua	142	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	142	16	pathway	pathway	NN
work_kkta46aprvda3kxuww62zfddua	142	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	142	18	entry	entry	NN
work_kkta46aprvda3kxuww62zfddua	142	19	of	of	IN
work_kkta46aprvda3kxuww62zfddua	142	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	142	21	substrate	substrate	JJ
work_kkta46aprvda3kxuww62zfddua	142	22	molecule	molecule	NN
work_kkta46aprvda3kxuww62zfddua	142	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	143	1	943G.	943G.	NNP
work_kkta46aprvda3kxuww62zfddua	144	1	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	144	2	et	et	FW
work_kkta46aprvda3kxuww62zfddua	144	3	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	144	4	.	.	.
work_kkta46aprvda3kxuww62zfddua	145	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	145	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	145	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	145	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	145	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	145	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	145	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	145	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	145	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	145	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	145	11	shows	show	VBZ
work_kkta46aprvda3kxuww62zfddua	145	12	differences	difference	NNS
work_kkta46aprvda3kxuww62zfddua	145	13	in	in	IN
work_kkta46aprvda3kxuww62zfddua	145	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	145	15	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	145	16	with	with	IN
work_kkta46aprvda3kxuww62zfddua	145	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	145	18	additional	additional	JJ
work_kkta46aprvda3kxuww62zfddua	145	19	α	α	NNS
work_kkta46aprvda3kxuww62zfddua	145	20	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	145	21	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	145	22	at	at	IN
work_kkta46aprvda3kxuww62zfddua	145	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	145	24	very	very	JJ
work_kkta46aprvda3kxuww62zfddua	145	25	C	c	NN
work_kkta46aprvda3kxuww62zfddua	145	26	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	145	27	terminus	terminus	NN
work_kkta46aprvda3kxuww62zfddua	145	28	of	of	IN
work_kkta46aprvda3kxuww62zfddua	145	29	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	145	30	A	a	NN
work_kkta46aprvda3kxuww62zfddua	145	31	and	and	CC
work_kkta46aprvda3kxuww62zfddua	145	32	the	the	DT
work_kkta46aprvda3kxuww62zfddua	145	33	so	so	RB
work_kkta46aprvda3kxuww62zfddua	145	34	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	145	35	called	call	VBN
work_kkta46aprvda3kxuww62zfddua	145	36	non	non	JJ
work_kkta46aprvda3kxuww62zfddua	145	37	-	-	JJ
work_kkta46aprvda3kxuww62zfddua	145	38	homologous	homologous	JJ
work_kkta46aprvda3kxuww62zfddua	145	39	region	region	NN
work_kkta46aprvda3kxuww62zfddua	145	40	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	145	41	NHR	NHR	NNP
work_kkta46aprvda3kxuww62zfddua	145	42	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	145	43	,	,	,
work_kkta46aprvda3kxuww62zfddua	145	44	of	of	IN
work_kkta46aprvda3kxuww62zfddua	145	45	about	about	RB
work_kkta46aprvda3kxuww62zfddua	145	46	90	90	CD
work_kkta46aprvda3kxuww62zfddua	145	47	amino	amino	JJ
work_kkta46aprvda3kxuww62zfddua	145	48	acids	acid	NNS
work_kkta46aprvda3kxuww62zfddua	145	49	near	near	IN
work_kkta46aprvda3kxuww62zfddua	145	50	the	the	DT
work_kkta46aprvda3kxuww62zfddua	145	51	N	N	NNP
work_kkta46aprvda3kxuww62zfddua	145	52	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	145	53	terminus	terminus	NN
work_kkta46aprvda3kxuww62zfddua	145	54	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	145	55	49	49	CD
work_kkta46aprvda3kxuww62zfddua	145	56	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	145	57	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	145	58	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	145	59	.	.	.
work_kkta46aprvda3kxuww62zfddua	146	1	2A	2a	LS
work_kkta46aprvda3kxuww62zfddua	146	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	146	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	146	4	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	146	5	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	146	6	not	not	RB
work_kkta46aprvda3kxuww62zfddua	146	7	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	146	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	146	9	β	β	NN
work_kkta46aprvda3kxuww62zfddua	146	10	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	146	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	146	12	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	146	13	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	146	14	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	146	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	146	16	but	but	CC
work_kkta46aprvda3kxuww62zfddua	146	17	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	146	18	in	in	IN
work_kkta46aprvda3kxuww62zfddua	146	19	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	146	20	A	a	NN
work_kkta46aprvda3kxuww62zfddua	146	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	146	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	146	23	related	related	JJ
work_kkta46aprvda3kxuww62zfddua	146	24	eukaryotic	eukaryotic	JJ
work_kkta46aprvda3kxuww62zfddua	146	25	V1VO	v1vo	NN
work_kkta46aprvda3kxuww62zfddua	146	26	ATPases	atpase	VBZ
work_kkta46aprvda3kxuww62zfddua	146	27	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	146	28	61,62	61,62	CD
work_kkta46aprvda3kxuww62zfddua	146	29	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	146	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	147	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	147	2	comparison	comparison	NN
work_kkta46aprvda3kxuww62zfddua	147	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	147	4	as	as	IN
work_kkta46aprvda3kxuww62zfddua	147	5	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	147	6	in	in	IN
work_kkta46aprvda3kxuww62zfddua	147	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	147	8	crystal	crystal	NN
work_kkta46aprvda3kxuww62zfddua	147	9	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	147	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	147	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	147	12	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	147	13	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	147	14	Gö1	gö1	VBP
work_kkta46aprvda3kxuww62zfddua	147	15	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	147	16	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	147	17	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	147	18	B	b	NN
work_kkta46aprvda3kxuww62zfddua	147	19	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	147	20	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	147	21	50	50	CD
work_kkta46aprvda3kxuww62zfddua	147	22	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	147	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	147	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	147	25	peptides	peptide	NNS
work_kkta46aprvda3kxuww62zfddua	147	26	G13	g13	VBP
work_kkta46aprvda3kxuww62zfddua	147	27	to	to	IN
work_kkta46aprvda3kxuww62zfddua	147	28	P23	P23	NNP
work_kkta46aprvda3kxuww62zfddua	147	29	of	of	IN
work_kkta46aprvda3kxuww62zfddua	147	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	147	31	N	n	NN
work_kkta46aprvda3kxuww62zfddua	147	32	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	147	33	terminus	terminus	NN
work_kkta46aprvda3kxuww62zfddua	147	34	of	of	IN
work_kkta46aprvda3kxuww62zfddua	147	35	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	147	36	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	147	37	forms	form	VBZ
work_kkta46aprvda3kxuww62zfddua	147	38	a	a	DT
work_kkta46aprvda3kxuww62zfddua	147	39	β	β	NN
work_kkta46aprvda3kxuww62zfddua	147	40	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	147	41	sheet	sheet	NN
work_kkta46aprvda3kxuww62zfddua	147	42	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	147	43	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	147	44	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	147	45	,	,	,
work_kkta46aprvda3kxuww62zfddua	147	46	and	and	CC
work_kkta46aprvda3kxuww62zfddua	147	47	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	147	48	homolo-	homolo-	NNP
work_kkta46aprvda3kxuww62zfddua	147	49	gous	gous	JJ
work_kkta46aprvda3kxuww62zfddua	147	50	to	to	IN
work_kkta46aprvda3kxuww62zfddua	147	51	the	the	DT
work_kkta46aprvda3kxuww62zfddua	147	52	actin	actin	RB
work_kkta46aprvda3kxuww62zfddua	147	53	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	147	54	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	147	55	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	147	56	of	of	IN
work_kkta46aprvda3kxuww62zfddua	147	57	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	147	58	B	b	NN
work_kkta46aprvda3kxuww62zfddua	147	59	of	of	IN
work_kkta46aprvda3kxuww62zfddua	147	60	the	the	DT
work_kkta46aprvda3kxuww62zfddua	147	61	human	human	JJ
work_kkta46aprvda3kxuww62zfddua	147	62	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	147	63	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	147	64	.	.	.
work_kkta46aprvda3kxuww62zfddua	148	1	Whether	whether	IN
work_kkta46aprvda3kxuww62zfddua	148	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	148	3	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	148	4	headpiece	headpiece	NN
work_kkta46aprvda3kxuww62zfddua	148	5	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	148	6	linked	link	VBN
work_kkta46aprvda3kxuww62zfddua	148	7	with	with	IN
work_kkta46aprvda3kxuww62zfddua	148	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	148	9	actin	actin	JJ
work_kkta46aprvda3kxuww62zfddua	148	10	network	network	NN
work_kkta46aprvda3kxuww62zfddua	148	11	via	via	IN
work_kkta46aprvda3kxuww62zfddua	148	12	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	148	13	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	148	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	148	15	as	as	IN
work_kkta46aprvda3kxuww62zfddua	148	16	described	describe	VBN
work_kkta46aprvda3kxuww62zfddua	148	17	for	for	IN
work_kkta46aprvda3kxuww62zfddua	148	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	148	19	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	148	20	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	148	21	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	148	22	63	63	CD
work_kkta46aprvda3kxuww62zfddua	148	23	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	148	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	148	25	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	148	26	to	to	TO
work_kkta46aprvda3kxuww62zfddua	148	27	be	be	VB
work_kkta46aprvda3kxuww62zfddua	148	28	resolved	resolve	VBN
work_kkta46aprvda3kxuww62zfddua	148	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	149	1	4.3	4.3	LS
work_kkta46aprvda3kxuww62zfddua	149	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	150	1	Critical	critical	JJ
work_kkta46aprvda3kxuww62zfddua	150	2	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	150	3	in	in	IN
work_kkta46aprvda3kxuww62zfddua	150	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	150	5	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	150	6	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	150	7	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	150	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	150	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	150	10	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	150	11	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	150	12	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	150	13	Recently	recently	RB
work_kkta46aprvda3kxuww62zfddua	150	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	150	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	150	16	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	150	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	150	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	150	19	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	150	20	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	150	21	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	150	22	of	of	IN
work_kkta46aprvda3kxuww62zfddua	150	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	150	24	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	150	25	horikoshii	horikoshii	NN
work_kkta46aprvda3kxuww62zfddua	150	26	OT3	OT3	NNP
work_kkta46aprvda3kxuww62zfddua	150	27	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	150	28	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	150	29	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	150	30	of	of	IN
work_kkta46aprvda3kxuww62zfddua	150	31	the	the	DT
work_kkta46aprvda3kxuww62zfddua	150	32	sulfate	sulfate	NN
work_kkta46aprvda3kxuww62zfddua	150	33	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	150	34	AS	AS	NNP
work_kkta46aprvda3kxuww62zfddua	150	35	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	150	36	,	,	,
work_kkta46aprvda3kxuww62zfddua	150	37	ADP	ADP	NNP
work_kkta46aprvda3kxuww62zfddua	150	38	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	150	39	AADP	AADP	NNP
work_kkta46aprvda3kxuww62zfddua	150	40	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	150	41	and	and	CC
work_kkta46aprvda3kxuww62zfddua	150	42	AMP	AMP	NNP
work_kkta46aprvda3kxuww62zfddua	150	43	–	–	:
work_kkta46aprvda3kxuww62zfddua	150	44	PNP	PNP	NNP
work_kkta46aprvda3kxuww62zfddua	150	45	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	150	46	APNP	APNP	NNP
work_kkta46aprvda3kxuww62zfddua	150	47	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	150	48	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	150	49	forms	form	NNS
work_kkta46aprvda3kxuww62zfddua	150	50	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	150	51	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	150	52	determined	determine	VBN
work_kkta46aprvda3kxuww62zfddua	150	53	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	150	54	49	49	CD
work_kkta46aprvda3kxuww62zfddua	150	55	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	150	56	.	.	.
work_kkta46aprvda3kxuww62zfddua	151	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	151	2	results	result	NNS
work_kkta46aprvda3kxuww62zfddua	151	3	demonstrated	demonstrate	VBD
work_kkta46aprvda3kxuww62zfddua	151	4	that	that	IN
work_kkta46aprvda3kxuww62zfddua	151	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	151	6	phosphate	phosphate	NN
work_kkta46aprvda3kxuww62zfddua	151	7	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	151	8	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	151	9	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	151	10	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	151	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	151	12	loop	loop	NNP
work_kkta46aprvda3kxuww62zfddua	151	13	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	151	14	residue	residue	NNP
work_kkta46aprvda3kxuww62zfddua	151	15	serine	serine	NNP
work_kkta46aprvda3kxuww62zfddua	151	16	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	151	17	highly	highly	RB
work_kkta46aprvda3kxuww62zfddua	151	18	important	important	JJ
work_kkta46aprvda3kxuww62zfddua	151	19	for	for	IN
work_kkta46aprvda3kxuww62zfddua	151	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	151	21	interaction	interaction	NN
work_kkta46aprvda3kxuww62zfddua	151	22	with	with	IN
work_kkta46aprvda3kxuww62zfddua	151	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	151	24	nucleotides	nucleotide	NNS
work_kkta46aprvda3kxuww62zfddua	151	25	and	and	CC
work_kkta46aprvda3kxuww62zfddua	151	26	the	the	DT
work_kkta46aprvda3kxuww62zfddua	151	27	inorganic	inorganic	JJ
work_kkta46aprvda3kxuww62zfddua	151	28	phosphate	phosphate	NN
work_kkta46aprvda3kxuww62zfddua	151	29	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	151	30	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	151	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	152	1	2B	2B	NNP
work_kkta46aprvda3kxuww62zfddua	152	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	152	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	153	1	Reflected	reflect	VBN
work_kkta46aprvda3kxuww62zfddua	153	2	also	also	RB
work_kkta46aprvda3kxuww62zfddua	153	3	by	by	IN
work_kkta46aprvda3kxuww62zfddua	153	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	153	5	diverse	diverse	JJ
work_kkta46aprvda3kxuww62zfddua	153	6	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	153	7	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	153	8	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	153	9	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	153	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	153	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	153	12	crystallographic	crystallographic	JJ
work_kkta46aprvda3kxuww62zfddua	153	13	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	153	14	indicated	indicate	VBD
work_kkta46aprvda3kxuww62zfddua	153	15	that	that	IN
work_kkta46aprvda3kxuww62zfddua	153	16	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	153	17	A	a	DT
work_kkta46aprvda3kxuww62zfddua	153	18	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	153	19	a	a	DT
work_kkta46aprvda3kxuww62zfddua	153	20	unique	unique	JJ
work_kkta46aprvda3kxuww62zfddua	153	21	arched	arch	VBN
work_kkta46aprvda3kxuww62zfddua	153	22	conformation	conformation	NN
work_kkta46aprvda3kxuww62zfddua	153	23	for	for	IN
work_kkta46aprvda3kxuww62zfddua	153	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	153	25	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	153	26	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	153	27	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	153	28	region	region	NN
work_kkta46aprvda3kxuww62zfddua	153	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	153	30	due	due	IN
work_kkta46aprvda3kxuww62zfddua	153	31	to	to	IN
work_kkta46aprvda3kxuww62zfddua	153	32	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	153	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	153	34	mode	mode	NN
work_kkta46aprvda3kxuww62zfddua	153	35	of	of	IN
work_kkta46aprvda3kxuww62zfddua	153	36	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	153	37	of	of	IN
work_kkta46aprvda3kxuww62zfddua	153	38	the	the	DT
work_kkta46aprvda3kxuww62zfddua	153	39	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	153	40	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	153	41	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	153	42	from	from	IN
work_kkta46aprvda3kxuww62zfddua	153	43	that	that	DT
work_kkta46aprvda3kxuww62zfddua	153	44	of	of	IN
work_kkta46aprvda3kxuww62zfddua	153	45	the	the	DT
work_kkta46aprvda3kxuww62zfddua	153	46	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	153	47	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	153	48	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	153	49	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	153	50	of	of	IN
work_kkta46aprvda3kxuww62zfddua	153	51	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	153	52	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	153	53	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	153	54	.	.	.
work_kkta46aprvda3kxuww62zfddua	154	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	154	2	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	154	3	unique	unique	JJ
work_kkta46aprvda3kxuww62zfddua	154	4	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	154	5	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	154	6	loop	loop	NNP
work_kkta46aprvda3kxuww62zfddua	154	7	residue	residue	NN
work_kkta46aprvda3kxuww62zfddua	154	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	154	9	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	154	10	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	154	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	154	12	phenylalanine	phenylalanine	NN
work_kkta46aprvda3kxuww62zfddua	154	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	154	14	stabilizes	stabilize	VBZ
work_kkta46aprvda3kxuww62zfddua	154	15	this	this	DT
work_kkta46aprvda3kxuww62zfddua	154	16	arched	arched	JJ
work_kkta46aprvda3kxuww62zfddua	154	17	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	154	18	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	154	19	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	154	20	.	.	.
work_kkta46aprvda3kxuww62zfddua	155	1	2B	2B	NNP
work_kkta46aprvda3kxuww62zfddua	155	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	155	3	and	and	CC
work_kkta46aprvda3kxuww62zfddua	155	4	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	155	5	there-	there-	NN
work_kkta46aprvda3kxuww62zfddua	155	6	fore	fore	IN
work_kkta46aprvda3kxuww62zfddua	155	7	one	one	CD
work_kkta46aprvda3kxuww62zfddua	155	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	155	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	155	10	critical	critical	JJ
work_kkta46aprvda3kxuww62zfddua	155	11	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	155	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	155	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	155	14	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	155	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	155	16	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	155	17	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	155	18	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	155	19	GPFGSGKT	GPFGSGKT	NNP
work_kkta46aprvda3kxuww62zfddua	155	20	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	155	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	155	22	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	155	23	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	156	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	156	2	phenylalanine	phenylalanine	NN
work_kkta46aprvda3kxuww62zfddua	156	3	residue	residue	NN
work_kkta46aprvda3kxuww62zfddua	156	4	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	156	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	156	6	equivalent	equivalent	JJ
work_kkta46aprvda3kxuww62zfddua	156	7	amino	amino	NN
work_kkta46aprvda3kxuww62zfddua	156	8	acid	acid	NN
work_kkta46aprvda3kxuww62zfddua	156	9	to	to	IN
work_kkta46aprvda3kxuww62zfddua	156	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	156	11	alanine	alanine	NN
work_kkta46aprvda3kxuww62zfddua	156	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	156	13	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	156	14	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	156	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	156	16	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	156	17	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	156	18	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	156	19	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	156	20	GGAGVGKT	GGAGVGKT	NNP
work_kkta46aprvda3kxuww62zfddua	156	21	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	156	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	156	23	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	156	24	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	156	25	a	a	DT
work_kkta46aprvda3kxuww62zfddua	156	26	key	key	JJ
work_kkta46aprvda3kxuww62zfddua	156	27	residue	residue	NN
work_kkta46aprvda3kxuww62zfddua	156	28	in	in	IN
work_kkta46aprvda3kxuww62zfddua	156	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	156	30	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	156	31	process	process	NN
work_kkta46aprvda3kxuww62zfddua	156	32	inside	inside	IN
work_kkta46aprvda3kxuww62zfddua	156	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	156	34	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	156	35	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	156	36	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	156	37	moves	move	VBZ
work_kkta46aprvda3kxuww62zfddua	156	38	towards	towards	IN
work_kkta46aprvda3kxuww62zfddua	156	39	the	the	DT
work_kkta46aprvda3kxuww62zfddua	156	40	γ	γ	NN
work_kkta46aprvda3kxuww62zfddua	156	41	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	156	42	phosphate	phosphate	NN
work_kkta46aprvda3kxuww62zfddua	156	43	of	of	IN
work_kkta46aprvda3kxuww62zfddua	156	44	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	156	45	during	during	IN
work_kkta46aprvda3kxuww62zfddua	156	46	catalysis	catalysis	NN
work_kkta46aprvda3kxuww62zfddua	156	47	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	156	48	60	60	CD
work_kkta46aprvda3kxuww62zfddua	156	49	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	156	50	.	.	.
work_kkta46aprvda3kxuww62zfddua	157	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	157	2	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	157	3	amino	amino	JJ
work_kkta46aprvda3kxuww62zfddua	157	4	acid	acid	NN
work_kkta46aprvda3kxuww62zfddua	157	5	composition	composition	NN
work_kkta46aprvda3kxuww62zfddua	157	6	in	in	IN
work_kkta46aprvda3kxuww62zfddua	157	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	157	8	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	157	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	157	10	loop	loop	NNP
work_kkta46aprvda3kxuww62zfddua	157	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	157	12	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	157	13	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	157	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	157	15	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	157	16	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	157	17	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	157	18	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	157	19	also	also	RB
work_kkta46aprvda3kxuww62zfddua	157	20	reflected	reflect	VBN
work_kkta46aprvda3kxuww62zfddua	157	21	by	by	IN
work_kkta46aprvda3kxuww62zfddua	157	22	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	157	23	horizontal	horizontal	JJ
work_kkta46aprvda3kxuww62zfddua	157	24	orientation	orientation	NN
work_kkta46aprvda3kxuww62zfddua	157	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	158	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	158	2	novel	novel	NN
work_kkta46aprvda3kxuww62zfddua	158	3	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	158	4	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	158	5	loop	loop	NNP
work_kkta46aprvda3kxuww62zfddua	158	6	conformation	conformation	NN
work_kkta46aprvda3kxuww62zfddua	158	7	in	in	IN
work_kkta46aprvda3kxuww62zfddua	158	8	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	158	9	A	a	DT
work_kkta46aprvda3kxuww62zfddua	158	10	forces	force	NNS
work_kkta46aprvda3kxuww62zfddua	158	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	158	12	nucleotide	nucleotide	NN
work_kkta46aprvda3kxuww62zfddua	158	13	into	into	IN
work_kkta46aprvda3kxuww62zfddua	158	14	a	a	DT
work_kkta46aprvda3kxuww62zfddua	158	15	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	158	16	arrangement	arrangement	NN
work_kkta46aprvda3kxuww62zfddua	158	17	inside	inside	IN
work_kkta46aprvda3kxuww62zfddua	158	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	158	19	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	158	20	site	site	NN
work_kkta46aprvda3kxuww62zfddua	158	21	with	with	IN
work_kkta46aprvda3kxuww62zfddua	158	22	weaker	weak	JJR
work_kkta46aprvda3kxuww62zfddua	158	23	interactions	interaction	NNS
work_kkta46aprvda3kxuww62zfddua	158	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	158	25	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	158	26	and/or	and/or	CC
work_kkta46aprvda3kxuww62zfddua	158	27	homologous	homologous	JJ
work_kkta46aprvda3kxuww62zfddua	158	28	surrounding	surround	VBG
work_kkta46aprvda3kxuww62zfddua	158	29	amino	amino	NN
work_kkta46aprvda3kxuww62zfddua	158	30	acid	acid	NN
work_kkta46aprvda3kxuww62zfddua	158	31	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	158	32	and	and	CC
work_kkta46aprvda3kxuww62zfddua	158	33	making	make	VBG
work_kkta46aprvda3kxuww62zfddua	158	34	the	the	DT
work_kkta46aprvda3kxuww62zfddua	158	35	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	158	36	more	more	JJR
work_kkta46aprvda3kxuww62zfddua	158	37	solvent	solvent	NN
work_kkta46aprvda3kxuww62zfddua	158	38	exposed	expose	VBN
work_kkta46aprvda3kxuww62zfddua	158	39	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	158	40	49	49	CD
work_kkta46aprvda3kxuww62zfddua	158	41	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	158	42	.	.	.
work_kkta46aprvda3kxuww62zfddua	159	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	159	2	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	159	3	feature	feature	NN
work_kkta46aprvda3kxuww62zfddua	159	4	explains	explain	VBZ
work_kkta46aprvda3kxuww62zfddua	159	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	159	6	ability	ability	NN
work_kkta46aprvda3kxuww62zfddua	159	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	159	8	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	159	9	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	159	10	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	159	11	to	to	TO
work_kkta46aprvda3kxuww62zfddua	159	12	hydrolyze	hydrolyze	VB
work_kkta46aprvda3kxuww62zfddua	159	13	apart	apart	RB
work_kkta46aprvda3kxuww62zfddua	159	14	from	from	IN
work_kkta46aprvda3kxuww62zfddua	159	15	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	159	16	also	also	RB
work_kkta46aprvda3kxuww62zfddua	159	17	GTP	GTP	NNP
work_kkta46aprvda3kxuww62zfddua	159	18	and	and	CC
work_kkta46aprvda3kxuww62zfddua	159	19	UTP	UTP	NNP
work_kkta46aprvda3kxuww62zfddua	159	20	with	with	IN
work_kkta46aprvda3kxuww62zfddua	159	21	86	86	CD
work_kkta46aprvda3kxuww62zfddua	159	22	%	%	NN
work_kkta46aprvda3kxuww62zfddua	159	23	and	and	CC
work_kkta46aprvda3kxuww62zfddua	159	24	54	54	CD
work_kkta46aprvda3kxuww62zfddua	159	25	%	%	NN
work_kkta46aprvda3kxuww62zfddua	159	26	activities	activity	NNS
work_kkta46aprvda3kxuww62zfddua	159	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	159	28	respectively	respectively	RB
work_kkta46aprvda3kxuww62zfddua	159	29	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	159	30	64,65	64,65	CD
work_kkta46aprvda3kxuww62zfddua	159	31	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	159	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	160	1	These	these	DT
work_kkta46aprvda3kxuww62zfddua	160	2	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	160	3	designs	design	NNS
work_kkta46aprvda3kxuww62zfddua	160	4	demonstrate	demonstrate	VBP
work_kkta46aprvda3kxuww62zfddua	160	5	how	how	WRB
work_kkta46aprvda3kxuww62zfddua	160	6	nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	160	7	optimizes	optimize	VBZ
work_kkta46aprvda3kxuww62zfddua	160	8	biological	biological	JJ
work_kkta46aprvda3kxuww62zfddua	160	9	activities	activity	NNS
work_kkta46aprvda3kxuww62zfddua	160	10	down	down	RP
work_kkta46aprvda3kxuww62zfddua	160	11	to	to	IN
work_kkta46aprvda3kxuww62zfddua	160	12	such	such	JJ
work_kkta46aprvda3kxuww62zfddua	160	13	tiny	tiny	JJ
work_kkta46aprvda3kxuww62zfddua	160	14	details	detail	NNS
work_kkta46aprvda3kxuww62zfddua	160	15	.	.	.
work_kkta46aprvda3kxuww62zfddua	161	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	161	2	importance	importance	NN
work_kkta46aprvda3kxuww62zfddua	161	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	161	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	161	5	polar	polar	JJ
work_kkta46aprvda3kxuww62zfddua	161	6	serine	serine	JJ
work_kkta46aprvda3kxuww62zfddua	161	7	residue	residue	NN
work_kkta46aprvda3kxuww62zfddua	161	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	161	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	161	10	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	161	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	161	12	loop	loop	NNP
work_kkta46aprvda3kxuww62zfddua	161	13	in	in	IN
work_kkta46aprvda3kxuww62zfddua	161	14	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	161	15	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	161	16	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	161	17	also	also	RB
work_kkta46aprvda3kxuww62zfddua	161	18	indicated	indicate	VBN
work_kkta46aprvda3kxuww62zfddua	161	19	in	in	IN
work_kkta46aprvda3kxuww62zfddua	161	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	161	21	recently	recently	RB
work_kkta46aprvda3kxuww62zfddua	161	22	determined	determine	VBN
work_kkta46aprvda3kxuww62zfddua	161	23	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	161	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	161	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	161	26	sulfate	sulfate	NN
work_kkta46aprvda3kxuww62zfddua	161	27	AS	as	IN
work_kkta46aprvda3kxuww62zfddua	161	28	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	161	29	49	49	CD
work_kkta46aprvda3kxuww62zfddua	161	30	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	161	31	and	and	CC
work_kkta46aprvda3kxuww62zfddua	161	32	transition	transition	NN
work_kkta46aprvda3kxuww62zfddua	161	33	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	161	34	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	161	35	state	state	NN
work_kkta46aprvda3kxuww62zfddua	161	36	,	,	,
work_kkta46aprvda3kxuww62zfddua	161	37	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	161	38	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	161	39	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	161	40	form	form	NN
work_kkta46aprvda3kxuww62zfddua	161	41	of	of	IN
work_kkta46aprvda3kxuww62zfddua	161	42	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	161	43	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	161	44	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	161	45	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	161	46	AVi	AVi	NNP
work_kkta46aprvda3kxuww62zfddua	161	47	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	161	48	of	of	IN
work_kkta46aprvda3kxuww62zfddua	161	49	the	the	DT
work_kkta46aprvda3kxuww62zfddua	161	50	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	161	51	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	161	52	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	161	53	from	from	IN
work_kkta46aprvda3kxuww62zfddua	161	54	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	161	55	horikoshii	horikoshii	NNP
work_kkta46aprvda3kxuww62zfddua	161	56	OT3	OT3	NNP
work_kkta46aprvda3kxuww62zfddua	161	57	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	161	58	64	64	CD
work_kkta46aprvda3kxuww62zfddua	161	59	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	161	60	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	161	61	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	161	62	.	.	.
work_kkta46aprvda3kxuww62zfddua	162	1	2B	2B	NNP
work_kkta46aprvda3kxuww62zfddua	162	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	162	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	163	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	163	2	both	both	DT
work_kkta46aprvda3kxuww62zfddua	163	3	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	163	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	163	5	sulfate	sulfate	NN
work_kkta46aprvda3kxuww62zfddua	163	6	or	or	CC
work_kkta46aprvda3kxuww62zfddua	163	7	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	163	8	interacts	interact	VBZ
work_kkta46aprvda3kxuww62zfddua	163	9	only	only	RB
work_kkta46aprvda3kxuww62zfddua	163	10	with	with	IN
work_kkta46aprvda3kxuww62zfddua	163	11	S238	S238	NNP
work_kkta46aprvda3kxuww62zfddua	163	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	163	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	163	14	P	p	NN
work_kkta46aprvda3kxuww62zfddua	163	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	163	16	loop	loop	NNP
work_kkta46aprvda3kxuww62zfddua	163	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	164	1	However	however	RB
work_kkta46aprvda3kxuww62zfddua	164	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	164	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	164	4	mode	mode	NN
work_kkta46aprvda3kxuww62zfddua	164	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	164	6	interaction	interaction	NN
work_kkta46aprvda3kxuww62zfddua	164	7	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	164	8	very	very	RB
work_kkta46aprvda3kxuww62zfddua	164	9	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	164	10	;	;	:
work_kkta46aprvda3kxuww62zfddua	164	11	while	while	IN
work_kkta46aprvda3kxuww62zfddua	164	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	164	13	AS	as	IN
work_kkta46aprvda3kxuww62zfddua	164	14	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	164	15	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	164	16	through	through	IN
work_kkta46aprvda3kxuww62zfddua	164	17	a	a	DT
work_kkta46aprvda3kxuww62zfddua	164	18	water	water	NN
work_kkta46aprvda3kxuww62zfddua	164	19	molecule	molecule	NN
work_kkta46aprvda3kxuww62zfddua	164	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	164	21	in	in	IN
work_kkta46aprvda3kxuww62zfddua	164	22	AVi	AVi	NNS
work_kkta46aprvda3kxuww62zfddua	164	23	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	164	24	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	164	25	a	a	DT
work_kkta46aprvda3kxuww62zfddua	164	26	direct	direct	JJ
work_kkta46aprvda3kxuww62zfddua	164	27	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	164	28	bonding	bonding	NN
work_kkta46aprvda3kxuww62zfddua	164	29	interaction	interaction	NN
work_kkta46aprvda3kxuww62zfddua	164	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	165	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	165	2	comparison	comparison	NN
work_kkta46aprvda3kxuww62zfddua	165	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	165	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	165	5	AVi	AVi	NNS
work_kkta46aprvda3kxuww62zfddua	165	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	165	7	AS	AS	NNP
work_kkta46aprvda3kxuww62zfddua	165	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	165	9	AMP	AMP	NNP
work_kkta46aprvda3kxuww62zfddua	165	10	–	–	:
work_kkta46aprvda3kxuww62zfddua	165	11	PNP	PNP	NNP
work_kkta46aprvda3kxuww62zfddua	165	12	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	165	13	APNP	APNP	NNP
work_kkta46aprvda3kxuww62zfddua	165	14	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	165	15	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	165	16	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	165	17	showed	show	VBD
work_kkta46aprvda3kxuww62zfddua	165	18	that	that	IN
work_kkta46aprvda3kxuww62zfddua	165	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	165	20	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	165	21	molecule	molecule	NN
work_kkta46aprvda3kxuww62zfddua	165	22	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	165	23	positioned	position	VBN
work_kkta46aprvda3kxuww62zfddua	165	24	closer	close	RBR
work_kkta46aprvda3kxuww62zfddua	165	25	to	to	IN
work_kkta46aprvda3kxuww62zfddua	165	26	the	the	DT
work_kkta46aprvda3kxuww62zfddua	165	27	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	165	28	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	165	29	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	165	30	compared	compare	VBN
work_kkta46aprvda3kxuww62zfddua	165	31	to	to	IN
work_kkta46aprvda3kxuww62zfddua	165	32	the	the	DT
work_kkta46aprvda3kxuww62zfddua	165	33	sulfate	sulfate	NN
work_kkta46aprvda3kxuww62zfddua	165	34	molecule	molecule	NN
work_kkta46aprvda3kxuww62zfddua	165	35	,	,	,
work_kkta46aprvda3kxuww62zfddua	165	36	and	and	CC
work_kkta46aprvda3kxuww62zfddua	165	37	that	that	IN
work_kkta46aprvda3kxuww62zfddua	165	38	the	the	DT
work_kkta46aprvda3kxuww62zfddua	165	39	γ	γ	NNP
work_kkta46aprvda3kxuww62zfddua	165	40	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	165	41	phosphate	phosphate	NN
work_kkta46aprvda3kxuww62zfddua	165	42	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	165	43	placed	place	VBN
work_kkta46aprvda3kxuww62zfddua	165	44	even	even	RB
work_kkta46aprvda3kxuww62zfddua	165	45	closer	close	RBR
work_kkta46aprvda3kxuww62zfddua	165	46	in	in	IN
work_kkta46aprvda3kxuww62zfddua	165	47	the	the	DT
work_kkta46aprvda3kxuww62zfddua	165	48	APNP	APNP	NNP
work_kkta46aprvda3kxuww62zfddua	165	49	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	165	50	,	,	,
work_kkta46aprvda3kxuww62zfddua	165	51	indicating	indicate	VBG
work_kkta46aprvda3kxuww62zfddua	165	52	that	that	IN
work_kkta46aprvda3kxuww62zfddua	165	53	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	165	54	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	165	55	situated	situate	VBN
work_kkta46aprvda3kxuww62zfddua	165	56	in	in	IN
work_kkta46aprvda3kxuww62zfddua	165	57	the	the	DT
work_kkta46aprvda3kxuww62zfddua	165	58	intermediate	intermediate	JJ
work_kkta46aprvda3kxuww62zfddua	165	59	position	position	NN
work_kkta46aprvda3kxuww62zfddua	165	60	.	.	.
work_kkta46aprvda3kxuww62zfddua	166	1	By	by	IN
work_kkta46aprvda3kxuww62zfddua	166	2	analogy	analogy	NN
work_kkta46aprvda3kxuww62zfddua	166	3	with	with	IN
work_kkta46aprvda3kxuww62zfddua	166	4	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	166	5	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	166	6	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	166	7	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	166	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	166	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	166	10	biological	biological	JJ
work_kkta46aprvda3kxuww62zfddua	166	11	motors	motor	NNS
work_kkta46aprvda3kxuww62zfddua	166	12	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	166	13	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	166	14	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	166	15	and	and	CC
work_kkta46aprvda3kxuww62zfddua	166	16	myosin	myosin	NN
work_kkta46aprvda3kxuww62zfddua	166	17	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	166	18	66,67	66,67	CD
work_kkta46aprvda3kxuww62zfddua	166	19	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	166	20	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	166	21	could	could	MD
work_kkta46aprvda3kxuww62zfddua	166	22	be	be	VB
work_kkta46aprvda3kxuww62zfddua	166	23	interpreted	interpret	VBN
work_kkta46aprvda3kxuww62zfddua	166	24	that	that	IN
work_kkta46aprvda3kxuww62zfddua	166	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	166	26	image	image	NN
work_kkta46aprvda3kxuww62zfddua	166	27	of	of	IN
work_kkta46aprvda3kxuww62zfddua	166	28	Fig.	Fig.	NNP
work_kkta46aprvda3kxuww62zfddua	166	29	�	�	NNP
work_kkta46aprvda3kxuww62zfddua	166	30	2	2	CD
work_kkta46aprvda3kxuww62zfddua	166	31	944	944	CD
work_kkta46aprvda3kxuww62zfddua	166	32	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	166	33	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	166	34	et	et	FW
work_kkta46aprvda3kxuww62zfddua	166	35	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	166	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	167	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	167	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	167	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	167	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	167	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	167	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	167	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	167	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	167	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	167	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	167	11	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	167	12	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	167	13	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	167	14	state	state	NN
work_kkta46aprvda3kxuww62zfddua	167	15	mimics	mimic	NNS
work_kkta46aprvda3kxuww62zfddua	167	16	a	a	DT
work_kkta46aprvda3kxuww62zfddua	167	17	transition	transition	NN
work_kkta46aprvda3kxuww62zfddua	167	18	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	167	19	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	167	20	state	state	NN
work_kkta46aprvda3kxuww62zfddua	167	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	167	22	with	with	IN
work_kkta46aprvda3kxuww62zfddua	167	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	167	24	sulfate-	sulfate-	NN
work_kkta46aprvda3kxuww62zfddua	167	25	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	167	26	a	a	DT
work_kkta46aprvda3kxuww62zfddua	167	27	phosphate	phosphate	NN
work_kkta46aprvda3kxuww62zfddua	167	28	mimic	mimic	NN
work_kkta46aprvda3kxuww62zfddua	167	29	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	167	30	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	167	31	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	167	32	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	167	33	AS	AS	NNP
work_kkta46aprvda3kxuww62zfddua	167	34	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	167	35	taking	take	VBG
work_kkta46aprvda3kxuww62zfddua	167	36	the	the	DT
work_kkta46aprvda3kxuww62zfddua	167	37	substrate	substrate	NN
work_kkta46aprvda3kxuww62zfddua	167	38	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	167	39	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	167	40	position	position	NN
work_kkta46aprvda3kxuww62zfddua	167	41	and	and	CC
work_kkta46aprvda3kxuww62zfddua	167	42	the	the	DT
work_kkta46aprvda3kxuww62zfddua	167	43	AMP	AMP	NNP
work_kkta46aprvda3kxuww62zfddua	167	44	–	–	:
work_kkta46aprvda3kxuww62zfddua	167	45	PNP	PNP	NNP
work_kkta46aprvda3kxuww62zfddua	167	46	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	167	47	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	167	48	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	167	49	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	167	50	APNP	APNP	NNP
work_kkta46aprvda3kxuww62zfddua	167	51	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	167	52	adopting	adopt	VBG
work_kkta46aprvda3kxuww62zfddua	167	53	the	the	DT
work_kkta46aprvda3kxuww62zfddua	167	54	product	product	NN
work_kkta46aprvda3kxuww62zfddua	167	55	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	167	56	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	167	57	state	state	NN
work_kkta46aprvda3kxuww62zfddua	167	58	during	during	IN
work_kkta46aprvda3kxuww62zfddua	167	59	catalysis	catalysis	NN
work_kkta46aprvda3kxuww62zfddua	167	60	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	167	61	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	167	62	.	.	.
work_kkta46aprvda3kxuww62zfddua	168	1	2B	2B	NNP
work_kkta46aprvda3kxuww62zfddua	168	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	168	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	169	1	Structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	169	2	rearrangement	rearrangement	NN
work_kkta46aprvda3kxuww62zfddua	169	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	169	4	catalytically	catalytically	RB
work_kkta46aprvda3kxuww62zfddua	169	5	important	important	JJ
work_kkta46aprvda3kxuww62zfddua	169	6	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	169	7	in	in	IN
work_kkta46aprvda3kxuww62zfddua	169	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	169	9	so	so	RB
work_kkta46aprvda3kxuww62zfddua	169	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	169	11	called	call	VBN
work_kkta46aprvda3kxuww62zfddua	169	12	Walker	Walker	NNP
work_kkta46aprvda3kxuww62zfddua	169	13	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	169	14	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	169	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	169	16	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	169	17	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	169	18	became	become	VBD
work_kkta46aprvda3kxuww62zfddua	169	19	obvious	obvious	JJ
work_kkta46aprvda3kxuww62zfddua	169	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	169	21	when	when	WRB
work_kkta46aprvda3kxuww62zfddua	169	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	169	23	AVi	AVi	NNS
work_kkta46aprvda3kxuww62zfddua	169	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	169	25	AS	AS	NNP
work_kkta46aprvda3kxuww62zfddua	169	26	and	and	CC
work_kkta46aprvda3kxuww62zfddua	169	27	APNP	APNP	NNP
work_kkta46aprvda3kxuww62zfddua	169	28	bound	bind	VBD
work_kkta46aprvda3kxuww62zfddua	169	29	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	169	30	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	169	31	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	169	32	compared	compare	VBN
work_kkta46aprvda3kxuww62zfddua	169	33	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	169	34	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	169	35	.	.	.
work_kkta46aprvda3kxuww62zfddua	170	1	2B	2B	NNP
work_kkta46aprvda3kxuww62zfddua	170	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	170	3	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	170	4	64	64	CD
work_kkta46aprvda3kxuww62zfddua	170	5	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	170	6	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	170	7	.	.	.
work_kkta46aprvda3kxuww62zfddua	171	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	171	2	Walker	Walker	NNP
work_kkta46aprvda3kxuww62zfddua	171	3	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	171	4	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	171	5	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	171	6	or	or	CC
work_kkta46aprvda3kxuww62zfddua	171	7	GER	GER	NNP
work_kkta46aprvda3kxuww62zfddua	171	8	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	171	9	loop	loop	NNP
work_kkta46aprvda3kxuww62zfddua	171	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	171	11	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	171	12	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	171	13	located	locate	VBN
work_kkta46aprvda3kxuww62zfddua	171	14	above	above	IN
work_kkta46aprvda3kxuww62zfddua	171	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	171	16	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	171	17	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	171	18	loop	loop	NNP
work_kkta46aprvda3kxuww62zfddua	171	19	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	171	20	Walker	Walker	NNP
work_kkta46aprvda3kxuww62zfddua	171	21	A	a	DT
work_kkta46aprvda3kxuww62zfddua	171	22	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	171	23	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	171	24	and	and	CC
work_kkta46aprvda3kxuww62zfddua	171	25	known	know	VBN
work_kkta46aprvda3kxuww62zfddua	171	26	to	to	TO
work_kkta46aprvda3kxuww62zfddua	171	27	be	be	VB
work_kkta46aprvda3kxuww62zfddua	171	28	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	171	29	in	in	IN
work_kkta46aprvda3kxuww62zfddua	171	30	immobilization	immobilization	NN
work_kkta46aprvda3kxuww62zfddua	171	31	and	and	CC
work_kkta46aprvda3kxuww62zfddua	171	32	polarization	polarization	NN
work_kkta46aprvda3kxuww62zfddua	171	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	171	34	a	a	DT
work_kkta46aprvda3kxuww62zfddua	171	35	water	water	NN
work_kkta46aprvda3kxuww62zfddua	171	36	molecule	molecule	NN
work_kkta46aprvda3kxuww62zfddua	171	37	to	to	TO
work_kkta46aprvda3kxuww62zfddua	171	38	facilitate	facilitate	VB
work_kkta46aprvda3kxuww62zfddua	171	39	nucleophilic	nucleophilic	JJ
work_kkta46aprvda3kxuww62zfddua	171	40	attack	attack	NN
work_kkta46aprvda3kxuww62zfddua	171	41	at	at	IN
work_kkta46aprvda3kxuww62zfddua	171	42	the	the	DT
work_kkta46aprvda3kxuww62zfddua	171	43	γ	γ	NNP
work_kkta46aprvda3kxuww62zfddua	171	44	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	171	45	phosphate	phosphate	NN
work_kkta46aprvda3kxuww62zfddua	171	46	of	of	IN
work_kkta46aprvda3kxuww62zfddua	171	47	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	171	48	,	,	,
work_kkta46aprvda3kxuww62zfddua	171	49	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	171	50	deviated	deviate	VBN
work_kkta46aprvda3kxuww62zfddua	171	51	by	by	IN
work_kkta46aprvda3kxuww62zfddua	171	52	around	around	RB
work_kkta46aprvda3kxuww62zfddua	171	53	3.2	3.2	CD
work_kkta46aprvda3kxuww62zfddua	171	54	Å	å	NN
work_kkta46aprvda3kxuww62zfddua	171	55	in	in	IN
work_kkta46aprvda3kxuww62zfddua	171	56	the	the	DT
work_kkta46aprvda3kxuww62zfddua	171	57	AVi	AVi	NNS
work_kkta46aprvda3kxuww62zfddua	171	58	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	171	59	when	when	WRB
work_kkta46aprvda3kxuww62zfddua	171	60	compared	compare	VBN
work_kkta46aprvda3kxuww62zfddua	171	61	with	with	IN
work_kkta46aprvda3kxuww62zfddua	171	62	the	the	DT
work_kkta46aprvda3kxuww62zfddua	171	63	AS	AS	NNP
work_kkta46aprvda3kxuww62zfddua	171	64	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	171	65	.	.	.
work_kkta46aprvda3kxuww62zfddua	172	1	Further	further	RB
work_kkta46aprvda3kxuww62zfddua	172	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	172	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	172	4	side	side	NN
work_kkta46aprvda3kxuww62zfddua	172	5	chains	chain	NNS
work_kkta46aprvda3kxuww62zfddua	172	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	172	7	gluta-	gluta-	JJ
work_kkta46aprvda3kxuww62zfddua	172	8	mate	mate	NN
work_kkta46aprvda3kxuww62zfddua	172	9	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	172	10	E263	e263	NN
work_kkta46aprvda3kxuww62zfddua	172	11	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	172	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	172	13	arginine	arginine	NN
work_kkta46aprvda3kxuww62zfddua	172	14	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	172	15	R264	R264	NNP
work_kkta46aprvda3kxuww62zfddua	172	16	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	172	17	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	172	18	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	172	19	significantly	significantly	RB
work_kkta46aprvda3kxuww62zfddua	172	20	deviated	deviate	VBN
work_kkta46aprvda3kxuww62zfddua	172	21	by	by	IN
work_kkta46aprvda3kxuww62zfddua	172	22	2.3	2.3	CD
work_kkta46aprvda3kxuww62zfddua	172	23	Å	å	NN
work_kkta46aprvda3kxuww62zfddua	172	24	and	and	CC
work_kkta46aprvda3kxuww62zfddua	172	25	6.6	6.6	CD
work_kkta46aprvda3kxuww62zfddua	172	26	Å	å	NN
work_kkta46aprvda3kxuww62zfddua	172	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	172	28	respectively	respectively	RB
work_kkta46aprvda3kxuww62zfddua	172	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	172	30	moving	move	VBG
work_kkta46aprvda3kxuww62zfddua	172	31	closer	close	RBR
work_kkta46aprvda3kxuww62zfddua	172	32	to	to	IN
work_kkta46aprvda3kxuww62zfddua	172	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	172	34	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	172	35	molecule	molecule	NN
work_kkta46aprvda3kxuww62zfddua	172	36	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	172	37	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	172	38	.	.	.
work_kkta46aprvda3kxuww62zfddua	173	1	2B	2B	NNP
work_kkta46aprvda3kxuww62zfddua	173	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	173	3	and	and	CC
work_kkta46aprvda3kxuww62zfddua	173	4	revealing	reveal	VBG
work_kkta46aprvda3kxuww62zfddua	173	5	substantial	substantial	JJ
work_kkta46aprvda3kxuww62zfddua	173	6	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	173	7	rearrangement	rearrangement	NN
work_kkta46aprvda3kxuww62zfddua	173	8	during	during	IN
work_kkta46aprvda3kxuww62zfddua	173	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	173	10	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	173	11	event	event	NN
work_kkta46aprvda3kxuww62zfddua	173	12	.	.	.
work_kkta46aprvda3kxuww62zfddua	174	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	174	2	AVi	AVi	NNS
work_kkta46aprvda3kxuww62zfddua	174	3	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	174	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	174	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	174	6	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	174	7	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	174	8	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	174	9	showed	show	VBD
work_kkta46aprvda3kxuww62zfddua	174	10	for	for	IN
work_kkta46aprvda3kxuww62zfddua	174	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	174	12	first	first	JJ
work_kkta46aprvda3kxuww62zfddua	174	13	time	time	NN
work_kkta46aprvda3kxuww62zfddua	174	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	174	15	entry	entry	NN
work_kkta46aprvda3kxuww62zfddua	174	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	174	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	174	18	substrate	substrate	JJ
work_kkta46aprvda3kxuww62zfddua	174	19	sulfate	sulfate	NN
work_kkta46aprvda3kxuww62zfddua	174	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	174	21	a	a	DT
work_kkta46aprvda3kxuww62zfddua	174	22	phosphate	phosphate	NN
work_kkta46aprvda3kxuww62zfddua	174	23	analogue	analogue	NN
work_kkta46aprvda3kxuww62zfddua	174	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	174	25	molecule	molecule	VB
work_kkta46aprvda3kxuww62zfddua	174	26	into	into	IN
work_kkta46aprvda3kxuww62zfddua	174	27	a	a	DT
work_kkta46aprvda3kxuww62zfddua	174	28	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	174	29	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	174	30	of	of	IN
work_kkta46aprvda3kxuww62zfddua	174	31	an	an	DT
work_kkta46aprvda3kxuww62zfddua	174	32	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	174	33	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	174	34	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	174	35	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	174	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	175	1	2B	2B	NNP
work_kkta46aprvda3kxuww62zfddua	175	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	175	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	176	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	176	2	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	176	3	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	176	4	mole-	mole-	NN
work_kkta46aprvda3kxuww62zfddua	176	5	cule	cule	NN
work_kkta46aprvda3kxuww62zfddua	176	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	176	7	found	find	VBN
work_kkta46aprvda3kxuww62zfddua	176	8	to	to	TO
work_kkta46aprvda3kxuww62zfddua	176	9	be	be	VB
work_kkta46aprvda3kxuww62zfddua	176	10	positioned	position	VBN
work_kkta46aprvda3kxuww62zfddua	176	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	176	12	where	where	WRB
work_kkta46aprvda3kxuww62zfddua	176	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	176	14	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	176	15	molecule	molecule	VBP
work_kkta46aprvda3kxuww62zfddua	176	16	transiently	transiently	RB
work_kkta46aprvda3kxuww62zfddua	176	17	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	176	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	177	1	3	3	LS
work_kkta46aprvda3kxuww62zfddua	177	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	178	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	178	2	A	a	DT
work_kkta46aprvda3kxuww62zfddua	178	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	178	4	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	178	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	178	6	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	178	7	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	178	8	from	from	IN
work_kkta46aprvda3kxuww62zfddua	178	9	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	178	10	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	178	11	Gö1	Gö1	NNP
work_kkta46aprvda3kxuww62zfddua	178	12	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	178	13	dark	dark	JJ
work_kkta46aprvda3kxuww62zfddua	178	14	green	green	NN
work_kkta46aprvda3kxuww62zfddua	178	15	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	178	16	showing	show	VBG
work_kkta46aprvda3kxuww62zfddua	178	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	178	18	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	178	19	transiti	transiti	NN
work_kkta46aprvda3kxuww62zfddua	178	20	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	178	21	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	178	22	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	178	23	with	with	IN
work_kkta46aprvda3kxuww62zfddua	178	24	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	178	25	D	D	NNP
work_kkta46aprvda3kxuww62zfddua	178	26	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	178	27	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	178	28	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	178	29	:	:	:
work_kkta46aprvda3kxuww62zfddua	178	30	3AON	3aon	NN
work_kkta46aprvda3kxuww62zfddua	178	31	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	178	32	52	52	CD
work_kkta46aprvda3kxuww62zfddua	178	33	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	178	34	;	;	:
work_kkta46aprvda3kxuww62zfddua	178	35	yellow	yellow	JJ
work_kkta46aprvda3kxuww62zfddua	178	36	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	178	37	and	and	CC
work_kkta46aprvda3kxuww62zfddua	178	38	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	178	39	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	178	40	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	178	41	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	178	42	:	:	:
work_kkta46aprvda3kxuww62zfddua	178	43	2OV6	2ov6	CD
work_kkta46aprvda3kxuww62zfddua	178	44	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	178	45	53	53	CD
work_kkta46aprvda3kxuww62zfddua	178	46	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	178	47	;	;	:
work_kkta46aprvda3kxuww62zfddua	178	48	m	m	NNP
work_kkta46aprvda3kxuww62zfddua	178	49	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	178	50	as	as	IN
work_kkta46aprvda3kxuww62zfddua	178	51	surface	surface	NN
work_kkta46aprvda3kxuww62zfddua	178	52	representation	representation	NN
work_kkta46aprvda3kxuww62zfddua	178	53	.	.	.
work_kkta46aprvda3kxuww62zfddua	179	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	179	2	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	179	3	molecule	molecule	NN
work_kkta46aprvda3kxuww62zfddua	179	4	enters	enter	VBZ
work_kkta46aprvda3kxuww62zfddua	179	5	via	via	IN
work_kkta46aprvda3kxuww62zfddua	179	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	179	7	gap	gap	NN
work_kkta46aprvda3kxuww62zfddua	179	8	formed	form	VBN
work_kkta46aprvda3kxuww62zfddua	179	9	by	by	IN
work_kkta46aprvda3kxuww62zfddua	179	10	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	179	11	A	a	DT
work_kkta46aprvda3kxuww62zfddua	179	12	an	an	DT
work_kkta46aprvda3kxuww62zfddua	179	13	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	179	14	B	b	NN
work_kkta46aprvda3kxuww62zfddua	179	15	rotates	rotate	NNS
work_kkta46aprvda3kxuww62zfddua	179	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	179	17	allows	allow	VBZ
work_kkta46aprvda3kxuww62zfddua	179	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	179	19	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	179	20	molecule	molecule	VBP
work_kkta46aprvda3kxuww62zfddua	179	21	to	to	TO
work_kkta46aprvda3kxuww62zfddua	179	22	penetrate	penetrate	VB
work_kkta46aprvda3kxuww62zfddua	179	23	into	into	IN
work_kkta46aprvda3kxuww62zfddua	179	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	179	25	hexamer	hexamer	NN
work_kkta46aprvda3kxuww62zfddua	179	26	in	in	IN
work_kkta46aprvda3kxuww62zfddua	179	27	concert	concert	NN
work_kkta46aprvda3kxuww62zfddua	179	28	with	with	IN
work_kkta46aprvda3kxuww62zfddua	179	29	th	th	XX
work_kkta46aprvda3kxuww62zfddua	179	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	179	31	rotation	rotation	NN
work_kkta46aprvda3kxuww62zfddua	179	32	of	of	IN
work_kkta46aprvda3kxuww62zfddua	179	33	D	d	JJ
work_kkta46aprvda3kxuww62zfddua	179	34	moves	move	NNS
work_kkta46aprvda3kxuww62zfddua	179	35	the	the	DT
work_kkta46aprvda3kxuww62zfddua	179	36	nucleotide	nucleotide	NN
work_kkta46aprvda3kxuww62zfddua	179	37	towards	towards	IN
work_kkta46aprvda3kxuww62zfddua	179	38	the	the	DT
work_kkta46aprvda3kxuww62zfddua	179	39	transient	transient	JJ
work_kkta46aprvda3kxuww62zfddua	179	40	2	2	CD
work_kkta46aprvda3kxuww62zfddua	179	41	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	179	42	T2	T2	NNP
work_kkta46aprvda3kxuww62zfddua	179	43	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	179	44	,	,	,
work_kkta46aprvda3kxuww62zfddua	179	45	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	179	46	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	179	47	placed	place	VBN
work_kkta46aprvda3kxuww62zfddua	179	48	near	near	RB
work_kkta46aprvda3kxuww62zfddua	179	49	to	to	IN
work_kkta46aprvda3kxuww62zfddua	179	50	th	th	NNP
work_kkta46aprvda3kxuww62zfddua	179	51	associates	associate	NNS
work_kkta46aprvda3kxuww62zfddua	179	52	in	in	IN
work_kkta46aprvda3kxuww62zfddua	179	53	the	the	DT
work_kkta46aprvda3kxuww62zfddua	179	54	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	179	55	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	179	56	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	179	57	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	179	58	68	68	CD
work_kkta46aprvda3kxuww62zfddua	179	59	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	179	60	,	,	,
work_kkta46aprvda3kxuww62zfddua	179	61	demonstrating	demonstrate	VBG
work_kkta46aprvda3kxuww62zfddua	179	62	a	a	DT
work_kkta46aprvda3kxuww62zfddua	179	63	similar	similar	JJ
work_kkta46aprvda3kxuww62zfddua	179	64	path-	path-	JJ
work_kkta46aprvda3kxuww62zfddua	179	65	way	way	NN
work_kkta46aprvda3kxuww62zfddua	179	66	of	of	IN
work_kkta46aprvda3kxuww62zfddua	179	67	entry	entry	NN
work_kkta46aprvda3kxuww62zfddua	179	68	for	for	IN
work_kkta46aprvda3kxuww62zfddua	179	69	both	both	DT
work_kkta46aprvda3kxuww62zfddua	179	70	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	179	71	in	in	IN
work_kkta46aprvda3kxuww62zfddua	179	72	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	179	73	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	179	74	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	179	75	.	.	.
work_kkta46aprvda3kxuww62zfddua	180	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	180	2	position	position	NN
work_kkta46aprvda3kxuww62zfddua	180	3	also	also	RB
work_kkta46aprvda3kxuww62zfddua	180	4	confirms	confirm	VBZ
work_kkta46aprvda3kxuww62zfddua	180	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	180	6	recent	recent	JJ
work_kkta46aprvda3kxuww62zfddua	180	7	finding	finding	NN
work_kkta46aprvda3kxuww62zfddua	180	8	that	that	IN
work_kkta46aprvda3kxuww62zfddua	180	9	during	during	IN
work_kkta46aprvda3kxuww62zfddua	180	10	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	180	11	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	180	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	180	13	inorganic	inorganic	JJ
work_kkta46aprvda3kxuww62zfddua	180	14	phosphate	phosphate	NN
work_kkta46aprvda3kxuww62zfddua	180	15	binds	bind	NNS
work_kkta46aprvda3kxuww62zfddua	180	16	first	first	RB
work_kkta46aprvda3kxuww62zfddua	180	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	180	18	hinders	hinder	VBZ
work_kkta46aprvda3kxuww62zfddua	180	19	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	180	20	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	180	21	to	to	IN
work_kkta46aprvda3kxuww62zfddua	180	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	180	23	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	180	24	site	site	NN
work_kkta46aprvda3kxuww62zfddua	180	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	180	26	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	180	27	then	then	RB
work_kkta46aprvda3kxuww62zfddua	180	28	selectively	selectively	RB
work_kkta46aprvda3kxuww62zfddua	180	29	allows	allow	VBZ
work_kkta46aprvda3kxuww62zfddua	180	30	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	180	31	of	of	IN
work_kkta46aprvda3kxuww62zfddua	180	32	ADP	ADP	NNP
work_kkta46aprvda3kxuww62zfddua	180	33	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	180	34	69	69	CD
work_kkta46aprvda3kxuww62zfddua	180	35	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	180	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	181	1	4.4	4.4	CD
work_kkta46aprvda3kxuww62zfddua	181	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	182	1	How	how	WRB
work_kkta46aprvda3kxuww62zfddua	182	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	182	3	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	182	4	enters	enter	VBZ
work_kkta46aprvda3kxuww62zfddua	182	5	into	into	IN
work_kkta46aprvda3kxuww62zfddua	182	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	182	7	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	182	8	pocket	pocket	NN
work_kkta46aprvda3kxuww62zfddua	182	9	The	the	DT
work_kkta46aprvda3kxuww62zfddua	182	10	crystal	crystal	NN
work_kkta46aprvda3kxuww62zfddua	182	11	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	182	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	182	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	182	14	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	182	15	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	182	16	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	182	17	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	182	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	182	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	182	20	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	182	21	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	182	22	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	182	23	from	from	IN
work_kkta46aprvda3kxuww62zfddua	182	24	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	182	25	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	182	26	Gö1	Gö1	NNP
work_kkta46aprvda3kxuww62zfddua	182	27	showed	show	VBD
work_kkta46aprvda3kxuww62zfddua	182	28	for	for	IN
work_kkta46aprvda3kxuww62zfddua	182	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	182	30	first	first	JJ
work_kkta46aprvda3kxuww62zfddua	182	31	time	time	NN
work_kkta46aprvda3kxuww62zfddua	182	32	in	in	IN
work_kkta46aprvda3kxuww62zfddua	182	33	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	182	34	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	182	35	,	,	,
work_kkta46aprvda3kxuww62zfddua	182	36	how	how	WRB
work_kkta46aprvda3kxuww62zfddua	182	37	the	the	DT
work_kkta46aprvda3kxuww62zfddua	182	38	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	182	39	traverses	traverse	VBZ
work_kkta46aprvda3kxuww62zfddua	182	40	the	the	DT
work_kkta46aprvda3kxuww62zfddua	182	41	protein	protein	NN
work_kkta46aprvda3kxuww62zfddua	182	42	surface	surface	NN
work_kkta46aprvda3kxuww62zfddua	182	43	via	via	IN
work_kkta46aprvda3kxuww62zfddua	182	44	two	two	CD
work_kkta46aprvda3kxuww62zfddua	182	45	transient	transient	JJ
work_kkta46aprvda3kxuww62zfddua	182	46	intermediate	intermediate	JJ
work_kkta46aprvda3kxuww62zfddua	182	47	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	182	48	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	182	49	to	to	IN
work_kkta46aprvda3kxuww62zfddua	182	50	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	182	51	final	final	JJ
work_kkta46aprvda3kxuww62zfddua	182	52	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	182	53	pocket	pocket	NN
work_kkta46aprvda3kxuww62zfddua	182	54	and	and	CC
work_kkta46aprvda3kxuww62zfddua	182	55	the	the	DT
work_kkta46aprvda3kxuww62zfddua	182	56	concomi-	concomi-	NN
work_kkta46aprvda3kxuww62zfddua	182	57	tant	tant	NN
work_kkta46aprvda3kxuww62zfddua	182	58	rearrangements	rearrangement	NNS
work_kkta46aprvda3kxuww62zfddua	182	59	in	in	IN
work_kkta46aprvda3kxuww62zfddua	182	60	the	the	DT
work_kkta46aprvda3kxuww62zfddua	182	61	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	182	62	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	182	63	binding	binding	JJ
work_kkta46aprvda3kxuww62zfddua	182	64	and	and	CC
work_kkta46aprvda3kxuww62zfddua	182	65	C	c	NN
work_kkta46aprvda3kxuww62zfddua	182	66	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	182	67	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	182	68	region	region	NN
work_kkta46aprvda3kxuww62zfddua	182	69	of	of	IN
work_kkta46aprvda3kxuww62zfddua	182	70	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	182	71	B	b	NN
work_kkta46aprvda3kxuww62zfddua	182	72	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	182	73	Figs	Figs	NNP
work_kkta46aprvda3kxuww62zfddua	182	74	.	.	.
work_kkta46aprvda3kxuww62zfddua	183	1	3A	3A	NNP
work_kkta46aprvda3kxuww62zfddua	183	2	–	–	:
work_kkta46aprvda3kxuww62zfddua	183	3	B	b	NN
work_kkta46aprvda3kxuww62zfddua	183	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	183	5	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	183	6	68,70,71	68,70,71	NN
work_kkta46aprvda3kxuww62zfddua	183	7	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	183	8	.	.	.
work_kkta46aprvda3kxuww62zfddua	184	1	When	when	WRB
work_kkta46aprvda3kxuww62zfddua	184	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	184	3	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	184	4	enters	enter	VBZ
work_kkta46aprvda3kxuww62zfddua	184	5	close	close	JJ
work_kkta46aprvda3kxuww62zfddua	184	6	to	to	IN
work_kkta46aprvda3kxuww62zfddua	184	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	184	8	C	c	NN
work_kkta46aprvda3kxuww62zfddua	184	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	184	10	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	184	11	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	184	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	184	13	B	b	NN
work_kkta46aprvda3kxuww62zfddua	184	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	184	15	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	184	16	D	d	JJ
work_kkta46aprvda3kxuww62zfddua	184	17	moves	move	NNS
work_kkta46aprvda3kxuww62zfddua	184	18	slightly	slightly	RB
work_kkta46aprvda3kxuww62zfddua	184	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	184	20	paving	pave	VBG
work_kkta46aprvda3kxuww62zfddua	184	21	way	way	NN
work_kkta46aprvda3kxuww62zfddua	184	22	for	for	IN
work_kkta46aprvda3kxuww62zfddua	184	23	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	184	24	to	to	TO
work_kkta46aprvda3kxuww62zfddua	184	25	interact	interact	VB
work_kkta46aprvda3kxuww62zfddua	184	26	with	with	IN
work_kkta46aprvda3kxuww62zfddua	184	27	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	184	28	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	184	29	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	184	30	transition	transition	NN
work_kkta46aprvda3kxuww62zfddua	184	31	state	state	NN
work_kkta46aprvda3kxuww62zfddua	184	32	1	1	CD
work_kkta46aprvda3kxuww62zfddua	184	33	in	in	IN
work_kkta46aprvda3kxuww62zfddua	184	34	Fig	Fig	NNP
work_kkta46aprvda3kxuww62zfddua	184	35	.	.	.
work_kkta46aprvda3kxuww62zfddua	185	1	3B	3B	NNP
work_kkta46aprvda3kxuww62zfddua	185	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	185	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	185	4	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	185	5	makes	make	VBZ
work_kkta46aprvda3kxuww62zfddua	185	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	185	7	C	c	NN
work_kkta46aprvda3kxuww62zfddua	185	8	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	185	9	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	185	10	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	185	11	rotate	rotate	NN
work_kkta46aprvda3kxuww62zfddua	185	12	by	by	IN
work_kkta46aprvda3kxuww62zfddua	185	13	6	6	CD
work_kkta46aprvda3kxuww62zfddua	185	14	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	185	15	.	.	.
work_kkta46aprvda3kxuww62zfddua	186	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	186	2	moves	move	VBZ
work_kkta46aprvda3kxuww62zfddua	186	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	186	4	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	186	5	inside	inside	IN
work_kkta46aprvda3kxuww62zfddua	186	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	186	7	A3B3	A3B3	NNP
work_kkta46aprvda3kxuww62zfddua	186	8	hexamer	hexamer	NN
work_kkta46aprvda3kxuww62zfddua	186	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	186	10	close	close	JJ
work_kkta46aprvda3kxuww62zfddua	186	11	to	to	IN
work_kkta46aprvda3kxuww62zfddua	186	12	P	p	NN
work_kkta46aprvda3kxuww62zfddua	186	13	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	186	14	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	186	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	186	16	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	186	17	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	186	18	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	186	19	transition	transition	NN
work_kkta46aprvda3kxuww62zfddua	186	20	state	state	NNP
work_kkta46aprvda3kxuww62zfddua	186	21	2	2	CD
work_kkta46aprvda3kxuww62zfddua	186	22	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	186	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	186	24	a	a	DT
work_kkta46aprvda3kxuww62zfddua	186	25	position	position	NN
work_kkta46aprvda3kxuww62zfddua	186	26	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	186	27	compares	compare	VBZ
work_kkta46aprvda3kxuww62zfddua	186	28	well	well	RB
work_kkta46aprvda3kxuww62zfddua	186	29	with	with	IN
work_kkta46aprvda3kxuww62zfddua	186	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	186	31	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	186	32	site	site	NN
work_kkta46aprvda3kxuww62zfddua	186	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	186	34	the	the	DT
work_kkta46aprvda3kxuww62zfddua	186	35	an-	an-	CC
work_kkta46aprvda3kxuww62zfddua	186	36	tibiotic	tibiotic	JJ
work_kkta46aprvda3kxuww62zfddua	186	37	,	,	,
work_kkta46aprvda3kxuww62zfddua	186	38	efrapeptin	efrapeptin	VB
work_kkta46aprvda3kxuww62zfddua	186	39	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	186	40	in	in	IN
work_kkta46aprvda3kxuww62zfddua	186	41	the	the	DT
work_kkta46aprvda3kxuww62zfddua	186	42	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	186	43	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	186	44	of	of	IN
work_kkta46aprvda3kxuww62zfddua	186	45	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	186	46	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	186	47	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	186	48	.	.	.
work_kkta46aprvda3kxuww62zfddua	187	1	Efrapeptin	Efrapeptin	NNP
work_kkta46aprvda3kxuww62zfddua	187	2	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	187	3	on	on	IN
work_kkta46aprvda3kxuww62zfddua	187	4	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	187	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	187	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	187	7	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	187	8	molecule	molecule	NN
work_kkta46aprvda3kxuww62zfddua	187	9	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	187	10	blue	blue	JJ
work_kkta46aprvda3kxuww62zfddua	187	11	stick	stick	NN
work_kkta46aprvda3kxuww62zfddua	187	12	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	187	13	.	.	.
work_kkta46aprvda3kxuww62zfddua	188	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	188	2	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	188	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	188	4	Cross	cross	VB
work_kkta46aprvda3kxuww62zfddua	188	5	sectional	sectional	JJ
work_kkta46aprvda3kxuww62zfddua	188	6	view	view	NN
work_kkta46aprvda3kxuww62zfddua	188	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	188	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	188	9	hexamer	hexamer	NN
work_kkta46aprvda3kxuww62zfddua	188	10	model	model	NN
work_kkta46aprvda3kxuww62zfddua	188	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	188	12	agenta	agenta	NNP
work_kkta46aprvda3kxuww62zfddua	188	13	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	188	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	189	1	Subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	189	2	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	189	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	189	4	dark	dark	JJ
work_kkta46aprvda3kxuww62zfddua	189	5	green	green	NN
work_kkta46aprvda3kxuww62zfddua	189	6	;	;	:
work_kkta46aprvda3kxuww62zfddua	189	7	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	189	8	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	189	9	:	:	:
work_kkta46aprvda3kxuww62zfddua	189	10	2C61	2c61	CD
work_kkta46aprvda3kxuww62zfddua	189	11	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	189	12	50	50	CD
work_kkta46aprvda3kxuww62zfddua	189	13	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	189	14	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	189	15	and	and	CC
work_kkta46aprvda3kxuww62zfddua	189	16	A	a	DT
work_kkta46aprvda3kxuww62zfddua	189	17	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	189	18	orange	orange	NN
work_kkta46aprvda3kxuww62zfddua	189	19	;	;	:
work_kkta46aprvda3kxuww62zfddua	189	20	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	189	21	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	189	22	:	:	:
work_kkta46aprvda3kxuww62zfddua	189	23	3I4L	3i4l	CD
work_kkta46aprvda3kxuww62zfddua	189	24	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	189	25	49	49	CD
work_kkta46aprvda3kxuww62zfddua	189	26	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	189	27	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	189	28	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	189	29	d	d	NN
work_kkta46aprvda3kxuww62zfddua	189	30	B	b	NN
work_kkta46aprvda3kxuww62zfddua	189	31	into	into	IN
work_kkta46aprvda3kxuww62zfddua	189	32	the	the	DT
work_kkta46aprvda3kxuww62zfddua	189	33	hexamer	hexamer	NN
work_kkta46aprvda3kxuww62zfddua	189	34	and	and	CC
work_kkta46aprvda3kxuww62zfddua	189	35	positions	position	NNS
work_kkta46aprvda3kxuww62zfddua	189	36	in	in	IN
work_kkta46aprvda3kxuww62zfddua	189	37	transient	transient	JJ
work_kkta46aprvda3kxuww62zfddua	189	38	1	1	CD
work_kkta46aprvda3kxuww62zfddua	189	39	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	189	40	T1	T1	NNP
work_kkta46aprvda3kxuww62zfddua	189	41	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	189	42	,	,	,
work_kkta46aprvda3kxuww62zfddua	189	43	whereby	whereby	WRB
work_kkta46aprvda3kxuww62zfddua	189	44	the	the	DT
work_kkta46aprvda3kxuww62zfddua	189	45	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	189	46	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	189	47	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	189	48	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	189	49	of	of	IN
work_kkta46aprvda3kxuww62zfddua	189	50	e	e	NNP
work_kkta46aprvda3kxuww62zfddua	189	51	rotation	rotation	NN
work_kkta46aprvda3kxuww62zfddua	189	52	of	of	IN
work_kkta46aprvda3kxuww62zfddua	189	53	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	189	54	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	189	55	A	a	DT
work_kkta46aprvda3kxuww62zfddua	189	56	concerted	concert	VBN
work_kkta46aprvda3kxuww62zfddua	189	57	movement	movement	NN
work_kkta46aprvda3kxuww62zfddua	189	58	of	of	IN
work_kkta46aprvda3kxuww62zfddua	189	59	the	the	DT
work_kkta46aprvda3kxuww62zfddua	189	60	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	189	61	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	189	62	termini	termini	NN
work_kkta46aprvda3kxuww62zfddua	189	63	of	of	IN
work_kkta46aprvda3kxuww62zfddua	189	64	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	189	65	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	189	66	and	and	CC
work_kkta46aprvda3kxuww62zfddua	189	67	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	189	68	as	as	RB
work_kkta46aprvda3kxuww62zfddua	189	69	well	well	RB
work_kkta46aprvda3kxuww62zfddua	189	70	e	e	NNP
work_kkta46aprvda3kxuww62zfddua	189	71	P	p	NN
work_kkta46aprvda3kxuww62zfddua	189	72	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	189	73	loop	loop	NNP
work_kkta46aprvda3kxuww62zfddua	189	74	,	,	,
work_kkta46aprvda3kxuww62zfddua	189	75	followed	follow	VBN
work_kkta46aprvda3kxuww62zfddua	189	76	by	by	IN
work_kkta46aprvda3kxuww62zfddua	189	77	the	the	DT
work_kkta46aprvda3kxuww62zfddua	189	78	movement	movement	NN
work_kkta46aprvda3kxuww62zfddua	189	79	of	of	IN
work_kkta46aprvda3kxuww62zfddua	189	80	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	189	81	to	to	IN
work_kkta46aprvda3kxuww62zfddua	189	82	the	the	DT
work_kkta46aprvda3kxuww62zfddua	189	83	final	final	JJ
work_kkta46aprvda3kxuww62zfddua	189	84	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	189	85	site	site	NN
work_kkta46aprvda3kxuww62zfddua	189	86	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	189	87	F	f	NN
work_kkta46aprvda3kxuww62zfddua	189	88	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	189	89	.	.	.
work_kkta46aprvda3kxuww62zfddua	190	1	image	image	NN
work_kkta46aprvda3kxuww62zfddua	190	2	of	of	IN
work_kkta46aprvda3kxuww62zfddua	190	3	Fig.	Fig.	NNP
work_kkta46aprvda3kxuww62zfddua	190	4	�	�	NNP
work_kkta46aprvda3kxuww62zfddua	190	5	3	3	CD
work_kkta46aprvda3kxuww62zfddua	190	6	945G.	945g.	CD
work_kkta46aprvda3kxuww62zfddua	191	1	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	191	2	et	et	FW
work_kkta46aprvda3kxuww62zfddua	191	3	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	191	4	.	.	.
work_kkta46aprvda3kxuww62zfddua	192	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	192	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	192	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	192	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	192	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	192	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	192	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	192	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	192	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	192	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	192	11	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	192	12	a	a	DT
work_kkta46aprvda3kxuww62zfddua	192	13	potent	potent	JJ
work_kkta46aprvda3kxuww62zfddua	192	14	inhibitor	inhibitor	NN
work_kkta46aprvda3kxuww62zfddua	192	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	192	16	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	192	17	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	192	18	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	192	19	in	in	IN
work_kkta46aprvda3kxuww62zfddua	192	20	mitochondria	mitochondria	NNP
work_kkta46aprvda3kxuww62zfddua	192	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	192	22	some	some	DT
work_kkta46aprvda3kxuww62zfddua	192	23	bacterial	bacterial	JJ
work_kkta46aprvda3kxuww62zfddua	192	24	species	specie	NNS
work_kkta46aprvda3kxuww62zfddua	192	25	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	192	26	72	72	CD
work_kkta46aprvda3kxuww62zfddua	192	27	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	192	28	.	.	.
work_kkta46aprvda3kxuww62zfddua	193	1	Due	due	IN
work_kkta46aprvda3kxuww62zfddua	193	2	to	to	IN
work_kkta46aprvda3kxuww62zfddua	193	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	193	4	rotational	rotational	JJ
work_kkta46aprvda3kxuww62zfddua	193	5	movement	movement	NN
work_kkta46aprvda3kxuww62zfddua	193	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	193	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	193	8	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	193	9	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	193	10	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	193	11	D	D	NNP
work_kkta46aprvda3kxuww62zfddua	193	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	193	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	193	14	nucleotide	nucleotide	NN
work_kkta46aprvda3kxuww62zfddua	193	15	will	will	MD
work_kkta46aprvda3kxuww62zfddua	193	16	be	be	VB
work_kkta46aprvda3kxuww62zfddua	193	17	moved	move	VBN
work_kkta46aprvda3kxuww62zfddua	193	18	to	to	IN
work_kkta46aprvda3kxuww62zfddua	193	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	193	20	actual	actual	JJ
work_kkta46aprvda3kxuww62zfddua	193	21	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	193	22	site	site	NN
work_kkta46aprvda3kxuww62zfddua	193	23	of	of	IN
work_kkta46aprvda3kxuww62zfddua	193	24	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	193	25	B	b	NN
work_kkta46aprvda3kxuww62zfddua	193	26	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	193	27	71	71	CD
work_kkta46aprvda3kxuww62zfddua	193	28	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	193	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	194	1	4.5	4.5	CD
work_kkta46aprvda3kxuww62zfddua	194	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	195	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	195	2	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	195	3	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	195	4	couples	couple	NNS
work_kkta46aprvda3kxuww62zfddua	195	5	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	195	6	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	195	7	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	195	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	195	9	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	195	10	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	195	11	The	the	DT
work_kkta46aprvda3kxuww62zfddua	195	12	shape	shape	NN
work_kkta46aprvda3kxuww62zfddua	195	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	195	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	195	15	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	195	16	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	195	17	had	have	VBD
work_kkta46aprvda3kxuww62zfddua	195	18	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	195	19	that	that	IN
work_kkta46aprvda3kxuww62zfddua	195	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	195	21	A3B3	A3B3	NNP
work_kkta46aprvda3kxuww62zfddua	195	22	hexamer	hexamer	NN
work_kkta46aprvda3kxuww62zfddua	195	23	and	and	CC
work_kkta46aprvda3kxuww62zfddua	195	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	195	25	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	195	26	sector	sector	NN
work_kkta46aprvda3kxuww62zfddua	195	27	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	195	28	separated	separate	VBN
work_kkta46aprvda3kxuww62zfddua	195	29	by	by	IN
work_kkta46aprvda3kxuww62zfddua	195	30	a	a	DT
work_kkta46aprvda3kxuww62zfddua	195	31	80	80	CD
work_kkta46aprvda3kxuww62zfddua	195	32	Å	å	NN
work_kkta46aprvda3kxuww62zfddua	195	33	long	long	JJ
work_kkta46aprvda3kxuww62zfddua	195	34	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	195	35	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	195	36	,	,	,
work_kkta46aprvda3kxuww62zfddua	195	37	consisting	consist	VBG
work_kkta46aprvda3kxuww62zfddua	195	38	of	of	IN
work_kkta46aprvda3kxuww62zfddua	195	39	the	the	DT
work_kkta46aprvda3kxuww62zfddua	195	40	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	195	41	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	195	42	,	,	,
work_kkta46aprvda3kxuww62zfddua	195	43	D	d	NN
work_kkta46aprvda3kxuww62zfddua	195	44	and	and	CC
work_kkta46aprvda3kxuww62zfddua	195	45	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	195	46	,	,	,
work_kkta46aprvda3kxuww62zfddua	195	47	with	with	IN
work_kkta46aprvda3kxuww62zfddua	195	48	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	195	49	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	195	50	forming	form	VBG
work_kkta46aprvda3kxuww62zfddua	195	51	the	the	DT
work_kkta46aprvda3kxuww62zfddua	195	52	bottom	bottom	NN
work_kkta46aprvda3kxuww62zfddua	195	53	of	of	IN
work_kkta46aprvda3kxuww62zfddua	195	54	the	the	DT
work_kkta46aprvda3kxuww62zfddua	195	55	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	195	56	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	195	57	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	195	58	45,57	45,57	CD
work_kkta46aprvda3kxuww62zfddua	195	59	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	195	60	.	.	.
work_kkta46aprvda3kxuww62zfddua	196	1	As	as	IN
work_kkta46aprvda3kxuww62zfddua	196	2	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	196	3	by	by	IN
work_kkta46aprvda3kxuww62zfddua	196	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	196	5	crystallographic	crystallographic	JJ
work_kkta46aprvda3kxuww62zfddua	196	6	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	196	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	196	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	196	9	Entero-	Entero-	NNP
work_kkta46aprvda3kxuww62zfddua	196	10	coccus	coccus	NN
work_kkta46aprvda3kxuww62zfddua	196	11	hirae	hirae	NNP
work_kkta46aprvda3kxuww62zfddua	196	12	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	196	13	D	D	NNP
work_kkta46aprvda3kxuww62zfddua	196	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	196	15	this	this	DT
work_kkta46aprvda3kxuww62zfddua	196	16	protein	protein	NN
work_kkta46aprvda3kxuww62zfddua	196	17	comprises	comprise	VBZ
work_kkta46aprvda3kxuww62zfddua	196	18	a	a	DT
work_kkta46aprvda3kxuww62zfddua	196	19	long	long	JJ
work_kkta46aprvda3kxuww62zfddua	196	20	left	left	JJ
work_kkta46aprvda3kxuww62zfddua	196	21	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	196	22	handed	handed	JJ
work_kkta46aprvda3kxuww62zfddua	196	23	coiled	coil	VBN
work_kkta46aprvda3kxuww62zfddua	196	24	coil	coil	NN
work_kkta46aprvda3kxuww62zfddua	196	25	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	196	26	with	with	IN
work_kkta46aprvda3kxuww62zfddua	196	27	a	a	DT
work_kkta46aprvda3kxuww62zfddua	196	28	unique	unique	JJ
work_kkta46aprvda3kxuww62zfddua	196	29	short	short	JJ
work_kkta46aprvda3kxuww62zfddua	196	30	β	β	NN
work_kkta46aprvda3kxuww62zfddua	196	31	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	196	32	hairpin	hairpin	NNP
work_kkta46aprvda3kxuww62zfddua	196	33	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	196	34	52,55	52,55	CD
work_kkta46aprvda3kxuww62zfddua	196	35	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	196	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	197	1	Such	such	JJ
work_kkta46aprvda3kxuww62zfddua	197	2	left	left	JJ
work_kkta46aprvda3kxuww62zfddua	197	3	handed	hand	VBD
work_kkta46aprvda3kxuww62zfddua	197	4	coiled	coil	VBN
work_kkta46aprvda3kxuww62zfddua	197	5	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	197	6	coil	coil	NN
work_kkta46aprvda3kxuww62zfddua	197	7	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	197	8	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	197	9	also	also	RB
work_kkta46aprvda3kxuww62zfddua	197	10	conserved	conserve	VBN
work_kkta46aprvda3kxuww62zfddua	197	11	in	in	IN
work_kkta46aprvda3kxuww62zfddua	197	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	197	13	rotary	rotary	JJ
work_kkta46aprvda3kxuww62zfddua	197	14	proteins	protein	NNS
work_kkta46aprvda3kxuww62zfddua	197	15	FIiJ	FIiJ	''
work_kkta46aprvda3kxuww62zfddua	197	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	197	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	197	18	flagellar	flagellar	JJ
work_kkta46aprvda3kxuww62zfddua	197	19	type	type	NN
work_kkta46aprvda3kxuww62zfddua	197	20	III	III	NNP
work_kkta46aprvda3kxuww62zfddua	197	21	protein	protein	NN
work_kkta46aprvda3kxuww62zfddua	197	22	export	export	NN
work_kkta46aprvda3kxuww62zfddua	197	23	apparatus	apparatus	NN
work_kkta46aprvda3kxuww62zfddua	197	24	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	197	25	73	73	CD
work_kkta46aprvda3kxuww62zfddua	197	26	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	197	27	and	and	CC
work_kkta46aprvda3kxuww62zfddua	197	28	subunit	subunit	VBN
work_kkta46aprvda3kxuww62zfddua	197	29	γ	γ	NNP
work_kkta46aprvda3kxuww62zfddua	197	30	of	of	IN
work_kkta46aprvda3kxuww62zfddua	197	31	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	197	32	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	197	33	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	197	34	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	197	35	60	60	CD
work_kkta46aprvda3kxuww62zfddua	197	36	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	197	37	.	.	.
work_kkta46aprvda3kxuww62zfddua	198	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	198	2	contrast	contrast	NN
work_kkta46aprvda3kxuww62zfddua	198	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	198	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	198	5	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	198	6	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	198	7	hairpin	hairpin	NNP
work_kkta46aprvda3kxuww62zfddua	198	8	region	region	NN
work_kkta46aprvda3kxuww62zfddua	198	9	of	of	IN
work_kkta46aprvda3kxuww62zfddua	198	10	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	198	11	D	d	NN
work_kkta46aprvda3kxuww62zfddua	198	12	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	198	13	specific	specific	JJ
work_kkta46aprvda3kxuww62zfddua	198	14	for	for	IN
work_kkta46aprvda3kxuww62zfddua	198	15	this	this	DT
work_kkta46aprvda3kxuww62zfddua	198	16	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	198	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	198	18	important	important	JJ
work_kkta46aprvda3kxuww62zfddua	198	19	for	for	IN
work_kkta46aprvda3kxuww62zfddua	198	20	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	198	21	activity	activity	NN
work_kkta46aprvda3kxuww62zfddua	198	22	in	in	IN
work_kkta46aprvda3kxuww62zfddua	198	23	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	198	24	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	198	25	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	198	26	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	198	27	55	55	CD
work_kkta46aprvda3kxuww62zfddua	198	28	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	198	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	199	1	Subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	199	2	D	D	NNP
work_kkta46aprvda3kxuww62zfddua	199	3	can	can	MD
work_kkta46aprvda3kxuww62zfddua	199	4	be	be	VB
work_kkta46aprvda3kxuww62zfddua	199	5	cross	cros	VBN
work_kkta46aprvda3kxuww62zfddua	199	6	-	-	VBN
work_kkta46aprvda3kxuww62zfddua	199	7	linked	link	VBN
work_kkta46aprvda3kxuww62zfddua	199	8	to	to	IN
work_kkta46aprvda3kxuww62zfddua	199	9	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	199	10	A	a	NN
work_kkta46aprvda3kxuww62zfddua	199	11	in	in	IN
work_kkta46aprvda3kxuww62zfddua	199	12	a	a	DT
work_kkta46aprvda3kxuww62zfddua	199	13	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	199	14	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	199	15	dependent	dependent	JJ
work_kkta46aprvda3kxuww62zfddua	199	16	manner	manner	NN
work_kkta46aprvda3kxuww62zfddua	199	17	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	199	18	58	58	CD
work_kkta46aprvda3kxuww62zfddua	199	19	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	199	20	.	.	.
work_kkta46aprvda3kxuww62zfddua	200	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	200	2	interaction	interaction	NN
work_kkta46aprvda3kxuww62zfddua	200	3	between	between	IN
work_kkta46aprvda3kxuww62zfddua	200	4	both	both	DT
work_kkta46aprvda3kxuww62zfddua	200	5	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	200	6	involves	involve	VBZ
work_kkta46aprvda3kxuww62zfddua	200	7	both	both	CC
work_kkta46aprvda3kxuww62zfddua	200	8	N-	n-	CD
work_kkta46aprvda3kxuww62zfddua	200	9	and	and	CC
work_kkta46aprvda3kxuww62zfddua	200	10	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	200	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	200	12	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	200	13	segments	segment	NNS
work_kkta46aprvda3kxuww62zfddua	200	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	200	15	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	200	16	Similarly	Similarly	NNP
work_kkta46aprvda3kxuww62zfddua	200	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	200	18	in	in	IN
work_kkta46aprvda3kxuww62zfddua	200	19	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	200	20	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	200	21	Gö1	gö1	VBP
work_kkta46aprvda3kxuww62zfddua	200	22	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	200	23	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	200	24	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	200	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	200	26	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	200	27	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	200	28	can	can	MD
work_kkta46aprvda3kxuww62zfddua	200	29	be	be	VB
work_kkta46aprvda3kxuww62zfddua	200	30	cross-	cross-	VBN
work_kkta46aprvda3kxuww62zfddua	200	31	linked	link	VBN
work_kkta46aprvda3kxuww62zfddua	200	32	to	to	IN
work_kkta46aprvda3kxuww62zfddua	200	33	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	200	34	B	b	NN
work_kkta46aprvda3kxuww62zfddua	200	35	through	through	IN
work_kkta46aprvda3kxuww62zfddua	200	36	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	200	37	C	c	NN
work_kkta46aprvda3kxuww62zfddua	200	38	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	200	39	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	200	40	sequences	sequence	NNS
work_kkta46aprvda3kxuww62zfddua	200	41	,	,	,
work_kkta46aprvda3kxuww62zfddua	200	42	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	200	43	shows	show	VBZ
work_kkta46aprvda3kxuww62zfddua	200	44	a	a	DT
work_kkta46aprvda3kxuww62zfddua	200	45	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	200	46	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	200	47	dependent	dependent	JJ
work_kkta46aprvda3kxuww62zfddua	200	48	behavior	behavior	NN
work_kkta46aprvda3kxuww62zfddua	200	49	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	200	50	59	59	CD
work_kkta46aprvda3kxuww62zfddua	200	51	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	200	52	.	.	.
work_kkta46aprvda3kxuww62zfddua	201	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	201	2	high	high	JJ
work_kkta46aprvda3kxuww62zfddua	201	3	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	201	4	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	201	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	201	6	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	201	7	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	201	8	revealed	reveal	VBD
work_kkta46aprvda3kxuww62zfddua	201	9	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	201	10	50	50	CD
work_kkta46aprvda3kxuww62zfddua	201	11	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	201	12	that	that	IN
work_kkta46aprvda3kxuww62zfddua	201	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	201	14	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	201	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	201	16	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	201	17	peptide	peptide	NN
work_kkta46aprvda3kxuww62zfddua	201	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	201	19	B	b	NN
work_kkta46aprvda3kxuww62zfddua	201	20	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	201	21	at	at	IN
work_kkta46aprvda3kxuww62zfddua	201	22	a	a	DT
work_kkta46aprvda3kxuww62zfddua	201	23	similar	similar	JJ
work_kkta46aprvda3kxuww62zfddua	201	24	position	position	NN
work_kkta46aprvda3kxuww62zfddua	201	25	to	to	IN
work_kkta46aprvda3kxuww62zfddua	201	26	the	the	DT
work_kkta46aprvda3kxuww62zfddua	201	27	so	so	RB
work_kkta46aprvda3kxuww62zfddua	201	28	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	201	29	called	call	VBN
work_kkta46aprvda3kxuww62zfddua	201	30	DELSEED	delseed	NN
work_kkta46aprvda3kxuww62zfddua	201	31	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	201	32	region	region	NN
work_kkta46aprvda3kxuww62zfddua	201	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	201	34	the	the	DT
work_kkta46aprvda3kxuww62zfddua	201	35	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	201	36	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	201	37	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	201	38	sub-	sub-	JJ
work_kkta46aprvda3kxuww62zfddua	201	39	unit	unit	NN
work_kkta46aprvda3kxuww62zfddua	201	40	β	β	NNP
work_kkta46aprvda3kxuww62zfddua	201	41	of	of	IN
work_kkta46aprvda3kxuww62zfddua	201	42	the	the	DT
work_kkta46aprvda3kxuww62zfddua	201	43	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	201	44	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	201	45	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	201	46	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	201	47	60	60	CD
work_kkta46aprvda3kxuww62zfddua	201	48	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	201	49	,	,	,
work_kkta46aprvda3kxuww62zfddua	201	50	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	201	51	also	also	RB
work_kkta46aprvda3kxuww62zfddua	201	52	form	form	VBP
work_kkta46aprvda3kxuww62zfddua	201	53	a	a	DT
work_kkta46aprvda3kxuww62zfddua	201	54	disulphide	disulphide	NN
work_kkta46aprvda3kxuww62zfddua	201	55	bond	bond	NN
work_kkta46aprvda3kxuww62zfddua	201	56	with	with	IN
work_kkta46aprvda3kxuww62zfddua	201	57	the	the	DT
work_kkta46aprvda3kxuww62zfddua	201	58	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	201	59	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	201	60	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	201	61	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	201	62	of	of	IN
work_kkta46aprvda3kxuww62zfddua	201	63	the	the	DT
work_kkta46aprvda3kxuww62zfddua	201	64	coupling	couple	VBG
work_kkta46aprvda3kxuww62zfddua	201	65	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	201	66	γ	γ	NNP
work_kkta46aprvda3kxuww62zfddua	201	67	.	.	.
work_kkta46aprvda3kxuww62zfddua	201	68	Subunit	Subunit	NNP
work_kkta46aprvda3kxuww62zfddua	201	69	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	201	70	in	in	IN
work_kkta46aprvda3kxuww62zfddua	201	71	solution	solution	NN
work_kkta46aprvda3kxuww62zfddua	201	72	exhibits	exhibit	VBZ
work_kkta46aprvda3kxuww62zfddua	201	73	a	a	DT
work_kkta46aprvda3kxuww62zfddua	201	74	distinct	distinct	JJ
work_kkta46aprvda3kxuww62zfddua	201	75	two	two	CD
work_kkta46aprvda3kxuww62zfddua	201	76	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	201	77	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	201	78	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	201	79	,	,	,
work_kkta46aprvda3kxuww62zfddua	201	80	with	with	IN
work_kkta46aprvda3kxuww62zfddua	201	81	the	the	DT
work_kkta46aprvda3kxuww62zfddua	201	82	N	n	NN
work_kkta46aprvda3kxuww62zfddua	201	83	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	201	84	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	201	85	globular	globular	JJ
work_kkta46aprvda3kxuww62zfddua	201	86	region	region	NN
work_kkta46aprvda3kxuww62zfddua	201	87	having	have	VBG
work_kkta46aprvda3kxuww62zfddua	201	88	78	78	CD
work_kkta46aprvda3kxuww62zfddua	201	89	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	201	90	and	and	CC
work_kkta46aprvda3kxuww62zfddua	201	91	the	the	DT
work_kkta46aprvda3kxuww62zfddua	201	92	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	201	93	79–101	79–101	NNP
work_kkta46aprvda3kxuww62zfddua	201	94	forming	form	VBG
work_kkta46aprvda3kxuww62zfddua	201	95	the	the	DT
work_kkta46aprvda3kxuww62zfddua	201	96	flexible	flexible	JJ
work_kkta46aprvda3kxuww62zfddua	201	97	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	201	98	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	201	99	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	201	100	part	part	NN
work_kkta46aprvda3kxuww62zfddua	201	101	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	201	102	53	53	CD
work_kkta46aprvda3kxuww62zfddua	201	103	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	201	104	.	.	.
work_kkta46aprvda3kxuww62zfddua	202	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	202	2	flexible	flexible	JJ
work_kkta46aprvda3kxuww62zfddua	202	3	C	c	NN
work_kkta46aprvda3kxuww62zfddua	202	4	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	202	5	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	202	6	tail	tail	NN
work_kkta46aprvda3kxuww62zfddua	202	7	enables	enable	NNS
work_kkta46aprvda3kxuww62zfddua	202	8	this	this	DT
work_kkta46aprvda3kxuww62zfddua	202	9	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	202	10	to	to	TO
work_kkta46aprvda3kxuww62zfddua	202	11	undergo	undergo	VB
work_kkta46aprvda3kxuww62zfddua	202	12	up	up	RP
work_kkta46aprvda3kxuww62zfddua	202	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	202	14	down	down	IN
work_kkta46aprvda3kxuww62zfddua	202	15	movements	movement	NNS
work_kkta46aprvda3kxuww62zfddua	202	16	relative	relative	JJ
work_kkta46aprvda3kxuww62zfddua	202	17	to	to	IN
work_kkta46aprvda3kxuww62zfddua	202	18	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	202	19	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	202	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	202	21	bringing	bring	VBG
work_kkta46aprvda3kxuww62zfddua	202	22	both	both	CC
work_kkta46aprvda3kxuww62zfddua	202	23	termini	termini	NN
work_kkta46aprvda3kxuww62zfddua	202	24	in	in	IN
work_kkta46aprvda3kxuww62zfddua	202	25	close	close	JJ
work_kkta46aprvda3kxuww62zfddua	202	26	proximity	proximity	NN
work_kkta46aprvda3kxuww62zfddua	202	27	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	202	28	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	202	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	203	1	3B	3B	NNP
work_kkta46aprvda3kxuww62zfddua	203	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	203	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	204	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	204	2	DF-	DF-	NNP
work_kkta46aprvda3kxuww62zfddua	204	3	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	204	4	52	52	CD
work_kkta46aprvda3kxuww62zfddua	204	5	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	204	6	and	and	CC
work_kkta46aprvda3kxuww62zfddua	204	7	A3B3DF	a3b3df	NN
work_kkta46aprvda3kxuww62zfddua	204	8	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	204	9	crystal	crystal	NN
work_kkta46aprvda3kxuww62zfddua	204	10	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	204	11	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	204	12	55	55	CD
work_kkta46aprvda3kxuww62zfddua	204	13	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	204	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	204	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	204	16	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	204	17	hirae	hirae	NNP
work_kkta46aprvda3kxuww62zfddua	204	18	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	204	19	show	show	VBP
work_kkta46aprvda3kxuww62zfddua	204	20	that	that	IN
work_kkta46aprvda3kxuww62zfddua	204	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	204	22	four	four	CD
work_kkta46aprvda3kxuww62zfddua	204	23	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	204	24	stranded	strand	VBN
work_kkta46aprvda3kxuww62zfddua	204	25	β-	β-	NN
work_kkta46aprvda3kxuww62zfddua	204	26	sheet	sheet	NN
work_kkta46aprvda3kxuww62zfddua	204	27	in	in	IN
work_kkta46aprvda3kxuww62zfddua	204	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	204	29	N	n	JJ
work_kkta46aprvda3kxuww62zfddua	204	30	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	204	31	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	204	32	part	part	NN
work_kkta46aprvda3kxuww62zfddua	204	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	204	34	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	204	35	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	204	36	mediates	mediate	VBZ
work_kkta46aprvda3kxuww62zfddua	204	37	the	the	DT
work_kkta46aprvda3kxuww62zfddua	204	38	interaction	interaction	NN
work_kkta46aprvda3kxuww62zfddua	204	39	with	with	IN
work_kkta46aprvda3kxuww62zfddua	204	40	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	204	41	D	d	NN
work_kkta46aprvda3kxuww62zfddua	204	42	,	,	,
work_kkta46aprvda3kxuww62zfddua	204	43	forming	form	VBG
work_kkta46aprvda3kxuww62zfddua	204	44	together	together	RB
work_kkta46aprvda3kxuww62zfddua	204	45	the	the	DT
work_kkta46aprvda3kxuww62zfddua	204	46	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	204	47	shaft	shaft	NN
work_kkta46aprvda3kxuww62zfddua	204	48	.	.	.
work_kkta46aprvda3kxuww62zfddua	205	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	205	2	recently	recently	RB
work_kkta46aprvda3kxuww62zfddua	205	3	postulated	postulate	VBN
work_kkta46aprvda3kxuww62zfddua	205	4	model	model	NN
work_kkta46aprvda3kxuww62zfddua	205	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	205	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	205	7	rotation	rotation	NN
work_kkta46aprvda3kxuww62zfddua	205	8	mechanism	mechanism	NN
work_kkta46aprvda3kxuww62zfddua	205	9	in	in	IN
work_kkta46aprvda3kxuww62zfddua	205	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	205	11	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	205	12	hirae	hirae	NNP
work_kkta46aprvda3kxuww62zfddua	205	13	A3B3DF	A3B3DF	NNP
work_kkta46aprvda3kxuww62zfddua	205	14	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	205	15	crystal	crystal	NNP
work_kkta46aprvda3kxuww62zfddua	205	16	struc-	struc-	NNP
work_kkta46aprvda3kxuww62zfddua	205	17	tures	ture	NNS
work_kkta46aprvda3kxuww62zfddua	205	18	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	205	19	55	55	CD
work_kkta46aprvda3kxuww62zfddua	205	20	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	205	21	reveal	reveal	VBP
work_kkta46aprvda3kxuww62zfddua	205	22	that	that	IN
work_kkta46aprvda3kxuww62zfddua	205	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	205	24	DF	DF	NNP
work_kkta46aprvda3kxuww62zfddua	205	25	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	205	26	assembly	assembly	NNP
work_kkta46aprvda3kxuww62zfddua	205	27	induces	induce	VBZ
work_kkta46aprvda3kxuww62zfddua	205	28	a	a	DT
work_kkta46aprvda3kxuww62zfddua	205	29	switch	switch	NN
work_kkta46aprvda3kxuww62zfddua	205	30	from	from	IN
work_kkta46aprvda3kxuww62zfddua	205	31	a	a	DT
work_kkta46aprvda3kxuww62zfddua	205	32	bindable	bindable	JJ
work_kkta46aprvda3kxuww62zfddua	205	33	form	form	NN
work_kkta46aprvda3kxuww62zfddua	205	34	to	to	IN
work_kkta46aprvda3kxuww62zfddua	205	35	the	the	DT
work_kkta46aprvda3kxuww62zfddua	205	36	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	205	37	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	205	38	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	205	39	form	form	NN
work_kkta46aprvda3kxuww62zfddua	205	40	in	in	IN
work_kkta46aprvda3kxuww62zfddua	205	41	one	one	CD
work_kkta46aprvda3kxuww62zfddua	205	42	AB	AB	NNP
work_kkta46aprvda3kxuww62zfddua	205	43	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	205	44	pair	pair	NN
work_kkta46aprvda3kxuww62zfddua	205	45	,	,	,
work_kkta46aprvda3kxuww62zfddua	205	46	while	while	IN
work_kkta46aprvda3kxuww62zfddua	205	47	the	the	DT
work_kkta46aprvda3kxuww62zfddua	205	48	DF	DF	NNP
work_kkta46aprvda3kxuww62zfddua	205	49	interac-	interac-	NNP
work_kkta46aprvda3kxuww62zfddua	205	50	tion	tion	NN
work_kkta46aprvda3kxuww62zfddua	205	51	with	with	IN
work_kkta46aprvda3kxuww62zfddua	205	52	a	a	DT
work_kkta46aprvda3kxuww62zfddua	205	53	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	205	54	subunit	subunit	JJ
work_kkta46aprvda3kxuww62zfddua	205	55	AB	AB	NNP
work_kkta46aprvda3kxuww62zfddua	205	56	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	205	57	pair	pair	NN
work_kkta46aprvda3kxuww62zfddua	205	58	causes	cause	VBZ
work_kkta46aprvda3kxuww62zfddua	205	59	the	the	DT
work_kkta46aprvda3kxuww62zfddua	205	60	alteration	alteration	NN
work_kkta46aprvda3kxuww62zfddua	205	61	from	from	IN
work_kkta46aprvda3kxuww62zfddua	205	62	a	a	DT
work_kkta46aprvda3kxuww62zfddua	205	63	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	205	64	form	form	NN
work_kkta46aprvda3kxuww62zfddua	205	65	to	to	IN
work_kkta46aprvda3kxuww62zfddua	205	66	a	a	DT
work_kkta46aprvda3kxuww62zfddua	205	67	tight	tight	JJ
work_kkta46aprvda3kxuww62zfddua	205	68	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	205	69	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	205	70	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	205	71	form	form	NN
work_kkta46aprvda3kxuww62zfddua	205	72	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	205	73	55	55	CD
work_kkta46aprvda3kxuww62zfddua	205	74	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	205	75	.	.	.
work_kkta46aprvda3kxuww62zfddua	206	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	206	2	rotational	rotational	JJ
work_kkta46aprvda3kxuww62zfddua	206	3	dynamics	dynamic	NNS
work_kkta46aprvda3kxuww62zfddua	206	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	206	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	206	6	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	206	7	hirae	hirae	NNP
work_kkta46aprvda3kxuww62zfddua	206	8	A3B3DF	A3B3DF	NNP
work_kkta46aprvda3kxuww62zfddua	206	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	206	10	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	206	11	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	206	12	recently	recently	RB
work_kkta46aprvda3kxuww62zfddua	206	13	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	206	14	confirmed	confirm	VBN
work_kkta46aprvda3kxuww62zfddua	206	15	in	in	IN
work_kkta46aprvda3kxuww62zfddua	206	16	single	single	JJ
work_kkta46aprvda3kxuww62zfddua	206	17	molecule	molecule	NN
work_kkta46aprvda3kxuww62zfddua	206	18	studies	study	NNS
work_kkta46aprvda3kxuww62zfddua	206	19	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	206	20	74	74	CD
work_kkta46aprvda3kxuww62zfddua	206	21	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	206	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	206	23	showing	show	VBG
work_kkta46aprvda3kxuww62zfddua	206	24	that	that	IN
work_kkta46aprvda3kxuww62zfddua	206	25	DF	DF	NNP
work_kkta46aprvda3kxuww62zfddua	206	26	rotates	rotate	NNS
work_kkta46aprvda3kxuww62zfddua	206	27	unidirectional	unidirectional	JJ
work_kkta46aprvda3kxuww62zfddua	206	28	in	in	IN
work_kkta46aprvda3kxuww62zfddua	206	29	a	a	DT
work_kkta46aprvda3kxuww62zfddua	206	30	coun-	coun-	JJ
work_kkta46aprvda3kxuww62zfddua	206	31	terclockwise	terclockwise	NN
work_kkta46aprvda3kxuww62zfddua	206	32	direction	direction	NN
work_kkta46aprvda3kxuww62zfddua	206	33	during	during	IN
work_kkta46aprvda3kxuww62zfddua	206	34	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	206	35	hydrolysis	hydrolysis	NN
work_kkta46aprvda3kxuww62zfddua	206	36	with	with	IN
work_kkta46aprvda3kxuww62zfddua	206	37	a	a	DT
work_kkta46aprvda3kxuww62zfddua	206	38	maximal	maximal	JJ
work_kkta46aprvda3kxuww62zfddua	206	39	rotation	rotation	NN
work_kkta46aprvda3kxuww62zfddua	206	40	rate	rate	NN
work_kkta46aprvda3kxuww62zfddua	206	41	of	of	IN
work_kkta46aprvda3kxuww62zfddua	206	42	about	about	IN
work_kkta46aprvda3kxuww62zfddua	206	43	73	73	CD
work_kkta46aprvda3kxuww62zfddua	206	44	±	±	CD
work_kkta46aprvda3kxuww62zfddua	206	45	2	2	CD
work_kkta46aprvda3kxuww62zfddua	206	46	revolutions	revolution	NNS
work_kkta46aprvda3kxuww62zfddua	206	47	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	206	48	s	s	NN
work_kkta46aprvda3kxuww62zfddua	206	49	.	.	.
work_kkta46aprvda3kxuww62zfddua	207	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	207	2	contrast	contrast	NN
work_kkta46aprvda3kxuww62zfddua	207	3	to	to	IN
work_kkta46aprvda3kxuww62zfddua	207	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	207	5	thermophilic	thermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	207	6	Bacil-	Bacil-	NNP
work_kkta46aprvda3kxuww62zfddua	207	7	lus	lus	NNP
work_kkta46aprvda3kxuww62zfddua	207	8	PS3	PS3	NNP
work_kkta46aprvda3kxuww62zfddua	207	9	F1	F1	NNP
work_kkta46aprvda3kxuww62zfddua	207	10	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	207	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	207	12	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	207	13	shows	show	VBZ
work_kkta46aprvda3kxuww62zfddua	207	14	three	three	CD
work_kkta46aprvda3kxuww62zfddua	207	15	120	120	CD
work_kkta46aprvda3kxuww62zfddua	207	16	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	207	17	steps	step	NNS
work_kkta46aprvda3kxuww62zfddua	207	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	207	19	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	207	20	can	can	MD
work_kkta46aprvda3kxuww62zfddua	207	21	be	be	VB
work_kkta46aprvda3kxuww62zfddua	207	22	further	further	RB
work_kkta46aprvda3kxuww62zfddua	207	23	divided	divide	VBN
work_kkta46aprvda3kxuww62zfddua	207	24	into	into	IN
work_kkta46aprvda3kxuww62zfddua	207	25	substeps	substeps	NNP
work_kkta46aprvda3kxuww62zfddua	207	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	207	27	the	the	DT
work_kkta46aprvda3kxuww62zfddua	207	28	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	207	29	hirae	hirae	NNP
work_kkta46aprvda3kxuww62zfddua	207	30	A3B3DF	A3B3DF	NNP
work_kkta46aprvda3kxuww62zfddua	207	31	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	207	32	complex	complex	NNP
work_kkta46aprvda3kxuww62zfddua	207	33	revealed	reveal	VBD
work_kkta46aprvda3kxuww62zfddua	207	34	only	only	RB
work_kkta46aprvda3kxuww62zfddua	207	35	three	three	CD
work_kkta46aprvda3kxuww62zfddua	207	36	pauses	pause	NNS
work_kkta46aprvda3kxuww62zfddua	207	37	separated	separate	VBN
work_kkta46aprvda3kxuww62zfddua	207	38	by	by	IN
work_kkta46aprvda3kxuww62zfddua	207	39	120	120	CD
work_kkta46aprvda3kxuww62zfddua	207	40	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	207	41	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	207	42	74	74	CD
work_kkta46aprvda3kxuww62zfddua	207	43	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	207	44	,	,	,
work_kkta46aprvda3kxuww62zfddua	207	45	indicating	indicate	VBG
work_kkta46aprvda3kxuww62zfddua	207	46	the	the	DT
work_kkta46aprvda3kxuww62zfddua	207	47	distinct	distinct	JJ
work_kkta46aprvda3kxuww62zfddua	207	48	difference	difference	NN
work_kkta46aprvda3kxuww62zfddua	207	49	be-	be-	XX
work_kkta46aprvda3kxuww62zfddua	207	50	tween	tween	NN
work_kkta46aprvda3kxuww62zfddua	207	51	both	both	CC
work_kkta46aprvda3kxuww62zfddua	207	52	molecular	molecular	JJ
work_kkta46aprvda3kxuww62zfddua	207	53	motors	motor	NNS
work_kkta46aprvda3kxuww62zfddua	207	54	.	.	.
work_kkta46aprvda3kxuww62zfddua	208	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	208	2	tip	tip	NN
work_kkta46aprvda3kxuww62zfddua	208	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	208	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	208	5	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	208	6	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	208	7	in	in	IN
work_kkta46aprvda3kxuww62zfddua	208	8	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	208	9	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	208	10	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	208	11	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	208	12	made	make	VBN
work_kkta46aprvda3kxuww62zfddua	208	13	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	208	14	up	up	RP
work_kkta46aprvda3kxuww62zfddua	208	15	by	by	IN
work_kkta46aprvda3kxuww62zfddua	208	16	sub-	sub-	DT
work_kkta46aprvda3kxuww62zfddua	208	17	unit	unit	NN
work_kkta46aprvda3kxuww62zfddua	208	18	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	208	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	208	20	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	208	21	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	208	22	a	a	DT
work_kkta46aprvda3kxuww62zfddua	208	23	funnel	funnel	NN
work_kkta46aprvda3kxuww62zfddua	208	24	shaped	shaped	JJ
work_kkta46aprvda3kxuww62zfddua	208	25	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	208	26	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	208	27	51	51	CD
work_kkta46aprvda3kxuww62zfddua	208	28	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	208	29	with	with	IN
work_kkta46aprvda3kxuww62zfddua	208	30	a	a	DT
work_kkta46aprvda3kxuww62zfddua	208	31	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	208	32	cavity	cavity	NN
work_kkta46aprvda3kxuww62zfddua	208	33	,	,	,
work_kkta46aprvda3kxuww62zfddua	208	34	providing	provide	VBG
work_kkta46aprvda3kxuww62zfddua	208	35	space	space	NN
work_kkta46aprvda3kxuww62zfddua	208	36	for	for	IN
work_kkta46aprvda3kxuww62zfddua	208	37	the	the	DT
work_kkta46aprvda3kxuww62zfddua	208	38	D	d	NN
work_kkta46aprvda3kxuww62zfddua	208	39	and	and	CC
work_kkta46aprvda3kxuww62zfddua	208	40	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	208	41	assembly	assembly	NN
work_kkta46aprvda3kxuww62zfddua	208	42	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	208	43	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	208	44	.	.	.
work_kkta46aprvda3kxuww62zfddua	209	1	1B	1B	NNP
work_kkta46aprvda3kxuww62zfddua	209	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	209	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	210	1	As	as	IN
work_kkta46aprvda3kxuww62zfddua	210	2	revealed	reveal	VBN
work_kkta46aprvda3kxuww62zfddua	210	3	by	by	IN
work_kkta46aprvda3kxuww62zfddua	210	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	210	5	9.7	9.7	CD
work_kkta46aprvda3kxuww62zfddua	210	6	Å	Å	NNP
work_kkta46aprvda3kxuww62zfddua	210	7	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	210	8	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	210	9	of	of	IN
work_kkta46aprvda3kxuww62zfddua	210	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	210	11	Thermus	Thermus	NNP
work_kkta46aprvda3kxuww62zfddua	210	12	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	210	13	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	210	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	210	15	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	210	16	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	210	17	sits	sit	VBZ
work_kkta46aprvda3kxuww62zfddua	210	18	asymmetrically	asymmetrically	RB
work_kkta46aprvda3kxuww62zfddua	210	19	on	on	IN
work_kkta46aprvda3kxuww62zfddua	210	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	210	21	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	210	22	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	210	23	without	without	IN
work_kkta46aprvda3kxuww62zfddua	210	24	penetrating	penetrating	NN
work_kkta46aprvda3kxuww62zfddua	210	25	significantly	significantly	RB
work_kkta46aprvda3kxuww62zfddua	210	26	in	in	IN
work_kkta46aprvda3kxuww62zfddua	210	27	to	to	IN
work_kkta46aprvda3kxuww62zfddua	210	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	210	29	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	210	30	pore	pore	NN
work_kkta46aprvda3kxuww62zfddua	210	31	of	of	IN
work_kkta46aprvda3kxuww62zfddua	210	32	the	the	DT
work_kkta46aprvda3kxuww62zfddua	210	33	c	c	NN
work_kkta46aprvda3kxuww62zfddua	210	34	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	210	35	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	210	36	48	48	CD
work_kkta46aprvda3kxuww62zfddua	210	37	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	210	38	.	.	.
work_kkta46aprvda3kxuww62zfddua	211	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	211	2	function	function	NN
work_kkta46aprvda3kxuww62zfddua	211	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	211	4	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	211	5	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	211	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	211	7	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	211	8	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	211	9	characteristic	characteristic	JJ
work_kkta46aprvda3kxuww62zfddua	211	10	for	for	IN
work_kkta46aprvda3kxuww62zfddua	211	11	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	211	12	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	211	13	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	211	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	211	15	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	211	16	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	211	17	described	describe	VBN
work_kkta46aprvda3kxuww62zfddua	211	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	211	19	being	be	VBG
work_kkta46aprvda3kxuww62zfddua	211	20	a	a	DT
work_kkta46aprvda3kxuww62zfddua	211	21	spacer	spacer	JJ
work_kkta46aprvda3kxuww62zfddua	211	22	unit	unit	NN
work_kkta46aprvda3kxuww62zfddua	211	23	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	211	24	plays	play	VBZ
work_kkta46aprvda3kxuww62zfddua	211	25	a	a	DT
work_kkta46aprvda3kxuww62zfddua	211	26	role	role	NN
work_kkta46aprvda3kxuww62zfddua	211	27	in	in	IN
work_kkta46aprvda3kxuww62zfddua	211	28	coupling	coupling	NN
work_kkta46aprvda3kxuww62zfddua	211	29	and	and	CC
work_kkta46aprvda3kxuww62zfddua	211	30	rotational	rotational	JJ
work_kkta46aprvda3kxuww62zfddua	211	31	steps	step	NNS
work_kkta46aprvda3kxuww62zfddua	211	32	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	211	33	75	75	CD
work_kkta46aprvda3kxuww62zfddua	211	34	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	211	35	.	.	.
work_kkta46aprvda3kxuww62zfddua	212	1	4.6	4.6	CD
work_kkta46aprvda3kxuww62zfddua	212	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	213	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	213	2	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	213	3	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	213	4	and	and	CC
work_kkta46aprvda3kxuww62zfddua	213	5	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	213	6	elastic	elastic	JJ
work_kkta46aprvda3kxuww62zfddua	213	7	features	feature	NNS
work_kkta46aprvda3kxuww62zfddua	213	8	The	the	DT
work_kkta46aprvda3kxuww62zfddua	213	9	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	213	10	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	213	11	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	213	12	made	make	VBN
work_kkta46aprvda3kxuww62zfddua	213	13	up	up	RP
work_kkta46aprvda3kxuww62zfddua	213	14	by	by	IN
work_kkta46aprvda3kxuww62zfddua	213	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	213	16	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	213	17	E	e	NN
work_kkta46aprvda3kxuww62zfddua	213	18	and	and	CC
work_kkta46aprvda3kxuww62zfddua	213	19	H	h	NN
work_kkta46aprvda3kxuww62zfddua	213	20	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	213	21	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	213	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	214	1	1A	1a	LS
work_kkta46aprvda3kxuww62zfddua	214	2	–	–	:
work_kkta46aprvda3kxuww62zfddua	214	3	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	214	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	214	5	.	.	.
work_kkta46aprvda3kxuww62zfddua	215	1	Concerning	concern	VBG
work_kkta46aprvda3kxuww62zfddua	215	2	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	215	3	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	215	4	and	and	CC
work_kkta46aprvda3kxuww62zfddua	215	5	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	215	6	composition	composition	NN
work_kkta46aprvda3kxuww62zfddua	215	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	215	8	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	215	9	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	215	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	215	11	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	215	12	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	215	13	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	215	14	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	215	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	215	16	most	most	RBS
work_kkta46aprvda3kxuww62zfddua	215	17	divergent	divergent	JJ
work_kkta46aprvda3kxuww62zfddua	215	18	elements	element	NNS
work_kkta46aprvda3kxuww62zfddua	215	19	compared	compare	VBN
work_kkta46aprvda3kxuww62zfddua	215	20	to	to	IN
work_kkta46aprvda3kxuww62zfddua	215	21	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	215	22	related	related	JJ
work_kkta46aprvda3kxuww62zfddua	215	23	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	215	24	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	215	25	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	215	26	or	or	CC
work_kkta46aprvda3kxuww62zfddua	215	27	eukaryotic	eukaryotic	JJ
work_kkta46aprvda3kxuww62zfddua	215	28	V1VO	v1vo	NN
work_kkta46aprvda3kxuww62zfddua	215	29	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	215	30	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	215	31	76	76	CD
work_kkta46aprvda3kxuww62zfddua	215	32	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	215	33	.	.	.
work_kkta46aprvda3kxuww62zfddua	216	1	As	as	IN
work_kkta46aprvda3kxuww62zfddua	216	2	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	216	3	by	by	IN
work_kkta46aprvda3kxuww62zfddua	216	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	216	5	crystallographic	crystallographic	JJ
work_kkta46aprvda3kxuww62zfddua	216	6	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	216	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	216	8	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	216	9	H	h	NN
work_kkta46aprvda3kxuww62zfddua	216	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	216	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	216	12	T.	t.	JJ
work_kkta46aprvda3kxuww62zfddua	216	13	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	216	14	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	216	15	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	216	16	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	216	17	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	216	18	77	77	CD
work_kkta46aprvda3kxuww62zfddua	216	19	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	216	20	this	this	DT
work_kkta46aprvda3kxuww62zfddua	216	21	protein	protein	NN
work_kkta46aprvda3kxuww62zfddua	216	22	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	216	23	entirely	entirely	RB
work_kkta46aprvda3kxuww62zfddua	216	24	α	α	NN
work_kkta46aprvda3kxuww62zfddua	216	25	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	216	26	helical	helical	JJ
work_kkta46aprvda3kxuww62zfddua	216	27	with	with	IN
work_kkta46aprvda3kxuww62zfddua	216	28	a	a	DT
work_kkta46aprvda3kxuww62zfddua	216	29	long	long	JJ
work_kkta46aprvda3kxuww62zfddua	216	30	N	n	CD
work_kkta46aprvda3kxuww62zfddua	216	31	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	216	32	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	216	33	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	216	34	and	and	CC
work_kkta46aprvda3kxuww62zfddua	216	35	a	a	DT
work_kkta46aprvda3kxuww62zfddua	216	36	shorter	short	JJR
work_kkta46aprvda3kxuww62zfddua	216	37	C	c	NN
work_kkta46aprvda3kxuww62zfddua	216	38	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	216	39	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	216	40	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	216	41	,	,	,
work_kkta46aprvda3kxuww62zfddua	216	42	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	216	43	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	216	44	linked	link	VBN
work_kkta46aprvda3kxuww62zfddua	216	45	by	by	IN
work_kkta46aprvda3kxuww62zfddua	216	46	a	a	DT
work_kkta46aprvda3kxuww62zfddua	216	47	sharp	sharp	JJ
work_kkta46aprvda3kxuww62zfddua	216	48	kink	kink	NN
work_kkta46aprvda3kxuww62zfddua	216	49	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	216	50	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	216	51	.	.	.
work_kkta46aprvda3kxuww62zfddua	217	1	1A	1a	LS
work_kkta46aprvda3kxuww62zfddua	217	2	–	–	:
work_kkta46aprvda3kxuww62zfddua	217	3	D	d	NN
work_kkta46aprvda3kxuww62zfddua	217	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	217	5	.	.	.
work_kkta46aprvda3kxuww62zfddua	218	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	218	2	C	c	NN
work_kkta46aprvda3kxuww62zfddua	218	3	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	218	4	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	218	5	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	218	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	218	7	close	close	JJ
work_kkta46aprvda3kxuww62zfddua	218	8	to	to	IN
work_kkta46aprvda3kxuww62zfddua	218	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	218	10	N	n	CD
work_kkta46aprvda3kxuww62zfddua	218	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	218	12	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	218	13	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	218	14	and	and	CC
work_kkta46aprvda3kxuww62zfddua	218	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	218	16	C	c	NN
work_kkta46aprvda3kxuww62zfddua	218	17	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	218	18	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	218	19	tail	tail	NN
work_kkta46aprvda3kxuww62zfddua	218	20	of	of	IN
work_kkta46aprvda3kxuww62zfddua	218	21	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	218	22	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	218	23	The	the	DT
work_kkta46aprvda3kxuww62zfddua	218	24	kink	kink	NN
work_kkta46aprvda3kxuww62zfddua	218	25	of	of	IN
work_kkta46aprvda3kxuww62zfddua	218	26	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	218	27	H	h	NN
work_kkta46aprvda3kxuww62zfddua	218	28	together	together	RB
work_kkta46aprvda3kxuww62zfddua	218	29	with	with	IN
work_kkta46aprvda3kxuww62zfddua	218	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	218	31	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	218	32	of	of	IN
work_kkta46aprvda3kxuww62zfddua	218	33	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	218	34	E	E	NNS
work_kkta46aprvda3kxuww62zfddua	218	35	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	218	36	predicted	predict	VBN
work_kkta46aprvda3kxuww62zfddua	218	37	to	to	TO
work_kkta46aprvda3kxuww62zfddua	218	38	be	be	VB
work_kkta46aprvda3kxuww62zfddua	218	39	two	two	CD
work_kkta46aprvda3kxuww62zfddua	218	40	flexible	flexible	JJ
work_kkta46aprvda3kxuww62zfddua	218	41	joints	joint	NNS
work_kkta46aprvda3kxuww62zfddua	218	42	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	218	43	tether	tether	VBP
work_kkta46aprvda3kxuww62zfddua	218	44	the	the	DT
work_kkta46aprvda3kxuww62zfddua	218	45	headgroup	headgroup	NN
work_kkta46aprvda3kxuww62zfddua	218	46	to	to	IN
work_kkta46aprvda3kxuww62zfddua	218	47	the	the	DT
work_kkta46aprvda3kxuww62zfddua	218	48	coiled	coil	VBN
work_kkta46aprvda3kxuww62zfddua	218	49	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	218	50	coil	coil	NN
work_kkta46aprvda3kxuww62zfddua	218	51	region	region	NN
work_kkta46aprvda3kxuww62zfddua	218	52	formed	form	VBN
work_kkta46aprvda3kxuww62zfddua	218	53	by	by	IN
work_kkta46aprvda3kxuww62zfddua	218	54	the	the	DT
work_kkta46aprvda3kxuww62zfddua	218	55	N	n	NN
work_kkta46aprvda3kxuww62zfddua	218	56	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	218	57	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	218	58	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	218	59	of	of	IN
work_kkta46aprvda3kxuww62zfddua	218	60	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	218	61	E	e	NN
work_kkta46aprvda3kxuww62zfddua	218	62	and	and	CC
work_kkta46aprvda3kxuww62zfddua	218	63	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	218	64	Subunit	Subunit	NNP
work_kkta46aprvda3kxuww62zfddua	218	65	E	E	NNP
work_kkta46aprvda3kxuww62zfddua	218	66	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	218	67	a	a	DT
work_kkta46aprvda3kxuww62zfddua	218	68	long	long	JJ
work_kkta46aprvda3kxuww62zfddua	218	69	,	,	,
work_kkta46aprvda3kxuww62zfddua	218	70	two	two	CD
work_kkta46aprvda3kxuww62zfddua	218	71	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	218	72	protein	protein	NN
work_kkta46aprvda3kxuww62zfddua	218	73	with	with	IN
work_kkta46aprvda3kxuww62zfddua	218	74	a	a	DT
work_kkta46aprvda3kxuww62zfddua	218	75	C	c	NN
work_kkta46aprvda3kxuww62zfddua	218	76	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	218	77	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	218	78	globular	globular	JJ
work_kkta46aprvda3kxuww62zfddua	218	79	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	218	80	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	218	81	77–79	77–79	NN
work_kkta46aprvda3kxuww62zfddua	218	82	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	218	83	,	,	,
work_kkta46aprvda3kxuww62zfddua	218	84	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	218	85	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	218	86	in	in	IN
work_kkta46aprvda3kxuww62zfddua	218	87	close	close	JJ
work_kkta46aprvda3kxuww62zfddua	218	88	proximity	proximity	NN
work_kkta46aprvda3kxuww62zfddua	218	89	to	to	IN
work_kkta46aprvda3kxuww62zfddua	218	90	the	the	DT
work_kkta46aprvda3kxuww62zfddua	218	91	top	top	NN
work_kkta46aprvda3kxuww62zfddua	218	92	of	of	IN
work_kkta46aprvda3kxuww62zfddua	218	93	an	an	DT
work_kkta46aprvda3kxuww62zfddua	218	94	A	a	NN
work_kkta46aprvda3kxuww62zfddua	218	95	–	–	:
work_kkta46aprvda3kxuww62zfddua	218	96	B	b	NN
work_kkta46aprvda3kxuww62zfddua	218	97	inter-	inter-	NN
work_kkta46aprvda3kxuww62zfddua	218	98	face	face	NN
work_kkta46aprvda3kxuww62zfddua	218	99	and	and	CC
work_kkta46aprvda3kxuww62zfddua	218	100	C	c	NN
work_kkta46aprvda3kxuww62zfddua	218	101	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	218	102	terminus	terminus	NN
work_kkta46aprvda3kxuww62zfddua	218	103	of	of	IN
work_kkta46aprvda3kxuww62zfddua	218	104	H	h	NN
work_kkta46aprvda3kxuww62zfddua	218	105	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	218	106	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	218	107	.	.	.
work_kkta46aprvda3kxuww62zfddua	219	1	1A	1a	LS
work_kkta46aprvda3kxuww62zfddua	219	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	219	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	219	4	and	and	CC
work_kkta46aprvda3kxuww62zfddua	219	5	an	an	DT
work_kkta46aprvda3kxuww62zfddua	219	6	extended	extended	JJ
work_kkta46aprvda3kxuww62zfddua	219	7	N	n	NN
work_kkta46aprvda3kxuww62zfddua	219	8	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	219	9	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	219	10	α	α	JJ
work_kkta46aprvda3kxuww62zfddua	219	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	219	12	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	219	13	.	.	.
work_kkta46aprvda3kxuww62zfddua	220	1	Structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	220	2	of	of	IN
work_kkta46aprvda3kxuww62zfddua	220	3	a	a	DT
work_kkta46aprvda3kxuww62zfddua	220	4	straight-	straight-	NN
work_kkta46aprvda3kxuww62zfddua	220	5	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	220	6	T.	t.	NN
work_kkta46aprvda3kxuww62zfddua	220	7	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	220	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	220	9	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	220	10	77	77	CD
work_kkta46aprvda3kxuww62zfddua	220	11	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	220	12	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	220	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	220	14	a	a	DT
work_kkta46aprvda3kxuww62zfddua	220	15	S	S	NNP
work_kkta46aprvda3kxuww62zfddua	220	16	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	220	17	shaped	shape	VBN
work_kkta46aprvda3kxuww62zfddua	220	18	confor-	confor-	NN
work_kkta46aprvda3kxuww62zfddua	220	19	mation	mation	NN
work_kkta46aprvda3kxuww62zfddua	220	20	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	220	21	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	220	22	horikoshii	horikoshii	NNP
work_kkta46aprvda3kxuww62zfddua	220	23	OT3	OT3	NNP
work_kkta46aprvda3kxuww62zfddua	220	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	220	25	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	220	26	79	79	CD
work_kkta46aprvda3kxuww62zfddua	220	27	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	220	28	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	220	29	of	of	IN
work_kkta46aprvda3kxuww62zfddua	220	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	220	31	extended	extended	JJ
work_kkta46aprvda3kxuww62zfddua	220	32	N	N	NNP
work_kkta46aprvda3kxuww62zfddua	220	33	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	220	34	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	220	35	α	α	IN
work_kkta46aprvda3kxuww62zfddua	220	36	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	220	37	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	220	38	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	220	39	E	E	NNS
work_kkta46aprvda3kxuww62zfddua	220	40	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	220	41	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	220	42	determined	determine	VBN
work_kkta46aprvda3kxuww62zfddua	220	43	,	,	,
work_kkta46aprvda3kxuww62zfddua	220	44	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	220	45	fit	fit	VBP
work_kkta46aprvda3kxuww62zfddua	220	46	well	well	RB
work_kkta46aprvda3kxuww62zfddua	220	47	into	into	IN
work_kkta46aprvda3kxuww62zfddua	220	48	the	the	DT
work_kkta46aprvda3kxuww62zfddua	220	49	asymmetric	asymmetric	JJ
work_kkta46aprvda3kxuww62zfddua	220	50	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	220	51	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	220	52	of	of	IN
work_kkta46aprvda3kxuww62zfddua	220	53	the	the	DT
work_kkta46aprvda3kxuww62zfddua	220	54	3D	3d	JJ
work_kkta46aprvda3kxuww62zfddua	220	55	reconstruction	reconstruction	NN
work_kkta46aprvda3kxuww62zfddua	220	56	of	of	IN
work_kkta46aprvda3kxuww62zfddua	220	57	the	the	DT
work_kkta46aprvda3kxuww62zfddua	220	58	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	220	59	furiosus	furiosus	NN
work_kkta46aprvda3kxuww62zfddua	220	60	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	220	61	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	220	62	79	79	CD
work_kkta46aprvda3kxuww62zfddua	220	63	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	220	64	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	220	65	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	220	66	.	.	.
work_kkta46aprvda3kxuww62zfddua	221	1	1B	1B	NNP
work_kkta46aprvda3kxuww62zfddua	221	2	–	–	:
work_kkta46aprvda3kxuww62zfddua	221	3	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	221	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	221	5	.	.	.
work_kkta46aprvda3kxuww62zfddua	222	1	These	these	DT
work_kkta46aprvda3kxuww62zfddua	222	2	features	feature	NNS
work_kkta46aprvda3kxuww62zfddua	222	3	support	support	VBP
work_kkta46aprvda3kxuww62zfddua	222	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	222	5	model	model	NN
work_kkta46aprvda3kxuww62zfddua	222	6	in	in	IN
work_kkta46aprvda3kxuww62zfddua	222	7	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	222	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	222	9	switch	switch	NN
work_kkta46aprvda3kxuww62zfddua	222	10	from	from	IN
work_kkta46aprvda3kxuww62zfddua	222	11	a	a	DT
work_kkta46aprvda3kxuww62zfddua	222	12	straight-	straight-	NN
work_kkta46aprvda3kxuww62zfddua	222	13	to	to	IN
work_kkta46aprvda3kxuww62zfddua	222	14	an	an	DT
work_kkta46aprvda3kxuww62zfddua	222	15	S	S	NNP
work_kkta46aprvda3kxuww62zfddua	222	16	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	222	17	shaped	shape	VBN
work_kkta46aprvda3kxuww62zfddua	222	18	conformation	conformation	NN
work_kkta46aprvda3kxuww62zfddua	222	19	of	of	IN
work_kkta46aprvda3kxuww62zfddua	222	20	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	222	21	E	e	NN
work_kkta46aprvda3kxuww62zfddua	222	22	in	in	IN
work_kkta46aprvda3kxuww62zfddua	222	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	222	24	two	two	CD
work_kkta46aprvda3kxuww62zfddua	222	25	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	222	26	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	222	27	facilitates	facilitate	VBZ
work_kkta46aprvda3kxuww62zfddua	222	28	elastic	elastic	JJ
work_kkta46aprvda3kxuww62zfddua	222	29	power	power	NN
work_kkta46aprvda3kxuww62zfddua	222	30	transmission	transmission	NN
work_kkta46aprvda3kxuww62zfddua	222	31	between	between	IN
work_kkta46aprvda3kxuww62zfddua	222	32	the	the	DT
work_kkta46aprvda3kxuww62zfddua	222	33	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	222	34	and	and	CC
work_kkta46aprvda3kxuww62zfddua	222	35	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	222	36	part	part	NN
work_kkta46aprvda3kxuww62zfddua	222	37	,	,	,
work_kkta46aprvda3kxuww62zfddua	222	38	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	222	39	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	222	40	essential	essential	JJ
work_kkta46aprvda3kxuww62zfddua	222	41	for	for	IN
work_kkta46aprvda3kxuww62zfddua	222	42	facilitating	facilitate	VBG
work_kkta46aprvda3kxuww62zfddua	222	43	the	the	DT
work_kkta46aprvda3kxuww62zfddua	222	44	cooperation	cooperation	NN
work_kkta46aprvda3kxuww62zfddua	222	45	of	of	IN
work_kkta46aprvda3kxuww62zfddua	222	46	the	the	DT
work_kkta46aprvda3kxuww62zfddua	222	47	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	222	48	and	and	CC
work_kkta46aprvda3kxuww62zfddua	222	49	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	222	50	motors	motor	NNS
work_kkta46aprvda3kxuww62zfddua	222	51	and	and	CC
work_kkta46aprvda3kxuww62zfddua	222	52	to	to	TO
work_kkta46aprvda3kxuww62zfddua	222	53	increase	increase	VB
work_kkta46aprvda3kxuww62zfddua	222	54	the	the	DT
work_kkta46aprvda3kxuww62zfddua	222	55	kinetic	kinetic	JJ
work_kkta46aprvda3kxuww62zfddua	222	56	efficiency	efficiency	NN
work_kkta46aprvda3kxuww62zfddua	222	57	of	of	IN
work_kkta46aprvda3kxuww62zfddua	222	58	the	the	DT
work_kkta46aprvda3kxuww62zfddua	222	59	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	222	60	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	222	61	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	222	62	engine	engine	NN
work_kkta46aprvda3kxuww62zfddua	222	63	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	222	64	79,80	79,80	CD
work_kkta46aprvda3kxuww62zfddua	222	65	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	222	66	.	.	.
work_kkta46aprvda3kxuww62zfddua	223	1	Furthermore	furthermore	RB
work_kkta46aprvda3kxuww62zfddua	223	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	223	3	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	223	4	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	223	5	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	223	6	proposed	propose	VBN
work_kkta46aprvda3kxuww62zfddua	223	7	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	223	8	79	79	CD
work_kkta46aprvda3kxuww62zfddua	223	9	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	223	10	that	that	IN
work_kkta46aprvda3kxuww62zfddua	223	11	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	223	12	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	223	13	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	223	14	in	in	IN
work_kkta46aprvda3kxuww62zfddua	223	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	223	16	interface	interface	NN
work_kkta46aprvda3kxuww62zfddua	223	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	223	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	223	19	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	223	20	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	223	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	223	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	223	23	C	c	NN
work_kkta46aprvda3kxuww62zfddua	223	24	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	223	25	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	223	26	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	223	27	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	223	28	embedded	embed	VBN
work_kkta46aprvda3kxuww62zfddua	223	29	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	223	30	of	of	IN
work_kkta46aprvda3kxuww62zfddua	223	31	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	223	32	a	a	DT
work_kkta46aprvda3kxuww62zfddua	223	33	causes	cause	NNS
work_kkta46aprvda3kxuww62zfddua	223	34	alterations	alteration	NNS
work_kkta46aprvda3kxuww62zfddua	223	35	in	in	IN
work_kkta46aprvda3kxuww62zfddua	223	36	the	the	DT
work_kkta46aprvda3kxuww62zfddua	223	37	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	223	38	sector	sector	NN
work_kkta46aprvda3kxuww62zfddua	223	39	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	223	40	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	223	41	.	.	.
work_kkta46aprvda3kxuww62zfddua	224	1	1A	1a	CD
work_kkta46aprvda3kxuww62zfddua	224	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	224	3	D	D	NNP
work_kkta46aprvda3kxuww62zfddua	224	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	224	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	224	6	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	224	7	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	224	8	transferred	transfer	VBN
work_kkta46aprvda3kxuww62zfddua	224	9	to	to	IN
work_kkta46aprvda3kxuww62zfddua	224	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	224	11	barbell	barbell	NN
work_kkta46aprvda3kxuww62zfddua	224	12	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	224	13	shaped	shape	VBN
work_kkta46aprvda3kxuww62zfddua	224	14	N	n	NN
work_kkta46aprvda3kxuww62zfddua	224	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	224	16	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	224	17	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	224	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	224	19	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	224	20	a	a	NNP
work_kkta46aprvda3kxuww62zfddua	224	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	224	22	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	224	23	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	224	24	As	as	IN
work_kkta46aprvda3kxuww62zfddua	224	25	a	a	DT
work_kkta46aprvda3kxuww62zfddua	224	26	consequence	consequence	NN
work_kkta46aprvda3kxuww62zfddua	224	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	224	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	224	29	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	224	30	a	a	DT
work_kkta46aprvda3kxuww62zfddua	224	31	alterations	alteration	NNS
work_kkta46aprvda3kxuww62zfddua	224	32	will	will	MD
work_kkta46aprvda3kxuww62zfddua	224	33	force	force	VB
work_kkta46aprvda3kxuww62zfddua	224	34	the	the	DT
work_kkta46aprvda3kxuww62zfddua	224	35	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	224	36	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	224	37	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	224	38	to	to	TO
work_kkta46aprvda3kxuww62zfddua	224	39	switch	switch	VB
work_kkta46aprvda3kxuww62zfddua	224	40	from	from	IN
work_kkta46aprvda3kxuww62zfddua	224	41	a	a	DT
work_kkta46aprvda3kxuww62zfddua	224	42	more	more	RBR
work_kkta46aprvda3kxuww62zfddua	224	43	extended	extended	JJ
work_kkta46aprvda3kxuww62zfddua	224	44	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	224	45	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	224	46	.	.	.
work_kkta46aprvda3kxuww62zfddua	225	1	1A	1a	CD
work_kkta46aprvda3kxuww62zfddua	225	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	225	3	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	225	4	E	e	NN
work_kkta46aprvda3kxuww62zfddua	225	5	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	225	6	green	green	NN
work_kkta46aprvda3kxuww62zfddua	225	7	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	225	8	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	225	9	into	into	IN
work_kkta46aprvda3kxuww62zfddua	225	10	a	a	DT
work_kkta46aprvda3kxuww62zfddua	225	11	curved	curved	JJ
work_kkta46aprvda3kxuww62zfddua	225	12	confor-	confor-	NN
work_kkta46aprvda3kxuww62zfddua	225	13	mation	mation	NN
work_kkta46aprvda3kxuww62zfddua	225	14	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	225	15	Fig	Fig	NNP
work_kkta46aprvda3kxuww62zfddua	225	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	226	1	1A	1a	CD
work_kkta46aprvda3kxuww62zfddua	226	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	226	3	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	226	4	E	e	NN
work_kkta46aprvda3kxuww62zfddua	226	5	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	226	6	red	red	NNP
work_kkta46aprvda3kxuww62zfddua	226	7	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	226	8	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	226	9	and	and	CC
work_kkta46aprvda3kxuww62zfddua	226	10	vice	vice	NN
work_kkta46aprvda3kxuww62zfddua	226	11	versa	versa	RB
work_kkta46aprvda3kxuww62zfddua	226	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	226	13	providing	provide	VBG
work_kkta46aprvda3kxuww62zfddua	226	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	226	15	storage	storage	NN
work_kkta46aprvda3kxuww62zfddua	226	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	226	17	transient	transient	JJ
work_kkta46aprvda3kxuww62zfddua	226	18	elastic	elastic	JJ
work_kkta46aprvda3kxuww62zfddua	226	19	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	226	20	during	during	IN
work_kkta46aprvda3kxuww62zfddua	226	21	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	226	22	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	226	23	pumping	pumping	NN
work_kkta46aprvda3kxuww62zfddua	226	24	and	and	CC
work_kkta46aprvda3kxuww62zfddua	226	25	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	226	26	synthesis/-	synthesis/-	:
work_kkta46aprvda3kxuww62zfddua	226	27	hydrolysis	hydrolysis	NN
work_kkta46aprvda3kxuww62zfddua	226	28	.	.	.
work_kkta46aprvda3kxuww62zfddua	227	1	4.7	4.7	CD
work_kkta46aprvda3kxuww62zfddua	227	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	228	1	Architecture	architecture	NN
work_kkta46aprvda3kxuww62zfddua	228	2	of	of	IN
work_kkta46aprvda3kxuww62zfddua	228	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	228	4	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	228	5	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	228	6	embedded	embed	VBN
work_kkta46aprvda3kxuww62zfddua	228	7	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	228	8	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	228	9	The	the	DT
work_kkta46aprvda3kxuww62zfddua	228	10	two	two	CD
work_kkta46aprvda3kxuww62zfddua	228	11	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	228	12	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	228	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	228	14	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	228	15	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	228	16	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	228	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	228	18	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	228	19	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	228	20	no	no	DT
work_kkta46aprvda3kxuww62zfddua	228	21	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	228	22	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	228	23	spanning	span	VBG
work_kkta46aprvda3kxuww62zfddua	228	24	N	n	NN
work_kkta46aprvda3kxuww62zfddua	228	25	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	228	26	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	228	27	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	228	28	like	like	IN
work_kkta46aprvda3kxuww62zfddua	228	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	228	30	one	one	CD
work_kkta46aprvda3kxuww62zfddua	228	31	in	in	IN
work_kkta46aprvda3kxuww62zfddua	228	32	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	228	33	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	228	34	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	228	35	,	,	,
work_kkta46aprvda3kxuww62zfddua	228	36	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	228	37	linked	link	VBN
work_kkta46aprvda3kxuww62zfddua	228	38	to	to	IN
work_kkta46aprvda3kxuww62zfddua	228	39	the	the	DT
work_kkta46aprvda3kxuww62zfddua	228	40	globular	globular	JJ
work_kkta46aprvda3kxuww62zfddua	228	41	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	228	42	of	of	IN
work_kkta46aprvda3kxuww62zfddua	228	43	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	228	44	a	a	DT
work_kkta46aprvda3kxuww62zfddua	228	45	,	,	,
work_kkta46aprvda3kxuww62zfddua	228	46	whose	whose	WP$
work_kkta46aprvda3kxuww62zfddua	228	47	C-	C-	NNP
work_kkta46aprvda3kxuww62zfddua	228	48	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	228	49	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	228	50	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	228	51	integrated	integrate	VBN
work_kkta46aprvda3kxuww62zfddua	228	52	segment	segment	NN
work_kkta46aprvda3kxuww62zfddua	228	53	forms	form	VBZ
work_kkta46aprvda3kxuww62zfddua	228	54	the	the	DT
work_kkta46aprvda3kxuww62zfddua	228	55	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	228	56	channel	channel	NN
work_kkta46aprvda3kxuww62zfddua	228	57	together	together	RB
work_kkta46aprvda3kxuww62zfddua	228	58	with	with	IN
work_kkta46aprvda3kxuww62zfddua	228	59	the	the	DT
work_kkta46aprvda3kxuww62zfddua	228	60	c	c	NN
work_kkta46aprvda3kxuww62zfddua	228	61	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	228	62	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	228	63	47,48	47,48	CD
work_kkta46aprvda3kxuww62zfddua	228	64	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	228	65	.	.	.
work_kkta46aprvda3kxuww62zfddua	229	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	229	2	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	229	3	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	229	4	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	229	5	subunit	subunit	VBD
work_kkta46aprvda3kxuww62zfddua	229	6	a	a	DT
work_kkta46aprvda3kxuww62zfddua	229	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	229	8	about	about	RB
work_kkta46aprvda3kxuww62zfddua	229	9	95	95	CD
work_kkta46aprvda3kxuww62zfddua	229	10	kDa	kDa	NNS
work_kkta46aprvda3kxuww62zfddua	229	11	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	229	12	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	229	13	similar	similar	JJ
work_kkta46aprvda3kxuww62zfddua	229	14	to	to	IN
work_kkta46aprvda3kxuww62zfddua	229	15	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	229	16	related	related	JJ
work_kkta46aprvda3kxuww62zfddua	229	17	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	229	18	a	a	DT
work_kkta46aprvda3kxuww62zfddua	229	19	in	in	IN
work_kkta46aprvda3kxuww62zfddua	229	20	eukaryotic	eukaryotic	JJ
work_kkta46aprvda3kxuww62zfddua	229	21	V1VO	v1vo	NN
work_kkta46aprvda3kxuww62zfddua	229	22	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	229	23	and	and	CC
work_kkta46aprvda3kxuww62zfddua	229	24	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	229	25	par-	par-	NN
work_kkta46aprvda3kxuww62zfddua	229	26	tially	tially	RB
work_kkta46aprvda3kxuww62zfddua	229	27	functionally	functionally	RB
work_kkta46aprvda3kxuww62zfddua	229	28	similar	similar	JJ
work_kkta46aprvda3kxuww62zfddua	229	29	to	to	IN
work_kkta46aprvda3kxuww62zfddua	229	30	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	229	31	a	a	DT
work_kkta46aprvda3kxuww62zfddua	229	32	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	229	33	about	about	RB
work_kkta46aprvda3kxuww62zfddua	229	34	28	28	CD
work_kkta46aprvda3kxuww62zfddua	229	35	kDa	kDa	NNS
work_kkta46aprvda3kxuww62zfddua	229	36	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	229	37	of	of	IN
work_kkta46aprvda3kxuww62zfddua	229	38	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	229	39	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	229	40	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	229	41	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	229	42	31	31	CD
work_kkta46aprvda3kxuww62zfddua	229	43	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	229	44	.	.	.
work_kkta46aprvda3kxuww62zfddua	230	1	Its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	230	2	C	c	NN
work_kkta46aprvda3kxuww62zfddua	230	3	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	230	4	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	230	5	and	and	CC
work_kkta46aprvda3kxuww62zfddua	230	6	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	230	7	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	230	8	translocating	translocating	NN
work_kkta46aprvda3kxuww62zfddua	230	9	part	part	NN
work_kkta46aprvda3kxuww62zfddua	230	10	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	230	11	membrane-	membrane-	NNP
work_kkta46aprvda3kxuww62zfddua	230	12	integral	integral	JJ
work_kkta46aprvda3kxuww62zfddua	230	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	230	14	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	230	15	N	n	CD
work_kkta46aprvda3kxuww62zfddua	230	16	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	230	17	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	230	18	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	230	19	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	230	20	about	about	RB
work_kkta46aprvda3kxuww62zfddua	230	21	40	40	CD
work_kkta46aprvda3kxuww62zfddua	230	22	kDa	kDa	NNS
work_kkta46aprvda3kxuww62zfddua	230	23	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	230	24	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	230	25	on	on	IN
work_kkta46aprvda3kxuww62zfddua	230	26	the	the	DT
work_kkta46aprvda3kxuww62zfddua	230	27	cytoplasmic	cytoplasmic	JJ
work_kkta46aprvda3kxuww62zfddua	230	28	side	side	NN
work_kkta46aprvda3kxuww62zfddua	230	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	231	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	231	2	crystallographic	crystallographic	JJ
work_kkta46aprvda3kxuww62zfddua	231	3	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	231	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	231	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	231	6	barbell	barbell	NN
work_kkta46aprvda3kxuww62zfddua	231	7	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	231	8	shaped	shape	VBN
work_kkta46aprvda3kxuww62zfddua	231	9	N	n	NN
work_kkta46aprvda3kxuww62zfddua	231	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	231	11	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	231	12	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	231	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	231	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	231	15	Meiothermus	Meiothermus	NNP
work_kkta46aprvda3kxuww62zfddua	231	16	ruber	ruber	NN
work_kkta46aprvda3kxuww62zfddua	231	17	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	231	18	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	231	19	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	231	20	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	231	21	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	231	22	deter-	deter-	CD
work_kkta46aprvda3kxuww62zfddua	231	23	mined	mine	VBN
work_kkta46aprvda3kxuww62zfddua	231	24	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	231	25	81	81	CD
work_kkta46aprvda3kxuww62zfddua	231	26	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	231	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	231	28	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	231	29	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	231	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	232	1	1A	1a	LS
work_kkta46aprvda3kxuww62zfddua	232	2	–	–	:
work_kkta46aprvda3kxuww62zfddua	232	3	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	232	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	232	5	.	.	.
work_kkta46aprvda3kxuww62zfddua	233	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	233	2	middle	middle	JJ
work_kkta46aprvda3kxuww62zfddua	233	3	and	and	CC
work_kkta46aprvda3kxuww62zfddua	233	4	helical	helical	JJ
work_kkta46aprvda3kxuww62zfddua	233	5	bundle	bundle	NN
work_kkta46aprvda3kxuww62zfddua	233	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	233	7	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	233	8	a	a	DT
work_kkta46aprvda3kxuww62zfddua	233	9	faces	face	NNS
work_kkta46aprvda3kxuww62zfddua	233	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	233	11	wedge	wedge	NN
work_kkta46aprvda3kxuww62zfddua	233	12	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	233	13	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	233	14	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	233	15	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	233	16	The	the	DT
work_kkta46aprvda3kxuww62zfddua	233	17	hydrophobic	hydrophobic	NN
work_kkta46aprvda3kxuww62zfddua	233	18	C	c	NN
work_kkta46aprvda3kxuww62zfddua	233	19	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	233	20	terminus	terminus	NN
work_kkta46aprvda3kxuww62zfddua	233	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	233	22	a	a	DT
work_kkta46aprvda3kxuww62zfddua	233	23	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	233	24	pre-	pre-	RB
work_kkta46aprvda3kxuww62zfddua	233	25	dicted	dicte	VBN
work_kkta46aprvda3kxuww62zfddua	233	26	to	to	TO
work_kkta46aprvda3kxuww62zfddua	233	27	have	have	VB
work_kkta46aprvda3kxuww62zfddua	233	28	7–8	7–8	CD
work_kkta46aprvda3kxuww62zfddua	233	29	transmembrane	transmembrane	JJ
work_kkta46aprvda3kxuww62zfddua	233	30	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	233	31	and	and	CC
work_kkta46aprvda3kxuww62zfddua	233	32	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	233	33	known	know	VBN
work_kkta46aprvda3kxuww62zfddua	233	34	to	to	TO
work_kkta46aprvda3kxuww62zfddua	233	35	be	be	VB
work_kkta46aprvda3kxuww62zfddua	233	36	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	233	37	in	in	IN
work_kkta46aprvda3kxuww62zfddua	233	38	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	233	39	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	233	40	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	233	41	47	47	CD
work_kkta46aprvda3kxuww62zfddua	233	42	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	233	43	.	.	.
work_kkta46aprvda3kxuww62zfddua	234	1	These	these	DT
work_kkta46aprvda3kxuww62zfddua	234	2	α	α	NNS
work_kkta46aprvda3kxuww62zfddua	234	3	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	234	4	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	234	5	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	234	6	in	in	IN
work_kkta46aprvda3kxuww62zfddua	234	7	close	close	JJ
work_kkta46aprvda3kxuww62zfddua	234	8	contact	contact	NN
work_kkta46aprvda3kxuww62zfddua	234	9	to	to	IN
work_kkta46aprvda3kxuww62zfddua	234	10	a	a	DT
work_kkta46aprvda3kxuww62zfddua	234	11	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	234	12	made	make	VBN
work_kkta46aprvda3kxuww62zfddua	234	13	by	by	IN
work_kkta46aprvda3kxuww62zfddua	234	14	multiple	multiple	JJ
work_kkta46aprvda3kxuww62zfddua	234	15	copies	copy	NNS
work_kkta46aprvda3kxuww62zfddua	234	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	234	17	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	234	18	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	234	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	234	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	234	21	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	234	22	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	234	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	235	1	Subunit	Subunit	NNP
work_kkta46aprvda3kxuww62zfddua	235	2	a	a	DT
work_kkta46aprvda3kxuww62zfddua	235	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	235	4	sug-	sug-	NN
work_kkta46aprvda3kxuww62zfddua	235	5	gested	geste	VBN
work_kkta46aprvda3kxuww62zfddua	235	6	to	to	TO
work_kkta46aprvda3kxuww62zfddua	235	7	form	form	VB
work_kkta46aprvda3kxuww62zfddua	235	8	two	two	CD
work_kkta46aprvda3kxuww62zfddua	235	9	“	"	``
work_kkta46aprvda3kxuww62zfddua	235	10	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	235	11	channels	channel	NNS
work_kkta46aprvda3kxuww62zfddua	235	12	”	"	''
work_kkta46aprvda3kxuww62zfddua	235	13	to	to	TO
work_kkta46aprvda3kxuww62zfddua	235	14	load	load	VB
work_kkta46aprvda3kxuww62zfddua	235	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	235	16	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	235	17	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	235	18	with	with	IN
work_kkta46aprvda3kxuww62zfddua	235	19	coupling	couple	VBG
work_kkta46aprvda3kxuww62zfddua	235	20	ions	ion	NNS
work_kkta46aprvda3kxuww62zfddua	235	21	over	over	IN
work_kkta46aprvda3kxuww62zfddua	235	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	235	23	first	first	JJ
work_kkta46aprvda3kxuww62zfddua	235	24	channel	channel	NN
work_kkta46aprvda3kxuww62zfddua	235	25	and	and	CC
work_kkta46aprvda3kxuww62zfddua	235	26	to	to	TO
work_kkta46aprvda3kxuww62zfddua	235	27	remove	remove	VB
work_kkta46aprvda3kxuww62zfddua	235	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	235	29	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	235	30	again	again	RB
work_kkta46aprvda3kxuww62zfddua	235	31	from	from	IN
work_kkta46aprvda3kxuww62zfddua	235	32	the	the	DT
work_kkta46aprvda3kxuww62zfddua	235	33	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	235	34	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	235	35	over	over	IN
work_kkta46aprvda3kxuww62zfddua	235	36	the	the	DT
work_kkta46aprvda3kxuww62zfddua	235	37	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	235	38	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	235	39	channel	channel	NN
work_kkta46aprvda3kxuww62zfddua	235	40	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	235	41	48	48	CD
work_kkta46aprvda3kxuww62zfddua	235	42	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	235	43	.	.	.
work_kkta46aprvda3kxuww62zfddua	236	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	236	2	recently	recently	RB
work_kkta46aprvda3kxuww62zfddua	236	3	determined	determine	VBN
work_kkta46aprvda3kxuww62zfddua	236	4	3-dimensional	3-dimensional	CD
work_kkta46aprvda3kxuww62zfddua	236	5	re-	re-	JJ
work_kkta46aprvda3kxuww62zfddua	236	6	construction	construction	NN
work_kkta46aprvda3kxuww62zfddua	236	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	236	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	236	9	T.	t.	JJ
work_kkta46aprvda3kxuww62zfddua	236	10	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	236	11	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	236	12	shows	show	VBZ
work_kkta46aprvda3kxuww62zfddua	236	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	236	14	eight	eight	CD
work_kkta46aprvda3kxuww62zfddua	236	15	transmem-	transmem-	.
work_kkta46aprvda3kxuww62zfddua	236	16	brane	brane	NN
work_kkta46aprvda3kxuww62zfddua	236	17	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	236	18	in	in	IN
work_kkta46aprvda3kxuww62zfddua	236	19	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	236	20	a	a	DT
work_kkta46aprvda3kxuww62zfddua	236	21	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	236	22	48	48	CD
work_kkta46aprvda3kxuww62zfddua	236	23	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	236	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	237	1	These	these	DT
work_kkta46aprvda3kxuww62zfddua	237	2	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	237	3	divide	divide	VBP
work_kkta46aprvda3kxuww62zfddua	237	4	into	into	IN
work_kkta46aprvda3kxuww62zfddua	237	5	two	two	CD
work_kkta46aprvda3kxuww62zfddua	237	6	bundles	bundle	NNS
work_kkta46aprvda3kxuww62zfddua	237	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	237	8	each	each	DT
work_kkta46aprvda3kxuww62zfddua	237	9	containing	contain	VBG
work_kkta46aprvda3kxuww62zfddua	237	10	four	four	CD
work_kkta46aprvda3kxuww62zfddua	237	11	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	237	12	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	237	13	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	237	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	238	1	4A	4A	NNP
work_kkta46aprvda3kxuww62zfddua	238	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	238	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	239	1	One	one	CD
work_kkta46aprvda3kxuww62zfddua	239	2	bundle	bundle	NN
work_kkta46aprvda3kxuww62zfddua	239	3	appears	appear	VBZ
work_kkta46aprvda3kxuww62zfddua	239	4	almost	almost	RB
work_kkta46aprvda3kxuww62zfddua	239	5	per-	per-	RB
work_kkta46aprvda3kxuww62zfddua	239	6	pendicular	pendicular	NNP
work_kkta46aprvda3kxuww62zfddua	239	7	to	to	IN
work_kkta46aprvda3kxuww62zfddua	239	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	239	9	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	239	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	239	11	contacts	contact	VBZ
work_kkta46aprvda3kxuww62zfddua	239	12	a	a	DT
work_kkta46aprvda3kxuww62zfddua	239	13	single	single	JJ
work_kkta46aprvda3kxuww62zfddua	239	14	c	c	NN
work_kkta46aprvda3kxuww62zfddua	239	15	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	239	16	near	near	IN
work_kkta46aprvda3kxuww62zfddua	239	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	239	18	middle	middle	NN
work_kkta46aprvda3kxuww62zfddua	239	19	of	of	IN
work_kkta46aprvda3kxuww62zfddua	239	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	239	21	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	239	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	240	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	240	2	other	other	JJ
work_kkta46aprvda3kxuww62zfddua	240	3	bundle	bundle	NN
work_kkta46aprvda3kxuww62zfddua	240	4	appears	appear	VBZ
work_kkta46aprvda3kxuww62zfddua	240	5	tilted	tilt	VBN
work_kkta46aprvda3kxuww62zfddua	240	6	and	and	CC
work_kkta46aprvda3kxuww62zfddua	240	7	contacts	contact	VBZ
work_kkta46aprvda3kxuww62zfddua	240	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	240	9	adjacent	adjacent	JJ
work_kkta46aprvda3kxuww62zfddua	240	10	c	c	NN
work_kkta46aprvda3kxuww62zfddua	240	11	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	240	12	closer	close	JJR
work_kkta46aprvda3kxuww62zfddua	240	13	to	to	IN
work_kkta46aprvda3kxuww62zfddua	240	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	240	15	periplasm	periplasm	NN
work_kkta46aprvda3kxuww62zfddua	240	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	241	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	241	2	arrangement	arrangement	NN
work_kkta46aprvda3kxuww62zfddua	241	3	brings	bring	VBZ
work_kkta46aprvda3kxuww62zfddua	241	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	241	5	two	two	CD
work_kkta46aprvda3kxuww62zfddua	241	6	c	c	NN
work_kkta46aprvda3kxuww62zfddua	241	7	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	241	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	241	9	distinct	distinct	JJ
work_kkta46aprvda3kxuww62zfddua	241	10	chemical	chemical	NN
work_kkta46aprvda3kxuww62zfddua	241	11	environments	environment	NNS
work_kkta46aprvda3kxuww62zfddua	241	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	241	13	establishes	establish	VBZ
work_kkta46aprvda3kxuww62zfddua	241	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	241	15	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	241	16	necessary	necessary	JJ
work_kkta46aprvda3kxuww62zfddua	241	17	for	for	IN
work_kkta46aprvda3kxuww62zfddua	241	18	a	a	DT
work_kkta46aprvda3kxuww62zfddua	241	19	two	two	CD
work_kkta46aprvda3kxuww62zfddua	241	20	half	half	JJ
work_kkta46aprvda3kxuww62zfddua	241	21	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	241	22	channel	channel	NN
work_kkta46aprvda3kxuww62zfddua	241	23	model	model	NN
work_kkta46aprvda3kxuww62zfddua	241	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	241	25	proton	proton	NNP
work_kkta46aprvda3kxuww62zfddua	241	26	translocation	translocation	NNP
work_kkta46aprvda3kxuww62zfddua	241	27	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	241	28	48	48	CD
work_kkta46aprvda3kxuww62zfddua	241	29	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	241	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	242	1	Whereas	whereas	IN
work_kkta46aprvda3kxuww62zfddua	242	2	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	242	3	a	a	DT
work_kkta46aprvda3kxuww62zfddua	242	4	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	242	5	underwent	undergo	VBN
work_kkta46aprvda3kxuww62zfddua	242	6	little	little	JJ
work_kkta46aprvda3kxuww62zfddua	242	7	changes	change	NNS
work_kkta46aprvda3kxuww62zfddua	242	8	during	during	IN
work_kkta46aprvda3kxuww62zfddua	242	9	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	242	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	242	11	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	242	12	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	242	13	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	242	14	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	242	15	a	a	DT
work_kkta46aprvda3kxuww62zfddua	242	16	large	large	JJ
work_kkta46aprvda3kxuww62zfddua	242	17	evolutionary	evolutionary	JJ
work_kkta46aprvda3kxuww62zfddua	242	18	playground	playground	NN
work_kkta46aprvda3kxuww62zfddua	242	19	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	242	20	82	82	CD
work_kkta46aprvda3kxuww62zfddua	242	21	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	242	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	243	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	243	2	lot	lot	NN
work_kkta46aprvda3kxuww62zfddua	243	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	243	4	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	243	5	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	243	6	an	an	DT
work_kkta46aprvda3kxuww62zfddua	243	7	8	8	CD
work_kkta46aprvda3kxuww62zfddua	243	8	kDa	kDa	NNS
work_kkta46aprvda3kxuww62zfddua	243	9	c	c	NN
work_kkta46aprvda3kxuww62zfddua	243	10	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	243	11	with	with	IN
work_kkta46aprvda3kxuww62zfddua	243	12	two	two	CD
work_kkta46aprvda3kxuww62zfddua	243	13	transmembrane	transmembrane	NNS
work_kkta46aprvda3kxuww62zfddua	243	14	α	α	NNS
work_kkta46aprvda3kxuww62zfddua	243	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	243	16	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	243	17	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	243	18	35,83–85	35,83–85	CD
work_kkta46aprvda3kxuww62zfddua	243	19	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	243	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	243	21	but	but	CC
work_kkta46aprvda3kxuww62zfddua	243	22	some	some	DT
work_kkta46aprvda3kxuww62zfddua	243	23	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	243	24	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	243	25	very	very	RB
work_kkta46aprvda3kxuww62zfddua	243	26	unusual	unusual	JJ
work_kkta46aprvda3kxuww62zfddua	243	27	c	c	NN
work_kkta46aprvda3kxuww62zfddua	243	28	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	243	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	244	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	244	2	16	16	CD
work_kkta46aprvda3kxuww62zfddua	244	3	kDa	kDa	NNS
work_kkta46aprvda3kxuww62zfddua	244	4	c	c	NN
work_kkta46aprvda3kxuww62zfddua	244	5	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	244	6	with	with	IN
work_kkta46aprvda3kxuww62zfddua	244	7	four	four	CD
work_kkta46aprvda3kxuww62zfddua	244	8	transmembrane	transmembrane	JJ
work_kkta46aprvda3kxuww62zfddua	244	9	α	α	NNS
work_kkta46aprvda3kxuww62zfddua	244	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	244	11	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	244	12	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	244	13	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	244	14	in	in	IN
work_kkta46aprvda3kxuww62zfddua	244	15	all	all	DT
work_kkta46aprvda3kxuww62zfddua	244	16	species	specie	NNS
work_kkta46aprvda3kxuww62zfddua	244	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	244	18	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	244	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	244	20	Thermococcus	Thermococcus	NNP
work_kkta46aprvda3kxuww62zfddua	244	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	244	22	Methanobrevibacter	Methanobrevibacter	NNP
work_kkta46aprvda3kxuww62zfddua	244	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	244	24	Methanobacterium	Methanobacterium	NNP
work_kkta46aprvda3kxuww62zfddua	244	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	244	26	Desulfurococcus	Desulfurococcus	NNP
work_kkta46aprvda3kxuww62zfddua	244	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	244	28	Staphylothermus	Staphylothermus	NNP
work_kkta46aprvda3kxuww62zfddua	244	29	and	and	CC
work_kkta46aprvda3kxuww62zfddua	244	30	in	in	IN
work_kkta46aprvda3kxuww62zfddua	244	31	Ignisphaera	Ignisphaera	NNP
work_kkta46aprvda3kxuww62zfddua	244	32	aggregans	aggregan	NNS
work_kkta46aprvda3kxuww62zfddua	244	33	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	244	34	86	86	CD
work_kkta46aprvda3kxuww62zfddua	244	35	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	244	36	as	as	RB
work_kkta46aprvda3kxuww62zfddua	244	37	well	well	RB
work_kkta46aprvda3kxuww62zfddua	244	38	as	as	IN
work_kkta46aprvda3kxuww62zfddua	244	39	in	in	IN
work_kkta46aprvda3kxuww62zfddua	244	40	Methanothermobacter	Methanothermobacter	NNP
work_kkta46aprvda3kxuww62zfddua	244	41	thermautotrophicus	thermautotrophicus	NN
work_kkta46aprvda3kxuww62zfddua	244	42	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	244	43	87	87	CD
work_kkta46aprvda3kxuww62zfddua	244	44	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	244	45	and	and	CC
work_kkta46aprvda3kxuww62zfddua	244	46	Methanosphaera	Methanosphaera	NNP
work_kkta46aprvda3kxuww62zfddua	244	47	946	946	CD
work_kkta46aprvda3kxuww62zfddua	244	48	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	244	49	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	244	50	et	et	FW
work_kkta46aprvda3kxuww62zfddua	244	51	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	244	52	.	.	.
work_kkta46aprvda3kxuww62zfddua	245	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	245	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	245	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	245	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	245	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	245	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	245	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	245	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	245	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	245	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	245	11	stadtmanae	stadtmanae	NN
work_kkta46aprvda3kxuww62zfddua	245	12	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	245	13	82,88	82,88	CD
work_kkta46aprvda3kxuww62zfddua	245	14	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	245	15	.	.	.
work_kkta46aprvda3kxuww62zfddua	246	1	Methanocaldococcus	methanocaldococcus	NN
work_kkta46aprvda3kxuww62zfddua	246	2	jannaschii	jannaschii	NN
work_kkta46aprvda3kxuww62zfddua	246	3	and	and	CC
work_kkta46aprvda3kxuww62zfddua	246	4	Methanococcus	Methanococcus	NNP
work_kkta46aprvda3kxuww62zfddua	246	5	maripaludis	maripaludi	NNS
work_kkta46aprvda3kxuww62zfddua	246	6	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	246	7	a	a	DT
work_kkta46aprvda3kxuww62zfddua	246	8	triplicated	triplicate	VBN
work_kkta46aprvda3kxuww62zfddua	246	9	c	c	NN
work_kkta46aprvda3kxuww62zfddua	246	10	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	246	11	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	246	12	a	a	DT
work_kkta46aprvda3kxuww62zfddua	246	13	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	246	14	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	246	15	with	with	IN
work_kkta46aprvda3kxuww62zfddua	246	16	three	three	CD
work_kkta46aprvda3kxuww62zfddua	246	17	hairpins	hairpin	NNS
work_kkta46aprvda3kxuww62zfddua	246	18	and	and	CC
work_kkta46aprvda3kxuww62zfddua	246	19	six	six	CD
work_kkta46aprvda3kxuww62zfddua	246	20	transmembrane	transmembrane	JJ
work_kkta46aprvda3kxuww62zfddua	246	21	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	246	22	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	246	23	with	with	IN
work_kkta46aprvda3kxuww62zfddua	246	24	a	a	DT
work_kkta46aprvda3kxuww62zfddua	246	25	molecular	molecular	JJ
work_kkta46aprvda3kxuww62zfddua	246	26	mass	mass	NN
work_kkta46aprvda3kxuww62zfddua	246	27	of	of	IN
work_kkta46aprvda3kxuww62zfddua	246	28	around	around	IN
work_kkta46aprvda3kxuww62zfddua	246	29	21	21	CD
work_kkta46aprvda3kxuww62zfddua	246	30	kDa	kDa	NNS
work_kkta46aprvda3kxuww62zfddua	246	31	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	246	32	89	89	CD
work_kkta46aprvda3kxuww62zfddua	246	33	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	246	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	247	1	Also	also	RB
work_kkta46aprvda3kxuww62zfddua	247	2	Methanopyrus	Methanopyrus	NNP
work_kkta46aprvda3kxuww62zfddua	247	3	kandleri	kandleri	NN
work_kkta46aprvda3kxuww62zfddua	247	4	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	247	5	very	very	RB
work_kkta46aprvda3kxuww62zfddua	247	6	special	special	JJ
work_kkta46aprvda3kxuww62zfddua	247	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	247	8	because	because	IN
work_kkta46aprvda3kxuww62zfddua	247	9	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	247	10	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	247	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	247	12	only	only	JJ
work_kkta46aprvda3kxuww62zfddua	247	13	organism	organism	NN
work_kkta46aprvda3kxuww62zfddua	247	14	known	know	VBN
work_kkta46aprvda3kxuww62zfddua	247	15	so	so	RB
work_kkta46aprvda3kxuww62zfddua	247	16	far	far	RB
work_kkta46aprvda3kxuww62zfddua	247	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	247	18	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	247	19	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	247	20	a	a	DT
work_kkta46aprvda3kxuww62zfddua	247	21	c	c	NN
work_kkta46aprvda3kxuww62zfddua	247	22	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	247	23	consisting	consisting	NN
work_kkta46aprvda3kxuww62zfddua	247	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	247	25	only	only	RB
work_kkta46aprvda3kxuww62zfddua	247	26	one	one	CD
work_kkta46aprvda3kxuww62zfddua	247	27	c	c	NN
work_kkta46aprvda3kxuww62zfddua	247	28	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	247	29	with	with	IN
work_kkta46aprvda3kxuww62zfddua	247	30	13	13	CD
work_kkta46aprvda3kxuww62zfddua	247	31	hairpins	hairpin	NNS
work_kkta46aprvda3kxuww62zfddua	247	32	and	and	CC
work_kkta46aprvda3kxuww62zfddua	247	33	therefore	therefore	RB
work_kkta46aprvda3kxuww62zfddua	247	34	13	13	CD
work_kkta46aprvda3kxuww62zfddua	247	35	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	247	36	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	247	37	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	247	38	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	247	39	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	247	40	82,90	82,90	CD
work_kkta46aprvda3kxuww62zfddua	247	41	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	247	42	.	.	.
work_kkta46aprvda3kxuww62zfddua	248	1	Although	although	IN
work_kkta46aprvda3kxuww62zfddua	248	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	248	3	variation	variation	NN
work_kkta46aprvda3kxuww62zfddua	248	4	in	in	IN
work_kkta46aprvda3kxuww62zfddua	248	5	size	size	NN
work_kkta46aprvda3kxuww62zfddua	248	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	248	7	already	already	RB
work_kkta46aprvda3kxuww62zfddua	248	8	unique	unique	JJ
work_kkta46aprvda3kxuww62zfddua	248	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	248	10	even	even	RB
work_kkta46aprvda3kxuww62zfddua	248	11	more	more	RBR
work_kkta46aprvda3kxuww62zfddua	248	12	impor-	impor-	JJ
work_kkta46aprvda3kxuww62zfddua	248	13	tant	tant	NN
work_kkta46aprvda3kxuww62zfddua	248	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	248	15	also	also	RB
work_kkta46aprvda3kxuww62zfddua	248	16	for	for	IN
work_kkta46aprvda3kxuww62zfddua	248	17	function	function	NN
work_kkta46aprvda3kxuww62zfddua	248	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	248	19	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	248	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	248	21	variation	variation	NN
work_kkta46aprvda3kxuww62zfddua	248	22	in	in	IN
work_kkta46aprvda3kxuww62zfddua	248	23	number	number	NN
work_kkta46aprvda3kxuww62zfddua	248	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	248	25	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	248	26	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	248	27	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	248	28	image	image	NN
work_kkta46aprvda3kxuww62zfddua	248	29	of	of	IN
work_kkta46aprvda3kxuww62zfddua	248	30	Fig.	Fig.	NNP
work_kkta46aprvda3kxuww62zfddua	248	31	�	�	NNP
work_kkta46aprvda3kxuww62zfddua	248	32	4	4	CD
work_kkta46aprvda3kxuww62zfddua	248	33	947G.	947g.	CD
work_kkta46aprvda3kxuww62zfddua	249	1	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	249	2	et	et	FW
work_kkta46aprvda3kxuww62zfddua	249	3	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	249	4	.	.	.
work_kkta46aprvda3kxuww62zfddua	250	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	250	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	250	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	250	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	250	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	250	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	250	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	250	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	250	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	250	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	250	11	per	per	IN
work_kkta46aprvda3kxuww62zfddua	250	12	c	c	NN
work_kkta46aprvda3kxuww62zfddua	250	13	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	250	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	251	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	251	2	bacterial	bacterial	JJ
work_kkta46aprvda3kxuww62zfddua	251	3	F1FO	f1fo	NN
work_kkta46aprvda3kxuww62zfddua	251	4	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	251	5	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	251	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	251	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	251	8	c	c	NN
work_kkta46aprvda3kxuww62zfddua	251	9	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	251	10	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	251	11	made	make	VBN
work_kkta46aprvda3kxuww62zfddua	251	12	by	by	IN
work_kkta46aprvda3kxuww62zfddua	251	13	mul-	mul-	NNP
work_kkta46aprvda3kxuww62zfddua	251	14	tiple	tiple	JJ
work_kkta46aprvda3kxuww62zfddua	251	15	copies	copy	NNS
work_kkta46aprvda3kxuww62zfddua	251	16	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	251	17	10–15	10–15	CD
work_kkta46aprvda3kxuww62zfddua	251	18	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	251	19	of	of	IN
work_kkta46aprvda3kxuww62zfddua	251	20	one	one	CD
work_kkta46aprvda3kxuww62zfddua	251	21	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	251	22	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	251	23	91	91	CD
work_kkta46aprvda3kxuww62zfddua	251	24	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	251	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	252	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	252	2	16	16	CD
work_kkta46aprvda3kxuww62zfddua	252	3	kDa	kDa	NNS
work_kkta46aprvda3kxuww62zfddua	252	4	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	252	5	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	252	6	with	with	IN
work_kkta46aprvda3kxuww62zfddua	252	7	four	four	CD
work_kkta46aprvda3kxuww62zfddua	252	8	transmembrane	transmembrane	NNS
work_kkta46aprvda3kxuww62zfddua	252	9	α	α	NNS
work_kkta46aprvda3kxuww62zfddua	252	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	252	11	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	252	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	252	13	e.g.	e.g.	RB
work_kkta46aprvda3kxuww62zfddua	253	1	Pyrococci	Pyrococci	NNP
work_kkta46aprvda3kxuww62zfddua	253	2	and	and	CC
work_kkta46aprvda3kxuww62zfddua	253	3	Thermococci	Thermococci	NNP
work_kkta46aprvda3kxuww62zfddua	253	4	lost	lose	VBD
work_kkta46aprvda3kxuww62zfddua	253	5	one	one	CD
work_kkta46aprvda3kxuww62zfddua	253	6	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	253	7	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	253	8	site	site	NN
work_kkta46aprvda3kxuww62zfddua	253	9	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	253	10	86	86	CD
work_kkta46aprvda3kxuww62zfddua	253	11	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	253	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	253	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	253	14	triplicated	triplicate	VBN
work_kkta46aprvda3kxuww62zfddua	253	15	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	253	16	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	253	17	from	from	IN
work_kkta46aprvda3kxuww62zfddua	253	18	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	253	19	jannaschii	jannaschii	NNP
work_kkta46aprvda3kxuww62zfddua	253	20	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	253	21	89	89	CD
work_kkta46aprvda3kxuww62zfddua	253	22	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	253	23	and	and	CC
work_kkta46aprvda3kxuww62zfddua	253	24	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	253	25	maripaludis	maripaludis	NNP
work_kkta46aprvda3kxuww62zfddua	253	26	also	also	RB
work_kkta46aprvda3kxuww62zfddua	253	27	lost	lose	VBD
work_kkta46aprvda3kxuww62zfddua	253	28	one	one	CD
work_kkta46aprvda3kxuww62zfddua	253	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	254	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	254	2	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	254	3	enormous	enormous	JJ
work_kkta46aprvda3kxuww62zfddua	254	4	consequences	consequence	NNS
work_kkta46aprvda3kxuww62zfddua	254	5	for	for	IN
work_kkta46aprvda3kxuww62zfddua	254	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	254	7	function	function	NN
work_kkta46aprvda3kxuww62zfddua	254	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	254	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	254	10	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	254	11	.	.	.
work_kkta46aprvda3kxuww62zfddua	255	1	If	if	IN
work_kkta46aprvda3kxuww62zfddua	255	2	we	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	255	3	consider	consider	VBP
work_kkta46aprvda3kxuww62zfddua	255	4	c	c	NN
work_kkta46aprvda3kxuww62zfddua	255	5	rings	ring	NNS
work_kkta46aprvda3kxuww62zfddua	255	6	to	to	TO
work_kkta46aprvda3kxuww62zfddua	255	7	have	have	VB
work_kkta46aprvda3kxuww62zfddua	255	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	255	9	same	same	JJ
work_kkta46aprvda3kxuww62zfddua	255	10	number	number	NN
work_kkta46aprvda3kxuww62zfddua	255	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	255	12	transmembrane	transmembrane	NNP
work_kkta46aprvda3kxuww62zfddua	255	13	α	α	NNP
work_kkta46aprvda3kxuww62zfddua	255	14	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	255	15	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	255	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	255	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	255	18	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	255	19	rings	ring	NNS
work_kkta46aprvda3kxuww62zfddua	255	20	from	from	IN
work_kkta46aprvda3kxuww62zfddua	255	21	Pyrococci	Pyrococci	NNP
work_kkta46aprvda3kxuww62zfddua	255	22	and	and	CC
work_kkta46aprvda3kxuww62zfddua	255	23	Thermococci	Thermococci	NNP
work_kkta46aprvda3kxuww62zfddua	255	24	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	255	25	only	only	RB
work_kkta46aprvda3kxuww62zfddua	255	26	half	half	PDT
work_kkta46aprvda3kxuww62zfddua	255	27	the	the	DT
work_kkta46aprvda3kxuww62zfddua	255	28	number	number	NN
work_kkta46aprvda3kxuww62zfddua	255	29	of	of	IN
work_kkta46aprvda3kxuww62zfddua	255	30	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	255	31	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	255	32	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	255	33	per	per	IN
work_kkta46aprvda3kxuww62zfddua	255	34	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	255	35	syn-	syn-	NNS
work_kkta46aprvda3kxuww62zfddua	255	36	thesizing	thesize	VBG
work_kkta46aprvda3kxuww62zfddua	255	37	units	unit	NNS
work_kkta46aprvda3kxuww62zfddua	255	38	.	.	.
work_kkta46aprvda3kxuww62zfddua	256	1	According	accord	VBG
work_kkta46aprvda3kxuww62zfddua	256	2	to	to	IN
work_kkta46aprvda3kxuww62zfddua	256	3	:	:	:
work_kkta46aprvda3kxuww62zfddua	256	4	ΔGP	ΔGP	NNP
work_kkta46aprvda3kxuww62zfddua	256	5	¼	¼	NNP
work_kkta46aprvda3kxuww62zfddua	256	6	−n	−n	CD
work_kkta46aprvda3kxuww62zfddua	256	7	�	�	NNP
work_kkta46aprvda3kxuww62zfddua	256	8	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	256	9	�	�	NNP
work_kkta46aprvda3kxuww62zfddua	256	10	Δeμion	Δeμion	NNP
work_kkta46aprvda3kxuww62zfddua	256	11	ð2Þ	ð2Þ	NNP
work_kkta46aprvda3kxuww62zfddua	256	12	where	where	WRB
work_kkta46aprvda3kxuww62zfddua	256	13	ΔGP	ΔGP	NNP
work_kkta46aprvda3kxuww62zfddua	256	14	=	=	SYM
work_kkta46aprvda3kxuww62zfddua	256	15	phosphorylation	phosphorylation	NN
work_kkta46aprvda3kxuww62zfddua	256	16	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	256	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	256	18	n	n	CC
work_kkta46aprvda3kxuww62zfddua	256	19	=	=	SYM
work_kkta46aprvda3kxuww62zfddua	256	20	number	number	NN
work_kkta46aprvda3kxuww62zfddua	256	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	256	22	translocated	translocate	VBN
work_kkta46aprvda3kxuww62zfddua	256	23	ions	ion	NNS
work_kkta46aprvda3kxuww62zfddua	256	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	256	25	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	256	26	=	=	SYM
work_kkta46aprvda3kxuww62zfddua	256	27	Faraday	Faraday	NNP
work_kkta46aprvda3kxuww62zfddua	256	28	constant	constant	NN
work_kkta46aprvda3kxuww62zfddua	256	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	256	30	and	and	CC
work_kkta46aprvda3kxuww62zfddua	256	31	Δeμion	δeμion	NN
work_kkta46aprvda3kxuww62zfddua	256	32	=	=	SYM
work_kkta46aprvda3kxuww62zfddua	256	33	electrochemical	electrochemical	JJ
work_kkta46aprvda3kxuww62zfddua	256	34	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	256	35	of	of	IN
work_kkta46aprvda3kxuww62zfddua	256	36	the	the	DT
work_kkta46aprvda3kxuww62zfddua	256	37	coupling	coupling	NN
work_kkta46aprvda3kxuww62zfddua	256	38	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	256	39	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	256	40	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	256	41	or	or	CC
work_kkta46aprvda3kxuww62zfddua	256	42	H+	H+	NNP
work_kkta46aprvda3kxuww62zfddua	256	43	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	256	44	,	,	,
work_kkta46aprvda3kxuww62zfddua	256	45	the	the	DT
work_kkta46aprvda3kxuww62zfddua	256	46	loss	loss	NN
work_kkta46aprvda3kxuww62zfddua	256	47	of	of	IN
work_kkta46aprvda3kxuww62zfddua	256	48	one	one	CD
work_kkta46aprvda3kxuww62zfddua	256	49	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	256	50	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	256	51	site	site	NN
work_kkta46aprvda3kxuww62zfddua	256	52	in	in	IN
work_kkta46aprvda3kxuww62zfddua	256	53	every	every	DT
work_kkta46aprvda3kxuww62zfddua	256	54	sec-	sec-	JJ
work_kkta46aprvda3kxuww62zfddua	256	55	ond	ond	NN
work_kkta46aprvda3kxuww62zfddua	256	56	hairpin	hairpin	NN
work_kkta46aprvda3kxuww62zfddua	256	57	of	of	IN
work_kkta46aprvda3kxuww62zfddua	256	58	the	the	DT
work_kkta46aprvda3kxuww62zfddua	256	59	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	256	60	would	would	MD
work_kkta46aprvda3kxuww62zfddua	256	61	lower	lower	VB
work_kkta46aprvda3kxuww62zfddua	256	62	the	the	DT
work_kkta46aprvda3kxuww62zfddua	256	63	number	number	NN
work_kkta46aprvda3kxuww62zfddua	256	64	of	of	IN
work_kkta46aprvda3kxuww62zfddua	256	65	ions	ion	NNS
work_kkta46aprvda3kxuww62zfddua	256	66	by	by	IN
work_kkta46aprvda3kxuww62zfddua	256	67	half	half	NN
work_kkta46aprvda3kxuww62zfddua	256	68	.	.	.
work_kkta46aprvda3kxuww62zfddua	257	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	257	2	resulting	result	VBG
work_kkta46aprvda3kxuww62zfddua	257	3	value	value	NN
work_kkta46aprvda3kxuww62zfddua	257	4	for	for	IN
work_kkta46aprvda3kxuww62zfddua	257	5	“	"	``
work_kkta46aprvda3kxuww62zfddua	257	6	n	n	JJ
work_kkta46aprvda3kxuww62zfddua	257	7	”	"	''
work_kkta46aprvda3kxuww62zfddua	257	8	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	257	9	ions	ion	NNS
work_kkta46aprvda3kxuww62zfddua	257	10	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	257	11	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	257	12	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	257	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	257	14	two	two	CD
work_kkta46aprvda3kxuww62zfddua	257	15	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	257	16	not	not	RB
work_kkta46aprvda3kxuww62zfddua	257	17	enough	enough	JJ
work_kkta46aprvda3kxuww62zfddua	257	18	to	to	TO
work_kkta46aprvda3kxuww62zfddua	257	19	generate	generate	VB
work_kkta46aprvda3kxuww62zfddua	257	20	a	a	DT
work_kkta46aprvda3kxuww62zfddua	257	21	phos-	phos-	JJ
work_kkta46aprvda3kxuww62zfddua	257	22	phorylation	phorylation	NN
work_kkta46aprvda3kxuww62zfddua	257	23	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	257	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	257	25	~50	~50	CD
work_kkta46aprvda3kxuww62zfddua	257	26	to	to	IN
work_kkta46aprvda3kxuww62zfddua	257	27	70	70	CD
work_kkta46aprvda3kxuww62zfddua	257	28	kJ	kJ	NNP
work_kkta46aprvda3kxuww62zfddua	257	29	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	257	30	mol	mol	NNP
work_kkta46aprvda3kxuww62zfddua	257	31	and	and	CC
work_kkta46aprvda3kxuww62zfddua	257	32	thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	257	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	257	34	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	257	35	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	257	36	no	no	DT
work_kkta46aprvda3kxuww62zfddua	257	37	lon-	lon-	NN
work_kkta46aprvda3kxuww62zfddua	257	38	ger	ger	NN
work_kkta46aprvda3kxuww62zfddua	257	39	able	able	JJ
work_kkta46aprvda3kxuww62zfddua	257	40	to	to	TO
work_kkta46aprvda3kxuww62zfddua	257	41	pump	pump	VB
work_kkta46aprvda3kxuww62zfddua	257	42	ions	ion	NNS
work_kkta46aprvda3kxuww62zfddua	257	43	against	against	IN
work_kkta46aprvda3kxuww62zfddua	257	44	this	this	DT
work_kkta46aprvda3kxuww62zfddua	257	45	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	257	46	and	and	CC
work_kkta46aprvda3kxuww62zfddua	257	47	thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	257	48	unable	unable	JJ
work_kkta46aprvda3kxuww62zfddua	257	49	to	to	TO
work_kkta46aprvda3kxuww62zfddua	257	50	synthesize	synthesize	VB
work_kkta46aprvda3kxuww62zfddua	257	51	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	257	52	.	.	.
work_kkta46aprvda3kxuww62zfddua	258	1	Since	since	IN
work_kkta46aprvda3kxuww62zfddua	258	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	258	3	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	258	4	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	258	5	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	258	6	from	from	IN
work_kkta46aprvda3kxuww62zfddua	258	7	Pyrococci	Pyrococci	NNP
work_kkta46aprvda3kxuww62zfddua	258	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	258	9	Thermococci	Thermococci	NNP
work_kkta46aprvda3kxuww62zfddua	258	10	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	258	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	258	12	only	only	JJ
work_kkta46aprvda3kxuww62zfddua	258	13	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	258	14	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	258	15	encoded	encode	VBN
work_kkta46aprvda3kxuww62zfddua	258	16	in	in	IN
work_kkta46aprvda3kxuww62zfddua	258	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	258	18	genome	genome	NN
work_kkta46aprvda3kxuww62zfddua	258	19	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	258	20	92	92	CD
work_kkta46aprvda3kxuww62zfddua	258	21	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	258	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	258	23	they	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	258	24	must	must	MD
work_kkta46aprvda3kxuww62zfddua	258	25	synthesize	synthesize	VB
work_kkta46aprvda3kxuww62zfddua	258	26	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	258	27	at	at	IN
work_kkta46aprvda3kxuww62zfddua	258	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	258	29	expense	expense	NN
work_kkta46aprvda3kxuww62zfddua	258	30	of	of	IN
work_kkta46aprvda3kxuww62zfddua	258	31	Δeμion	Δeμion	NNP
work_kkta46aprvda3kxuww62zfddua	258	32	in	in	IN
work_kkta46aprvda3kxuww62zfddua	258	33	vivo	vivo	NNP
work_kkta46aprvda3kxuww62zfddua	258	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	259	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	259	2	solution	solution	NN
work_kkta46aprvda3kxuww62zfddua	259	3	to	to	IN
work_kkta46aprvda3kxuww62zfddua	259	4	this	this	DT
work_kkta46aprvda3kxuww62zfddua	259	5	enigma	enigma	NNP
work_kkta46aprvda3kxuww62zfddua	259	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	259	7	a	a	DT
work_kkta46aprvda3kxuww62zfddua	259	8	c	c	NN
work_kkta46aprvda3kxuww62zfddua	259	9	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	259	10	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	259	11	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	259	12	more	more	JJR
work_kkta46aprvda3kxuww62zfddua	259	13	c	c	NN
work_kkta46aprvda3kxuww62zfddua	259	14	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	259	15	and	and	CC
work_kkta46aprvda3kxuww62zfddua	259	16	indeed	indeed	RB
work_kkta46aprvda3kxuww62zfddua	259	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	259	18	circumstantial	circumstantial	JJ
work_kkta46aprvda3kxuww62zfddua	259	19	evidence	evidence	NN
work_kkta46aprvda3kxuww62zfddua	259	20	point	point	NN
work_kkta46aprvda3kxuww62zfddua	259	21	to	to	IN
work_kkta46aprvda3kxuww62zfddua	259	22	a	a	DT
work_kkta46aprvda3kxuww62zfddua	259	23	c10	c10	NN
work_kkta46aprvda3kxuww62zfddua	259	24	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	259	25	in	in	IN
work_kkta46aprvda3kxuww62zfddua	259	26	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	259	27	furiosus	furiosus	IN
work_kkta46aprvda3kxuww62zfddua	259	28	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	259	29	47	47	CD
work_kkta46aprvda3kxuww62zfddua	259	30	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	259	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	260	1	5	5	CD
work_kkta46aprvda3kxuww62zfddua	260	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	261	1	Ion	ion	VB
work_kkta46aprvda3kxuww62zfddua	261	2	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	261	3	and	and	CC
work_kkta46aprvda3kxuww62zfddua	261	4	-specificity	-specificity	NN
work_kkta46aprvda3kxuww62zfddua	261	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	261	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	261	7	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	261	8	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	261	9	of	of	IN
work_kkta46aprvda3kxuww62zfddua	261	10	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	261	11	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	261	12	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	261	13	The	the	DT
work_kkta46aprvda3kxuww62zfddua	261	14	c	c	NN
work_kkta46aprvda3kxuww62zfddua	261	15	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	261	16	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	261	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	261	18	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	261	19	carrier	carrier	NN
work_kkta46aprvda3kxuww62zfddua	261	20	and	and	CC
work_kkta46aprvda3kxuww62zfddua	261	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	261	22	primary	primary	JJ
work_kkta46aprvda3kxuww62zfddua	261	23	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	261	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	261	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	261	26	c	c	NN
work_kkta46aprvda3kxuww62zfddua	261	27	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	261	28	de-	de-	XX
work_kkta46aprvda3kxuww62zfddua	261	29	termines	termine	NNS
work_kkta46aprvda3kxuww62zfddua	261	30	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	261	31	ion	ion	VBP
work_kkta46aprvda3kxuww62zfddua	261	32	binds	bind	NNS
work_kkta46aprvda3kxuww62zfddua	261	33	to	to	IN
work_kkta46aprvda3kxuww62zfddua	261	34	the	the	DT
work_kkta46aprvda3kxuww62zfddua	261	35	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	261	36	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	261	37	.	.	.
work_kkta46aprvda3kxuww62zfddua	262	1	c	c	LS
work_kkta46aprvda3kxuww62zfddua	262	2	rings	ring	NNS
work_kkta46aprvda3kxuww62zfddua	262	3	from	from	IN
work_kkta46aprvda3kxuww62zfddua	262	4	most	most	JJS
work_kkta46aprvda3kxuww62zfddua	262	5	archaea	archaea	VBN
work_kkta46aprvda3kxuww62zfddua	262	6	and	and	CC
work_kkta46aprvda3kxuww62zfddua	262	7	bacteria	bacteria	NNS
work_kkta46aprvda3kxuww62zfddua	262	8	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	262	9	proton	proton	NNP
work_kkta46aprvda3kxuww62zfddua	262	10	selective	selective	NNP
work_kkta46aprvda3kxuww62zfddua	262	11	and	and	CC
work_kkta46aprvda3kxuww62zfddua	262	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	262	13	proton	proton	NNP
work_kkta46aprvda3kxuww62zfddua	262	14	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	262	15	site	site	NN
work_kkta46aprvda3kxuww62zfddua	262	16	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	262	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	262	18	con-	con-	NN
work_kkta46aprvda3kxuww62zfddua	262	19	served	serve	VBD
work_kkta46aprvda3kxuww62zfddua	262	20	carboxylate	carboxylate	JJ
work_kkta46aprvda3kxuww62zfddua	262	21	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	262	22	Glu	Glu	NNP
work_kkta46aprvda3kxuww62zfddua	262	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	262	24	Asp	Asp	NNP
work_kkta46aprvda3kxuww62zfddua	262	25	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	262	26	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	262	27	in	in	IN
work_kkta46aprvda3kxuww62zfddua	262	28	helix	helix	JJ
work_kkta46aprvda3kxuww62zfddua	262	29	two	two	CD
work_kkta46aprvda3kxuww62zfddua	262	30	of	of	IN
work_kkta46aprvda3kxuww62zfddua	262	31	the	the	DT
work_kkta46aprvda3kxuww62zfddua	262	32	8	8	CD
work_kkta46aprvda3kxuww62zfddua	262	33	kDa	kDa	NNS
work_kkta46aprvda3kxuww62zfddua	262	34	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	262	35	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	262	36	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	262	37	93	93	CD
work_kkta46aprvda3kxuww62zfddua	262	38	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	262	39	.	.	.
work_kkta46aprvda3kxuww62zfddua	263	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	263	2	H+	h+	NN
work_kkta46aprvda3kxuww62zfddua	263	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	263	4	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	263	5	between	between	IN
work_kkta46aprvda3kxuww62zfddua	263	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	263	7	carboxyl	carboxyl	NN
work_kkta46aprvda3kxuww62zfddua	263	8	oxygen	oxygen	NN
work_kkta46aprvda3kxuww62zfddua	263	9	of	of	IN
work_kkta46aprvda3kxuww62zfddua	263	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	263	11	conserved	conserve	VBN
work_kkta46aprvda3kxuww62zfddua	263	12	carboxylate	carboxylate	NN
work_kkta46aprvda3kxuww62zfddua	263	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	263	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	263	15	main	main	JJ
work_kkta46aprvda3kxuww62zfddua	263	16	chain	chain	NN
work_kkta46aprvda3kxuww62zfddua	263	17	carbonyl	carbonyl	NN
work_kkta46aprvda3kxuww62zfddua	263	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	263	19	another	another	DT
work_kkta46aprvda3kxuww62zfddua	263	20	amino	amino	JJ
work_kkta46aprvda3kxuww62zfddua	263	21	acid	acid	NN
work_kkta46aprvda3kxuww62zfddua	263	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	263	23	for	for	IN
work_kkta46aprvda3kxuww62zfddua	263	24	ex-	ex-	XX
work_kkta46aprvda3kxuww62zfddua	263	25	ample	ample	JJ
work_kkta46aprvda3kxuww62zfddua	263	26	phenylalanine	phenylalanine	NN
work_kkta46aprvda3kxuww62zfddua	263	27	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	263	28	93	93	CD
work_kkta46aprvda3kxuww62zfddua	263	29	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	263	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	264	1	Very	very	RB
work_kkta46aprvda3kxuww62zfddua	264	2	few	few	JJ
work_kkta46aprvda3kxuww62zfddua	264	3	c	c	NN
work_kkta46aprvda3kxuww62zfddua	264	4	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	264	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	264	6	notably	notably	RB
work_kkta46aprvda3kxuww62zfddua	264	7	from	from	IN
work_kkta46aprvda3kxuww62zfddua	264	8	anaerobic	anaerobic	JJ
work_kkta46aprvda3kxuww62zfddua	264	9	bacteria	bacteria	NNS
work_kkta46aprvda3kxuww62zfddua	264	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	264	11	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	264	12	use	use	VBP
work_kkta46aprvda3kxuww62zfddua	264	13	Na+	na+	RB
work_kkta46aprvda3kxuww62zfddua	264	14	instead	instead	RB
work_kkta46aprvda3kxuww62zfddua	264	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	264	16	H+	h+	$
work_kkta46aprvda3kxuww62zfddua	264	17	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	264	18	94,95	94,95	CD
work_kkta46aprvda3kxuww62zfddua	264	19	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	264	20	.	.	.
work_kkta46aprvda3kxuww62zfddua	265	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	265	2	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	265	3	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	265	4	site	site	NN
work_kkta46aprvda3kxuww62zfddua	265	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	265	6	e.g.	e.g.	RB
work_kkta46aprvda3kxuww62zfddua	266	1	Ilyobacter	ilyobacter	NN
work_kkta46aprvda3kxuww62zfddua	266	2	tartaricus	tartaricus	NN
work_kkta46aprvda3kxuww62zfddua	266	3	contains	contain	VBZ
work_kkta46aprvda3kxuww62zfddua	266	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	266	5	before	before	RB
work_kkta46aprvda3kxuww62zfddua	266	6	mentioned	mention	VBN
work_kkta46aprvda3kxuww62zfddua	266	7	carboxyl-	carboxyl-	NN
work_kkta46aprvda3kxuww62zfddua	266	8	ate	eat	VBD
work_kkta46aprvda3kxuww62zfddua	266	9	and	and	CC
work_kkta46aprvda3kxuww62zfddua	266	10	three	three	CD
work_kkta46aprvda3kxuww62zfddua	266	11	more	more	JJR
work_kkta46aprvda3kxuww62zfddua	266	12	amino	amino	NN
work_kkta46aprvda3kxuww62zfddua	266	13	acid	acid	NN
work_kkta46aprvda3kxuww62zfddua	266	14	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	266	15	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	266	16	coordinate	coordinate	VBP
work_kkta46aprvda3kxuww62zfddua	266	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	266	18	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	266	19	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	266	20	96,97	96,97	CD
work_kkta46aprvda3kxuww62zfddua	266	21	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	266	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	267	1	These	these	DT
work_kkta46aprvda3kxuww62zfddua	267	2	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	267	3	:	:	:
work_kkta46aprvda3kxuww62zfddua	267	4	Q32	Q32	NNP
work_kkta46aprvda3kxuww62zfddua	267	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	267	6	V63	V63	NNP
work_kkta46aprvda3kxuww62zfddua	267	7	and	and	CC
work_kkta46aprvda3kxuww62zfddua	267	8	S66	S66	NNP
work_kkta46aprvda3kxuww62zfddua	267	9	.	.	.
work_kkta46aprvda3kxuww62zfddua	268	1	Y70	y70	NN
work_kkta46aprvda3kxuww62zfddua	268	2	forms	form	VBZ
work_kkta46aprvda3kxuww62zfddua	268	3	a	a	DT
work_kkta46aprvda3kxuww62zfddua	268	4	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	268	5	bond	bond	NN
work_kkta46aprvda3kxuww62zfddua	268	6	with	with	IN
work_kkta46aprvda3kxuww62zfddua	268	7	E65	E65	NNP
work_kkta46aprvda3kxuww62zfddua	268	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	268	9	stabilizes	stabilize	VBZ
work_kkta46aprvda3kxuww62zfddua	268	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	268	11	geometry	geometry	NN
work_kkta46aprvda3kxuww62zfddua	268	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	268	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	268	14	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	268	15	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	268	16	shell	shell	NN
work_kkta46aprvda3kxuww62zfddua	268	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	268	18	but	but	CC
work_kkta46aprvda3kxuww62zfddua	268	19	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	268	20	not	not	RB
work_kkta46aprvda3kxuww62zfddua	268	21	directly	directly	RB
work_kkta46aprvda3kxuww62zfddua	268	22	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	268	23	in	in	IN
work_kkta46aprvda3kxuww62zfddua	268	24	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	268	25	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	268	26	.	.	.
work_kkta46aprvda3kxuww62zfddua	269	1	T67	T67	NNP
work_kkta46aprvda3kxuww62zfddua	269	2	itself	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	269	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	269	4	also	also	RB
work_kkta46aprvda3kxuww62zfddua	269	5	not	not	RB
work_kkta46aprvda3kxuww62zfddua	269	6	directly	directly	RB
work_kkta46aprvda3kxuww62zfddua	269	7	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	269	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	269	9	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	269	10	binding	binding	JJ
work_kkta46aprvda3kxuww62zfddua	269	11	but	but	CC
work_kkta46aprvda3kxuww62zfddua	269	12	coordinates	coordinate	VBZ
work_kkta46aprvda3kxuww62zfddua	269	13	a	a	DT
work_kkta46aprvda3kxuww62zfddua	269	14	buried	bury	VBN
work_kkta46aprvda3kxuww62zfddua	269	15	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	269	16	water	water	NN
work_kkta46aprvda3kxuww62zfddua	269	17	molecule	molecule	NN
work_kkta46aprvda3kxuww62zfddua	269	18	in	in	IN
work_kkta46aprvda3kxuww62zfddua	269	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	269	20	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	269	21	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	269	22	site	site	NN
work_kkta46aprvda3kxuww62zfddua	269	23	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	269	24	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	269	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	270	1	4B	4B	NNP
work_kkta46aprvda3kxuww62zfddua	270	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	270	3	inset	inset	NNP
work_kkta46aprvda3kxuww62zfddua	270	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	270	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	270	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	271	1	Of	of	IN
work_kkta46aprvda3kxuww62zfddua	271	2	these	these	DT
work_kkta46aprvda3kxuww62zfddua	271	3	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	271	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	271	5	only	only	RB
work_kkta46aprvda3kxuww62zfddua	271	6	three	three	CD
work_kkta46aprvda3kxuww62zfddua	271	7	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	271	8	ade-	ade-	RB
work_kkta46aprvda3kxuww62zfddua	271	9	quately	quately	RB
work_kkta46aprvda3kxuww62zfddua	271	10	conserved	conserve	VBN
work_kkta46aprvda3kxuww62zfddua	271	11	to	to	TO
work_kkta46aprvda3kxuww62zfddua	271	12	be	be	VB
work_kkta46aprvda3kxuww62zfddua	271	13	spotted	spot	VBN
work_kkta46aprvda3kxuww62zfddua	271	14	by	by	IN
work_kkta46aprvda3kxuww62zfddua	271	15	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	271	16	comparisons	comparison	NNS
work_kkta46aprvda3kxuww62zfddua	271	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	272	1	These	these	DT
work_kkta46aprvda3kxuww62zfddua	272	2	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	272	3	Q32	Q32	NNP
work_kkta46aprvda3kxuww62zfddua	272	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	272	5	E65	E65	NNP
work_kkta46aprvda3kxuww62zfddua	272	6	and	and	CC
work_kkta46aprvda3kxuww62zfddua	272	7	S66	S66	NNP
work_kkta46aprvda3kxuww62zfddua	272	8	.	.	.
work_kkta46aprvda3kxuww62zfddua	273	1	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	273	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	273	3	substituted	substitute	VBN
work_kkta46aprvda3kxuww62zfddua	273	4	and	and	CC
work_kkta46aprvda3kxuww62zfddua	273	5	functionally	functionally	RB
work_kkta46aprvda3kxuww62zfddua	273	6	conserved	conserve	VBN
work_kkta46aprvda3kxuww62zfddua	273	7	by	by	IN
work_kkta46aprvda3kxuww62zfddua	273	8	E	e	NN
work_kkta46aprvda3kxuww62zfddua	273	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	273	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	273	11	S	s	NN
work_kkta46aprvda3kxuww62zfddua	273	12	by	by	IN
work_kkta46aprvda3kxuww62zfddua	273	13	T	t	NN
work_kkta46aprvda3kxuww62zfddua	273	14	in	in	IN
work_kkta46aprvda3kxuww62zfddua	273	15	some	some	DT
work_kkta46aprvda3kxuww62zfddua	273	16	species	specie	NNS
work_kkta46aprvda3kxuww62zfddua	273	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	274	1	Thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	274	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	274	3	minimal	minimal	JJ
work_kkta46aprvda3kxuww62zfddua	274	4	and	and	CC
work_kkta46aprvda3kxuww62zfddua	274	5	sufficient	sufficient	JJ
work_kkta46aprvda3kxuww62zfddua	274	6	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	274	7	for	for	IN
work_kkta46aprvda3kxuww62zfddua	274	8	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	274	9	binding	binding	JJ
work_kkta46aprvda3kxuww62zfddua	274	10	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	274	11	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	274	12	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	274	13	E	E	NNS
work_kkta46aprvda3kxuww62zfddua	274	14	…	…	NFP
work_kkta46aprvda3kxuww62zfddua	274	15	E	e	NN
work_kkta46aprvda3kxuww62zfddua	274	16	T	t	NN
work_kkta46aprvda3kxuww62zfddua	274	17	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	274	18	S.	s.	NN
work_kkta46aprvda3kxuww62zfddua	275	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	275	2	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	275	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	275	4	also	also	RB
work_kkta46aprvda3kxuww62zfddua	275	5	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	275	6	in	in	IN
work_kkta46aprvda3kxuww62zfddua	275	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	275	8	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	275	9	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	275	10	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	275	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	275	12	some	some	DT
work_kkta46aprvda3kxuww62zfddua	275	13	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	275	14	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	275	15	see	see	VB
work_kkta46aprvda3kxuww62zfddua	275	16	below	below	RB
work_kkta46aprvda3kxuww62zfddua	275	17	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	275	18	as	as	RB
work_kkta46aprvda3kxuww62zfddua	275	19	well	well	RB
work_kkta46aprvda3kxuww62zfddua	275	20	as	as	IN
work_kkta46aprvda3kxuww62zfddua	275	21	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	275	22	hirae	hirae	NNP
work_kkta46aprvda3kxuww62zfddua	275	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	276	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	276	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	276	3	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	276	4	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	276	5	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	276	6	c	c	NN
work_kkta46aprvda3kxuww62zfddua	276	7	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	276	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	276	9	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	276	10	hirae	hirae	NNP
work_kkta46aprvda3kxuww62zfddua	276	11	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	276	12	also	also	RB
work_kkta46aprvda3kxuww62zfddua	276	13	called	call	VBN
work_kkta46aprvda3kxuww62zfddua	276	14	“	"	``
work_kkta46aprvda3kxuww62zfddua	276	15	bacterial	bacterial	JJ
work_kkta46aprvda3kxuww62zfddua	276	16	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	276	17	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	276	18	”	"	''
work_kkta46aprvda3kxuww62zfddua	276	19	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	276	20	a	a	DT
work_kkta46aprvda3kxuww62zfddua	276	21	similar	similar	JJ
work_kkta46aprvda3kxuww62zfddua	276	22	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	276	23	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	276	24	site	site	NN
work_kkta46aprvda3kxuww62zfddua	276	25	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	276	26	observed	observe	VBN
work_kkta46aprvda3kxuww62zfddua	276	27	with	with	IN
work_kkta46aprvda3kxuww62zfddua	276	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	276	29	essential	essential	JJ
work_kkta46aprvda3kxuww62zfddua	276	30	carboxylate	carboxylate	NN
work_kkta46aprvda3kxuww62zfddua	276	31	E139	E139	NNP
work_kkta46aprvda3kxuww62zfddua	276	32	as	as	RB
work_kkta46aprvda3kxuww62zfddua	276	33	well	well	RB
work_kkta46aprvda3kxuww62zfddua	276	34	as	as	IN
work_kkta46aprvda3kxuww62zfddua	276	35	Q110	Q110	NNP
work_kkta46aprvda3kxuww62zfddua	276	36	,	,	,
work_kkta46aprvda3kxuww62zfddua	276	37	L61	L61	NNP
work_kkta46aprvda3kxuww62zfddua	276	38	,	,	,
work_kkta46aprvda3kxuww62zfddua	276	39	T64	T64	NNP
work_kkta46aprvda3kxuww62zfddua	276	40	and	and	CC
work_kkta46aprvda3kxuww62zfddua	276	41	Q65	Q65	NNP
work_kkta46aprvda3kxuww62zfddua	276	42	,	,	,
work_kkta46aprvda3kxuww62zfddua	276	43	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	276	44	form	form	VBP
work_kkta46aprvda3kxuww62zfddua	276	45	the	the	DT
work_kkta46aprvda3kxuww62zfddua	276	46	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	276	47	coordina-	coordina-	FW
work_kkta46aprvda3kxuww62zfddua	276	48	tion	tion	NN
work_kkta46aprvda3kxuww62zfddua	276	49	shell	shell	NN
work_kkta46aprvda3kxuww62zfddua	276	50	and	and	CC
work_kkta46aprvda3kxuww62zfddua	276	51	Y68	Y68	NNP
work_kkta46aprvda3kxuww62zfddua	276	52	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	276	53	makes	make	VBZ
work_kkta46aprvda3kxuww62zfddua	276	54	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	276	55	bonding	bond	VBG
work_kkta46aprvda3kxuww62zfddua	276	56	interaction	interaction	NN
work_kkta46aprvda3kxuww62zfddua	276	57	with	with	IN
work_kkta46aprvda3kxuww62zfddua	276	58	E139	E139	NNP
work_kkta46aprvda3kxuww62zfddua	276	59	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	276	60	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	276	61	.	.	.
work_kkta46aprvda3kxuww62zfddua	277	1	4C	4C	NNP
work_kkta46aprvda3kxuww62zfddua	277	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	277	3	inset	inset	NNP
work_kkta46aprvda3kxuww62zfddua	277	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	277	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	277	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	278	1	As	as	IN
work_kkta46aprvda3kxuww62zfddua	278	2	pointed	point	VBN
work_kkta46aprvda3kxuww62zfddua	278	3	out	out	RP
work_kkta46aprvda3kxuww62zfddua	278	4	above	above	RB
work_kkta46aprvda3kxuww62zfddua	278	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	278	6	due	due	IN
work_kkta46aprvda3kxuww62zfddua	278	7	to	to	IN
work_kkta46aprvda3kxuww62zfddua	278	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	278	9	variation	variation	NN
work_kkta46aprvda3kxuww62zfddua	278	10	in	in	IN
work_kkta46aprvda3kxuww62zfddua	278	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	278	12	number	number	NN
work_kkta46aprvda3kxuww62zfddua	278	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	278	14	protomers	protomer	NNS
work_kkta46aprvda3kxuww62zfddua	278	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	278	16	diameters	diameter	NNS
work_kkta46aprvda3kxuww62zfddua	278	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	278	18	these	these	DT
work_kkta46aprvda3kxuww62zfddua	278	19	c	c	NN
work_kkta46aprvda3kxuww62zfddua	278	20	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	278	21	rotors	rotor	NNS
work_kkta46aprvda3kxuww62zfddua	278	22	differ	differ	VBP
work_kkta46aprvda3kxuww62zfddua	278	23	from	from	IN
work_kkta46aprvda3kxuww62zfddua	278	24	organism	organism	NN
work_kkta46aprvda3kxuww62zfddua	278	25	to	to	IN
work_kkta46aprvda3kxuww62zfddua	278	26	organism	organism	NN
work_kkta46aprvda3kxuww62zfddua	278	27	.	.	.
work_kkta46aprvda3kxuww62zfddua	279	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	279	2	significant	significant	JJ
work_kkta46aprvda3kxuww62zfddua	279	3	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	279	4	difference	difference	NN
work_kkta46aprvda3kxuww62zfddua	279	5	between	between	IN
work_kkta46aprvda3kxuww62zfddua	279	6	c	c	NN
work_kkta46aprvda3kxuww62zfddua	279	7	rings	ring	NNS
work_kkta46aprvda3kxuww62zfddua	279	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	279	9	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	279	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	279	11	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	279	12	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	279	13	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	279	14	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	279	15	represented	represent	VBN
work_kkta46aprvda3kxuww62zfddua	279	16	by	by	IN
work_kkta46aprvda3kxuww62zfddua	279	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	279	18	comparison	comparison	NN
work_kkta46aprvda3kxuww62zfddua	279	19	of	of	IN
work_kkta46aprvda3kxuww62zfddua	279	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	279	21	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	279	22	+	+	RB
work_kkta46aprvda3kxuww62zfddua	279	23	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	279	24	translocating	translocate	VBG
work_kkta46aprvda3kxuww62zfddua	279	25	undecameric	undecameric	JJ
work_kkta46aprvda3kxuww62zfddua	279	26	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	279	27	of	of	IN
work_kkta46aprvda3kxuww62zfddua	279	28	I.	i.	NN
work_kkta46aprvda3kxuww62zfddua	279	29	tartaricus	tartaricus	NN
work_kkta46aprvda3kxuww62zfddua	279	30	c	c	NN
work_kkta46aprvda3kxuww62zfddua	279	31	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	279	32	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	279	33	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	279	34	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	279	35	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	279	36	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	279	37	and	and	CC
work_kkta46aprvda3kxuww62zfddua	279	38	the	the	DT
work_kkta46aprvda3kxuww62zfddua	279	39	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	279	40	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	279	41	of	of	IN
work_kkta46aprvda3kxuww62zfddua	279	42	the	the	DT
work_kkta46aprvda3kxuww62zfddua	279	43	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	279	44	hirae	hirae	NN
work_kkta46aprvda3kxuww62zfddua	279	45	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	279	46	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	279	47	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	279	48	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	279	49	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	279	50	.	.	.
work_kkta46aprvda3kxuww62zfddua	280	1	4	4	LS
work_kkta46aprvda3kxuww62zfddua	280	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	280	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	281	1	Whereas	whereas	IN
work_kkta46aprvda3kxuww62zfddua	281	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	281	3	I.	i.	NN
work_kkta46aprvda3kxuww62zfddua	282	1	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	282	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	283	1	4	4	LS
work_kkta46aprvda3kxuww62zfddua	283	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	284	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	284	2	A	a	NN
work_kkta46aprvda3kxuww62zfddua	284	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	284	4	The	the	DT
work_kkta46aprvda3kxuww62zfddua	284	5	three	three	CD
work_kkta46aprvda3kxuww62zfddua	284	6	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	284	7	dimensional	dimensional	JJ
work_kkta46aprvda3kxuww62zfddua	284	8	EM	EM	NNP
work_kkta46aprvda3kxuww62zfddua	284	9	map	map	NN
work_kkta46aprvda3kxuww62zfddua	284	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	284	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	284	12	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	284	13	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	284	14	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	284	15	at	at	IN
work_kkta46aprvda3kxuww62zfddua	284	16	9.7	9.7	CD
work_kkta46aprvda3kxuww62zfddua	284	17	Å	å	NN
work_kkta46aprvda3kxuww62zfddua	284	18	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	284	19	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	284	20	EM	em	NN
work_kkta46aprvda3kxuww62zfddua	284	21	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	284	22	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	284	23	wheat	wheat	NN
work_kkta46aprvda3kxuww62zfddua	284	24	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	284	25	and	and	CC
work_kkta46aprvda3kxuww62zfddua	284	26	subunit	subunit	VBD
work_kkta46aprvda3kxuww62zfddua	284	27	a	a	DT
work_kkta46aprvda3kxuww62zfddua	284	28	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	284	29	yellow	yellow	JJ
work_kkta46aprvda3kxuww62zfddua	284	30	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	284	31	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	284	32	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	284	33	as	as	IN
work_kkta46aprvda3kxuww62zfddua	284	34	solid	solid	JJ
work_kkta46aprvda3kxuww62zfddua	284	35	surface	surface	NN
work_kkta46aprvda3kxuww62zfddua	284	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	285	1	Two	two	CD
work_kkta46aprvda3kxuww62zfddua	285	2	cross	cross	NN
work_kkta46aprvda3kxuww62zfddua	285	3	-	-	NNS
work_kkta46aprvda3kxuww62zfddua	285	4	sections	section	NNS
work_kkta46aprvda3kxuww62zfddua	285	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	285	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	285	7	map	map	NN
work_kkta46aprvda3kxuww62zfddua	285	8	s	s	NNP
work_kkta46aprvda3kxuww62zfddua	285	9	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	285	10	at	at	IN
work_kkta46aprvda3kxuww62zfddua	285	11	two	two	CD
work_kkta46aprvda3kxuww62zfddua	285	12	positions	position	NNS
work_kkta46aprvda3kxuww62zfddua	285	13	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	285	14	indicated	indicate	VBN
work_kkta46aprvda3kxuww62zfddua	285	15	by	by	IN
work_kkta46aprvda3kxuww62zfddua	285	16	red	red	JJ
work_kkta46aprvda3kxuww62zfddua	285	17	arrows	arrow	NNS
work_kkta46aprvda3kxuww62zfddua	285	18	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	285	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	286	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	286	2	B	b	NN
work_kkta46aprvda3kxuww62zfddua	286	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	286	4	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	286	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	286	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	286	7	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	286	8	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	286	9	of	of	IN
work_kkta46aprvda3kxuww62zfddua	286	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	286	11	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	286	12	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	286	13	syn	syn	NN
work_kkta46aprvda3kxuww62zfddua	286	14	glass	glass	NN
work_kkta46aprvda3kxuww62zfddua	286	15	shaped	shape	VBD
work_kkta46aprvda3kxuww62zfddua	286	16	complex	complex	JJ
work_kkta46aprvda3kxuww62zfddua	286	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	287	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	287	2	inset	inset	NN
work_kkta46aprvda3kxuww62zfddua	287	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	287	4	Sodium	Sodium	NNP
work_kkta46aprvda3kxuww62zfddua	287	5	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	287	6	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	287	7	site	site	NN
work_kkta46aprvda3kxuww62zfddua	287	8	with	with	IN
work_kkta46aprvda3kxuww62zfddua	287	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	287	10	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	287	11	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	287	12	shell	shell	NNP
work_kkta46aprvda3kxuww62zfddua	287	13	formed	form	VBD
work_kkta46aprvda3kxuww62zfddua	287	14	b	b	NNP
work_kkta46aprvda3kxuww62zfddua	287	15	ometry	ometry	NN
work_kkta46aprvda3kxuww62zfddua	287	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	288	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	288	2	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	288	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	288	4	The	the	DT
work_kkta46aprvda3kxuww62zfddua	288	5	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	288	6	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	288	7	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	288	8	c	c	NN
work_kkta46aprvda3kxuww62zfddua	288	9	ring	ring	VB
work_kkta46aprvda3kxuww62zfddua	288	10	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	288	11	from	from	IN
work_kkta46aprvda3kxuww62zfddua	288	12	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	288	13	hirae	hirae	NNP
work_kkta46aprvda3kxuww62zfddua	288	14	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	288	15	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	288	16	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	288	17	:	:	:
work_kkta46aprvda3kxuww62zfddua	288	18	2BL2	2bl2	CD
work_kkta46aprvda3kxuww62zfddua	288	19	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	288	20	96	96	CD
work_kkta46aprvda3kxuww62zfddua	288	21	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	288	22	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	288	23	revealing	reveal	VBG
work_kkta46aprvda3kxuww62zfddua	288	24	shaped	shape	VBN
work_kkta46aprvda3kxuww62zfddua	288	25	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	288	26	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	288	27	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	288	28	left	leave	VBN
work_kkta46aprvda3kxuww62zfddua	288	29	;	;	:
work_kkta46aprvda3kxuww62zfddua	288	30	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	288	31	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	288	32	:	:	:
work_kkta46aprvda3kxuww62zfddua	288	33	1R5Z	1r5z	CD
work_kkta46aprvda3kxuww62zfddua	288	34	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	288	35	51	51	CD
work_kkta46aprvda3kxuww62zfddua	288	36	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	288	37	;	;	:
work_kkta46aprvda3kxuww62zfddua	288	38	blue	blue	NNP
work_kkta46aprvda3kxuww62zfddua	288	39	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	288	40	.	.	.
work_kkta46aprvda3kxuww62zfddua	289	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	289	2	inset	inset	NN
work_kkta46aprvda3kxuww62zfddua	289	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	289	4	Sodium	Sodium	NNP
work_kkta46aprvda3kxuww62zfddua	289	5	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	289	6	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	289	7	site	site	NN
work_kkta46aprvda3kxuww62zfddua	289	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	289	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	289	10	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	289	11	hirae	hirae	NN
work_kkta46aprvda3kxuww62zfddua	289	12	c	c	NN
work_kkta46aprvda3kxuww62zfddua	289	13	Q65	Q65	NNP
work_kkta46aprvda3kxuww62zfddua	289	14	and	and	CC
work_kkta46aprvda3kxuww62zfddua	289	15	Y68	Y68	NNP
work_kkta46aprvda3kxuww62zfddua	289	16	having	have	VBG
work_kkta46aprvda3kxuww62zfddua	289	17	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	289	18	bonding	bond	VBG
work_kkta46aprvda3kxuww62zfddua	289	19	interaction	interaction	NN
work_kkta46aprvda3kxuww62zfddua	289	20	with	with	IN
work_kkta46aprvda3kxuww62zfddua	289	21	E139	E139	NNP
work_kkta46aprvda3kxuww62zfddua	289	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	290	1	tartaricus	tartaricus	NNP
work_kkta46aprvda3kxuww62zfddua	290	2	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	290	3	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	290	4	forms	form	NNS
work_kkta46aprvda3kxuww62zfddua	290	5	a	a	DT
work_kkta46aprvda3kxuww62zfddua	290	6	cylindrical	cylindrical	JJ
work_kkta46aprvda3kxuww62zfddua	290	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	290	8	hourglass	hourglass	NN
work_kkta46aprvda3kxuww62zfddua	290	9	shaped	shaped	JJ
work_kkta46aprvda3kxuww62zfddua	290	10	protein	protein	NN
work_kkta46aprvda3kxuww62zfddua	290	11	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	290	12	with	with	IN
work_kkta46aprvda3kxuww62zfddua	290	13	an	an	DT
work_kkta46aprvda3kxuww62zfddua	290	14	outer	outer	JJ
work_kkta46aprvda3kxuww62zfddua	290	15	diameter	diameter	NN
work_kkta46aprvda3kxuww62zfddua	290	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	290	17	~50	~50	NNP
work_kkta46aprvda3kxuww62zfddua	290	18	Å	Å	NNP
work_kkta46aprvda3kxuww62zfddua	290	19	and	and	CC
work_kkta46aprvda3kxuww62zfddua	290	20	an	an	DT
work_kkta46aprvda3kxuww62zfddua	290	21	inner	inner	JJ
work_kkta46aprvda3kxuww62zfddua	290	22	diameter	diameter	NN
work_kkta46aprvda3kxuww62zfddua	290	23	of	of	IN
work_kkta46aprvda3kxuww62zfddua	290	24	~17	~17	.
work_kkta46aprvda3kxuww62zfddua	290	25	Å	Å	NNP
work_kkta46aprvda3kxuww62zfddua	290	26	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	290	27	98	98	CD
work_kkta46aprvda3kxuww62zfddua	290	28	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	290	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	290	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	290	31	decameric	decameric	JJ
work_kkta46aprvda3kxuww62zfddua	290	32	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	290	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	290	34	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	290	35	hirae	hirae	NNP
work_kkta46aprvda3kxuww62zfddua	290	36	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	290	37	much	much	RB
work_kkta46aprvda3kxuww62zfddua	290	38	more	more	RBR
work_kkta46aprvda3kxuww62zfddua	290	39	wider	wider	RBR
work_kkta46aprvda3kxuww62zfddua	290	40	spanning	span	VBG
work_kkta46aprvda3kxuww62zfddua	290	41	an	an	DT
work_kkta46aprvda3kxuww62zfddua	290	42	external	external	JJ
work_kkta46aprvda3kxuww62zfddua	290	43	diameter	diameter	NN
work_kkta46aprvda3kxuww62zfddua	290	44	of	of	IN
work_kkta46aprvda3kxuww62zfddua	290	45	83	83	CD
work_kkta46aprvda3kxuww62zfddua	290	46	Å	Å	NNP
work_kkta46aprvda3kxuww62zfddua	290	47	and	and	CC
work_kkta46aprvda3kxuww62zfddua	290	48	an	an	DT
work_kkta46aprvda3kxuww62zfddua	290	49	inner	inner	JJ
work_kkta46aprvda3kxuww62zfddua	290	50	diameter	diameter	NN
work_kkta46aprvda3kxuww62zfddua	290	51	of	of	IN
work_kkta46aprvda3kxuww62zfddua	290	52	54	54	CD
work_kkta46aprvda3kxuww62zfddua	290	53	Å	Å	NNP
work_kkta46aprvda3kxuww62zfddua	290	54	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	290	55	96	96	CD
work_kkta46aprvda3kxuww62zfddua	290	56	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	290	57	.	.	.
work_kkta46aprvda3kxuww62zfddua	291	1	Although	although	IN
work_kkta46aprvda3kxuww62zfddua	291	2	among	among	IN
work_kkta46aprvda3kxuww62zfddua	291	3	all	all	PDT
work_kkta46aprvda3kxuww62zfddua	291	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	291	5	solved	solve	VBN
work_kkta46aprvda3kxuww62zfddua	291	6	c	c	NN
work_kkta46aprvda3kxuww62zfddua	291	7	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	291	8	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	291	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	291	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	291	11	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	291	12	hirae	hirae	NN
work_kkta46aprvda3kxuww62zfddua	291	13	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	291	14	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	291	15	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	291	16	only	only	RB
work_kkta46aprvda3kxuww62zfddua	291	17	10	10	CD
work_kkta46aprvda3kxuww62zfddua	291	18	protomers	protomer	NNS
work_kkta46aprvda3kxuww62zfddua	291	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	291	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	291	21	external	external	JJ
work_kkta46aprvda3kxuww62zfddua	291	22	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	291	23	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	291	24	diameter	diameter	NN
work_kkta46aprvda3kxuww62zfddua	291	25	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	291	26	wider	wide	JJR
work_kkta46aprvda3kxuww62zfddua	291	27	than	than	IN
work_kkta46aprvda3kxuww62zfddua	291	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	291	29	one	one	CD
work_kkta46aprvda3kxuww62zfddua	291	30	of	of	IN
work_kkta46aprvda3kxuww62zfddua	291	31	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	291	32	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	291	33	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	291	34	c	c	NN
work_kkta46aprvda3kxuww62zfddua	291	35	rings	ring	NNS
work_kkta46aprvda3kxuww62zfddua	291	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	292	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	292	2	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	292	3	feature	feature	NN
work_kkta46aprvda3kxuww62zfddua	292	4	enables	enable	VBZ
work_kkta46aprvda3kxuww62zfddua	292	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	292	6	funnel	funnel	NN
work_kkta46aprvda3kxuww62zfddua	292	7	shaped	shape	VBN
work_kkta46aprvda3kxuww62zfddua	292	8	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	292	9	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	292	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	292	11	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	292	12	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	292	13	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	292	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	292	15	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	292	16	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	292	17	not	not	RB
work_kkta46aprvda3kxuww62zfddua	292	18	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	292	19	in	in	IN
work_kkta46aprvda3kxuww62zfddua	292	20	F1FO	f1fo	JJ
work_kkta46aprvda3kxuww62zfddua	292	21	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	292	22	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	292	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	292	24	to	to	TO
work_kkta46aprvda3kxuww62zfddua	292	25	pen-	pen-	VB
work_kkta46aprvda3kxuww62zfddua	292	26	etrate	etrate	VB
work_kkta46aprvda3kxuww62zfddua	292	27	into	into	IN
work_kkta46aprvda3kxuww62zfddua	292	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	292	29	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	292	30	cavity	cavity	NN
work_kkta46aprvda3kxuww62zfddua	292	31	of	of	IN
work_kkta46aprvda3kxuww62zfddua	292	32	the	the	DT
work_kkta46aprvda3kxuww62zfddua	292	33	c	c	NN
work_kkta46aprvda3kxuww62zfddua	292	34	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	292	35	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	292	36	52	52	CD
work_kkta46aprvda3kxuww62zfddua	292	37	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	292	38	,	,	,
work_kkta46aprvda3kxuww62zfddua	292	39	and	and	CC
work_kkta46aprvda3kxuww62zfddua	292	40	allowing	allow	VBG
work_kkta46aprvda3kxuww62zfddua	292	41	a	a	DT
work_kkta46aprvda3kxuww62zfddua	292	42	direct	direct	JJ
work_kkta46aprvda3kxuww62zfddua	292	43	translation	translation	NN
work_kkta46aprvda3kxuww62zfddua	292	44	event	event	NN
work_kkta46aprvda3kxuww62zfddua	292	45	between	between	IN
work_kkta46aprvda3kxuww62zfddua	292	46	c	c	NN
work_kkta46aprvda3kxuww62zfddua	292	47	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	292	48	rotation	rotation	NN
work_kkta46aprvda3kxuww62zfddua	292	49	and	and	CC
work_kkta46aprvda3kxuww62zfddua	292	50	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	292	51	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	292	52	in	in	IN
work_kkta46aprvda3kxuww62zfddua	292	53	the	the	DT
work_kkta46aprvda3kxuww62zfddua	292	54	A3B3	A3B3	NNP
work_kkta46aprvda3kxuww62zfddua	292	55	headpiece	headpiece	NN
work_kkta46aprvda3kxuww62zfddua	292	56	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	292	57	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	292	58	.	.	.
work_kkta46aprvda3kxuww62zfddua	293	1	4B	4B	NNP
work_kkta46aprvda3kxuww62zfddua	293	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	293	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	294	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	294	2	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	294	3	comparison	comparison	NN
work_kkta46aprvda3kxuww62zfddua	294	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	294	5	all	all	PDT
work_kkta46aprvda3kxuww62zfddua	294	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	294	7	sequences	sequence	NNS
work_kkta46aprvda3kxuww62zfddua	294	8	available	available	JJ
work_kkta46aprvda3kxuww62zfddua	294	9	for	for	IN
work_kkta46aprvda3kxuww62zfddua	294	10	c	c	NN
work_kkta46aprvda3kxuww62zfddua	294	11	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	294	12	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	294	13	as	as	IN
work_kkta46aprvda3kxuww62zfddua	294	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	294	15	Sept.	September	NNP
work_kkta46aprvda3kxuww62zfddua	294	16	1	1	CD
work_kkta46aprvda3kxuww62zfddua	294	17	.	.	CD
work_kkta46aprvda3kxuww62zfddua	294	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	294	19	2013	2013	CD
work_kkta46aprvda3kxuww62zfddua	294	20	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	294	21	revealed	reveal	VBD
work_kkta46aprvda3kxuww62zfddua	294	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	294	23	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	294	24	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	294	25	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	294	26	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	294	27	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	294	28	E	e	NN
work_kkta46aprvda3kxuww62zfddua	294	29	…	…	NFP
work_kkta46aprvda3kxuww62zfddua	294	30	E	e	NN
work_kkta46aprvda3kxuww62zfddua	294	31	T	t	NN
work_kkta46aprvda3kxuww62zfddua	294	32	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	294	33	S	s	NN
work_kkta46aprvda3kxuww62zfddua	294	34	to	to	TO
work_kkta46aprvda3kxuww62zfddua	294	35	be	be	VB
work_kkta46aprvda3kxuww62zfddua	294	36	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	294	37	in	in	IN
work_kkta46aprvda3kxuww62zfddua	294	38	all	all	DT
work_kkta46aprvda3kxuww62zfddua	294	39	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	294	40	and	and	CC
work_kkta46aprvda3kxuww62zfddua	294	41	halobacteria	halobacteria	NNS
work_kkta46aprvda3kxuww62zfddua	294	42	,	,	,
work_kkta46aprvda3kxuww62zfddua	294	43	as	as	RB
work_kkta46aprvda3kxuww62zfddua	294	44	well	well	RB
work_kkta46aprvda3kxuww62zfddua	294	45	as	as	IN
work_kkta46aprvda3kxuww62zfddua	294	46	in	in	IN
work_kkta46aprvda3kxuww62zfddua	294	47	species	species	NN
work_kkta46aprvda3kxuww62zfddua	294	48	of	of	IN
work_kkta46aprvda3kxuww62zfddua	294	49	the	the	DT
work_kkta46aprvda3kxuww62zfddua	294	50	genera	genera	NN
work_kkta46aprvda3kxuww62zfddua	294	51	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	294	52	,	,	,
work_kkta46aprvda3kxuww62zfddua	294	53	Thermococcus	Thermococcus	NNP
work_kkta46aprvda3kxuww62zfddua	294	54	,	,	,
work_kkta46aprvda3kxuww62zfddua	294	55	Desulfurococcus	Desulfurococcus	NNP
work_kkta46aprvda3kxuww62zfddua	294	56	,	,	,
work_kkta46aprvda3kxuww62zfddua	294	57	Ignisphaera	Ignisphaera	NNP
work_kkta46aprvda3kxuww62zfddua	294	58	,	,	,
work_kkta46aprvda3kxuww62zfddua	294	59	Staphylothermus	Staphylothermus	NNP
work_kkta46aprvda3kxuww62zfddua	294	60	and	and	CC
work_kkta46aprvda3kxuww62zfddua	294	61	Nanoarchaeum	Nanoarchaeum	NNP
work_kkta46aprvda3kxuww62zfddua	294	62	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	294	63	Table	table	NN
work_kkta46aprvda3kxuww62zfddua	294	64	1	1	CD
work_kkta46aprvda3kxuww62zfddua	294	65	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	294	66	.	.	.
work_kkta46aprvda3kxuww62zfddua	295	1	Of	of	IN
work_kkta46aprvda3kxuww62zfddua	295	2	these	these	DT
work_kkta46aprvda3kxuww62zfddua	295	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	295	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	295	5	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	295	6	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	295	7	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	295	8	from	from	IN
work_kkta46aprvda3kxuww62zfddua	295	9	Methanobrevibacter	Methanobrevibacter	NNP
work_kkta46aprvda3kxuww62zfddua	295	10	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	295	11	and	and	CC
work_kkta46aprvda3kxuww62zfddua	295	12	P.	p.	NN
work_kkta46aprvda3kxuww62zfddua	295	13	furiosus	furiosus	NN
work_kkta46aprvda3kxuww62zfddua	295	14	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	295	15	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	295	16	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	295	17	to	to	TO
work_kkta46aprvda3kxuww62zfddua	295	18	be	be	VB
work_kkta46aprvda3kxuww62zfddua	295	19	Na+	na+	RB
work_kkta46aprvda3kxuww62zfddua	295	20	specific	specific	JJ
work_kkta46aprvda3kxuww62zfddua	295	21	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	295	22	65,86,99	65,86,99	NNP
work_kkta46aprvda3kxuww62zfddua	295	23	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	295	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	296	1	Structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	296	2	models	model	NNS
work_kkta46aprvda3kxuww62zfddua	296	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	296	4	a	a	DT
work_kkta46aprvda3kxuww62zfddua	296	5	c10	c10	NN
work_kkta46aprvda3kxuww62zfddua	296	6	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	296	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	296	8	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	296	9	furiosus	furiosus	NNP
work_kkta46aprvda3kxuww62zfddua	296	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	296	11	a	a	DT
work_kkta46aprvda3kxuww62zfddua	296	12	c3	c3	NN
work_kkta46aprvda3kxuww62zfddua	296	13	construct	construct	NN
work_kkta46aprvda3kxuww62zfddua	296	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	296	15	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	296	16	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	296	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	296	18	generated	generate	VBD
work_kkta46aprvda3kxuww62zfddua	296	19	com-	com-	NN
work_kkta46aprvda3kxuww62zfddua	296	20	putationally	putationally	RB
work_kkta46aprvda3kxuww62zfddua	296	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	296	22	revealed	reveal	VBD
work_kkta46aprvda3kxuww62zfddua	296	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	296	24	nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	296	25	of	of	IN
work_kkta46aprvda3kxuww62zfddua	296	26	the	the	DT
work_kkta46aprvda3kxuww62zfddua	296	27	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	296	28	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	296	29	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	296	30	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	296	31	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	296	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	297	1	5	5	LS
work_kkta46aprvda3kxuww62zfddua	297	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	297	3	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	297	4	86	86	CD
work_kkta46aprvda3kxuww62zfddua	297	5	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	297	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	298	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	298	2	c10	c10	NN
work_kkta46aprvda3kxuww62zfddua	298	3	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	298	4	and	and	CC
work_kkta46aprvda3kxuww62zfddua	298	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	298	6	c3	c3	NN
work_kkta46aprvda3kxuww62zfddua	298	7	construct	construct	NN
work_kkta46aprvda3kxuww62zfddua	298	8	consist	consist	NN
work_kkta46aprvda3kxuww62zfddua	298	9	of	of	IN
work_kkta46aprvda3kxuww62zfddua	298	10	c	c	NN
work_kkta46aprvda3kxuww62zfddua	298	11	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	298	12	with	with	IN
work_kkta46aprvda3kxuww62zfddua	298	13	four	four	CD
work_kkta46aprvda3kxuww62zfddua	298	14	trans-	trans-	NN
work_kkta46aprvda3kxuww62zfddua	298	15	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	298	16	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	298	17	each	each	DT
work_kkta46aprvda3kxuww62zfddua	298	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	299	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	299	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	299	3	c10	c10	NN
work_kkta46aprvda3kxuww62zfddua	299	4	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	299	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	299	6	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	299	7	furiosus	furiosu	VBG
work_kkta46aprvda3kxuww62zfddua	299	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	299	9	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	299	10	+	+	CC
work_kkta46aprvda3kxuww62zfddua	299	11	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	299	12	site	site	NN
work_kkta46aprvda3kxuww62zfddua	299	13	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	299	14	within	within	IN
work_kkta46aprvda3kxuww62zfddua	299	15	one	one	CD
work_kkta46aprvda3kxuww62zfddua	299	16	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	299	17	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	299	18	flanked	flank	VBN
work_kkta46aprvda3kxuww62zfddua	299	19	by	by	IN
work_kkta46aprvda3kxuww62zfddua	299	20	transmembrane	transmembrane	NNP
work_kkta46aprvda3kxuww62zfddua	299	21	helix	helix	NNP
work_kkta46aprvda3kxuww62zfddua	299	22	2	2	CD
work_kkta46aprvda3kxuww62zfddua	299	23	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	299	24	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	299	25	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	299	26	and	and	CC
work_kkta46aprvda3kxuww62zfddua	299	27	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	299	28	4	4	CD
work_kkta46aprvda3kxuww62zfddua	299	29	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	299	30	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	299	31	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	299	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	300	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	300	2	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	300	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	300	4	coordinated	coordinate	VBN
work_kkta46aprvda3kxuww62zfddua	300	5	by	by	IN
work_kkta46aprvda3kxuww62zfddua	300	6	E142	E142	NNP
work_kkta46aprvda3kxuww62zfddua	300	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	300	8	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	300	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	300	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	300	11	Q113	Q113	NNP
work_kkta46aprvda3kxuww62zfddua	300	12	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	300	13	TM3	TM3	NNP
work_kkta46aprvda3kxuww62zfddua	300	14	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	300	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	300	16	T56	T56	NNP
work_kkta46aprvda3kxuww62zfddua	300	17	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	300	18	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	300	19	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	300	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	300	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	300	22	Q57	Q57	NNP
work_kkta46aprvda3kxuww62zfddua	300	23	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	300	24	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	300	25	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	300	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	300	27	and	and	CC
work_kkta46aprvda3kxuww62zfddua	300	28	by	by	IN
work_kkta46aprvda3kxuww62zfddua	300	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	300	30	backbone	backbone	NN
work_kkta46aprvda3kxuww62zfddua	300	31	of	of	IN
work_kkta46aprvda3kxuww62zfddua	300	32	L53	L53	NNP
work_kkta46aprvda3kxuww62zfddua	300	33	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	300	34	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	300	35	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	300	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	301	1	Y60	Y60	NNP
work_kkta46aprvda3kxuww62zfddua	301	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	301	3	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	301	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	301	5	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	301	6	not	not	RB
work_kkta46aprvda3kxuww62zfddua	301	7	directly	directly	RB
work_kkta46aprvda3kxuww62zfddua	301	8	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	301	9	in	in	IN
work_kkta46aprvda3kxuww62zfddua	301	10	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	301	11	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	301	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	301	13	but	but	CC
work_kkta46aprvda3kxuww62zfddua	301	14	forms	form	VBZ
work_kkta46aprvda3kxuww62zfddua	301	15	a	a	DT
work_kkta46aprvda3kxuww62zfddua	301	16	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	301	17	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	301	18	bond	bond	NN
work_kkta46aprvda3kxuww62zfddua	301	19	with	with	IN
work_kkta46aprvda3kxuww62zfddua	301	20	E142	E142	NNP
work_kkta46aprvda3kxuww62zfddua	301	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	301	22	and	and	CC
work_kkta46aprvda3kxuww62zfddua	301	23	therefore	therefore	RB
work_kkta46aprvda3kxuww62zfddua	301	24	stabilizes	stabilize	VBZ
work_kkta46aprvda3kxuww62zfddua	301	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	301	26	geome-	geome-	XX
work_kkta46aprvda3kxuww62zfddua	301	27	try	try	NN
work_kkta46aprvda3kxuww62zfddua	301	28	of	of	IN
work_kkta46aprvda3kxuww62zfddua	301	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	301	30	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	301	31	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	301	32	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	301	33	shell	shell	NN
work_kkta46aprvda3kxuww62zfddua	301	34	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	301	35	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	301	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	302	1	5A	5a	RB
work_kkta46aprvda3kxuww62zfddua	302	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	302	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	303	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	303	2	kind	kind	NN
work_kkta46aprvda3kxuww62zfddua	303	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	303	4	network	network	NN
work_kkta46aprvda3kxuww62zfddua	303	5	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	303	6	iden-	iden-	NNP
work_kkta46aprvda3kxuww62zfddua	303	7	tical	tical	JJ
work_kkta46aprvda3kxuww62zfddua	303	8	to	to	IN
work_kkta46aprvda3kxuww62zfddua	303	9	that	that	DT
work_kkta46aprvda3kxuww62zfddua	303	10	revealed	reveal	VBN
work_kkta46aprvda3kxuww62zfddua	303	11	by	by	IN
work_kkta46aprvda3kxuww62zfddua	303	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	303	13	crystal	crystal	NN
work_kkta46aprvda3kxuww62zfddua	303	14	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	303	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	303	16	the	the	DT
work_kkta46aprvda3kxuww62zfddua	303	17	c10	c10	NN
work_kkta46aprvda3kxuww62zfddua	303	18	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	303	19	from	from	IN
work_kkta46aprvda3kxuww62zfddua	303	20	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	303	21	hirae	hirae	NNP
work_kkta46aprvda3kxuww62zfddua	303	22	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	303	23	96	96	CD
work_kkta46aprvda3kxuww62zfddua	303	24	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	303	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	304	1	Between	between	IN
work_kkta46aprvda3kxuww62zfddua	304	2	two	two	CD
work_kkta46aprvda3kxuww62zfddua	304	3	c	c	NN
work_kkta46aprvda3kxuww62zfddua	304	4	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	304	5	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	304	6	no	no	DT
work_kkta46aprvda3kxuww62zfddua	304	7	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	304	8	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	304	9	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	304	10	site	site	NN
work_kkta46aprvda3kxuww62zfddua	304	11	in	in	IN
work_kkta46aprvda3kxuww62zfddua	304	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	304	13	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	304	14	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	304	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	304	16	P.	p.	NN
work_kkta46aprvda3kxuww62zfddua	304	17	furiosus	furiosus	NNP
work_kkta46aprvda3kxuww62zfddua	304	18	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	304	19	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	304	20	.	.	.
work_kkta46aprvda3kxuww62zfddua	305	1	5B	5b	JJ
work_kkta46aprvda3kxuww62zfddua	305	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	305	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	306	1	There	there	RB
work_kkta46aprvda3kxuww62zfddua	306	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	306	3	essential	essential	JJ
work_kkta46aprvda3kxuww62zfddua	306	4	glutamate	glutamate	NN
work_kkta46aprvda3kxuww62zfddua	306	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	306	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	306	7	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	306	8	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	306	9	site	site	NN
work_kkta46aprvda3kxuww62zfddua	306	10	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	306	11	replaced	replace	VBN
work_kkta46aprvda3kxuww62zfddua	306	12	by	by	IN
work_kkta46aprvda3kxuww62zfddua	306	13	a	a	DT
work_kkta46aprvda3kxuww62zfddua	306	14	methionine	methionine	NN
work_kkta46aprvda3kxuww62zfddua	306	15	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	306	16	M55	M55	NNP
work_kkta46aprvda3kxuww62zfddua	306	17	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	306	18	during	during	IN
work_kkta46aprvda3kxuww62zfddua	306	19	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	306	20	and	and	CC
work_kkta46aprvda3kxuww62zfddua	306	21	there-	there-	NN
work_kkta46aprvda3kxuww62zfddua	306	22	fore	fore	NN
work_kkta46aprvda3kxuww62zfddua	306	23	nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	306	24	designed	design	VBD
work_kkta46aprvda3kxuww62zfddua	306	25	an	an	DT
work_kkta46aprvda3kxuww62zfddua	306	26	unusual	unusual	JJ
work_kkta46aprvda3kxuww62zfddua	306	27	c	c	NN
work_kkta46aprvda3kxuww62zfddua	306	28	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	306	29	with	with	IN
work_kkta46aprvda3kxuww62zfddua	306	30	only	only	RB
work_kkta46aprvda3kxuww62zfddua	306	31	one	one	CD
work_kkta46aprvda3kxuww62zfddua	306	32	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	306	33	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	306	34	site	site	NN
work_kkta46aprvda3kxuww62zfddua	306	35	in	in	IN
work_kkta46aprvda3kxuww62zfddua	306	36	one	one	CD
work_kkta46aprvda3kxuww62zfddua	306	37	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	306	38	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	306	39	.	.	.
work_kkta46aprvda3kxuww62zfddua	307	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	307	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	307	3	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	307	4	in	in	IN
work_kkta46aprvda3kxuww62zfddua	307	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	307	6	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	307	7	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	307	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	307	9	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	307	10	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	307	11	.	.	.
work_kkta46aprvda3kxuww62zfddua	308	1	As	as	IN
work_kkta46aprvda3kxuww62zfddua	308	2	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	308	3	evident	evident	JJ
work_kkta46aprvda3kxuww62zfddua	308	4	from	from	IN
work_kkta46aprvda3kxuww62zfddua	308	5	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	308	6	comparisons	comparison	NNS
work_kkta46aprvda3kxuww62zfddua	308	7	and	and	CC
work_kkta46aprvda3kxuww62zfddua	308	8	confirmed	confirm	VBN
work_kkta46aprvda3kxuww62zfddua	308	9	by	by	IN
work_kkta46aprvda3kxuww62zfddua	308	10	modeling	model	VBG
work_kkta46aprvda3kxuww62zfddua	308	11	studies	study	NNS
work_kkta46aprvda3kxuww62zfddua	308	12	using	use	VBG
work_kkta46aprvda3kxuww62zfddua	308	13	a	a	DT
work_kkta46aprvda3kxuww62zfddua	308	14	c3	c3	NN
work_kkta46aprvda3kxuww62zfddua	308	15	construct	construct	NN
work_kkta46aprvda3kxuww62zfddua	308	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	308	17	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	308	18	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	308	19	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	308	20	one	one	CD
work_kkta46aprvda3kxuww62zfddua	308	21	Na	Na	NNS
work_kkta46aprvda3kxuww62zfddua	308	22	+	+	CC
work_kkta46aprvda3kxuww62zfddua	308	23	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	308	24	site	site	NN
work_kkta46aprvda3kxuww62zfddua	308	25	within	within	IN
work_kkta46aprvda3kxuww62zfddua	308	26	one	one	CD
work_kkta46aprvda3kxuww62zfddua	308	27	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	308	28	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	308	29	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	308	30	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	308	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	309	1	5C	5C	NNP
work_kkta46aprvda3kxuww62zfddua	309	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	309	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	309	4	as	as	IN
work_kkta46aprvda3kxuww62zfddua	309	5	in	in	IN
work_kkta46aprvda3kxuww62zfddua	309	6	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	309	7	furiosus	furiosus	NN
work_kkta46aprvda3kxuww62zfddua	309	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	309	9	but	but	CC
work_kkta46aprvda3kxuww62zfddua	309	10	also	also	RB
work_kkta46aprvda3kxuww62zfddua	309	11	a	a	DT
work_kkta46aprvda3kxuww62zfddua	309	12	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	309	13	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	309	14	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	309	15	site	site	NN
work_kkta46aprvda3kxuww62zfddua	309	16	between	between	IN
work_kkta46aprvda3kxuww62zfddua	309	17	two	two	CD
work_kkta46aprvda3kxuww62zfddua	309	18	c	c	NN
work_kkta46aprvda3kxuww62zfddua	309	19	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	309	20	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	309	21	Fig	fig	NN
work_kkta46aprvda3kxuww62zfddua	309	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	310	1	5D	5d	LS
work_kkta46aprvda3kxuww62zfddua	310	2	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	310	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	311	1	Both	both	DT
work_kkta46aprvda3kxuww62zfddua	311	2	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	311	3	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	311	4	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	311	5	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	311	6	completely	completely	RB
work_kkta46aprvda3kxuww62zfddua	311	7	identical	identical	JJ
work_kkta46aprvda3kxuww62zfddua	311	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	311	9	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	311	10	amino	amino	JJ
work_kkta46aprvda3kxuww62zfddua	311	11	acid	acid	NN
work_kkta46aprvda3kxuww62zfddua	311	12	composition	composition	NN
work_kkta46aprvda3kxuww62zfddua	311	13	.	.	.
work_kkta46aprvda3kxuww62zfddua	312	1	Within	within	IN
work_kkta46aprvda3kxuww62zfddua	312	2	one	one	CD
work_kkta46aprvda3kxuww62zfddua	312	3	c	c	NN
work_kkta46aprvda3kxuww62zfddua	312	4	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	312	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	312	6	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	312	7	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	312	8	coordinated	coordinate	VBN
work_kkta46aprvda3kxuww62zfddua	312	9	by	by	IN
work_kkta46aprvda3kxuww62zfddua	312	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	312	11	side	side	NN
work_kkta46aprvda3kxuww62zfddua	312	12	chains	chain	NNS
work_kkta46aprvda3kxuww62zfddua	312	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	312	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	312	15	amino	amino	NN
work_kkta46aprvda3kxuww62zfddua	312	16	acids	acid	NNS
work_kkta46aprvda3kxuww62zfddua	312	17	E140	E140	NNP
work_kkta46aprvda3kxuww62zfddua	312	18	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	312	19	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	312	20	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	312	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	312	22	Q111	Q111	NNP
work_kkta46aprvda3kxuww62zfddua	312	23	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	312	24	TM3	TM3	NNP
work_kkta46aprvda3kxuww62zfddua	312	25	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	312	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	312	27	Q61	Q61	NNP
work_kkta46aprvda3kxuww62zfddua	312	28	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	312	29	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	312	30	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	312	31	T60	t60	UH
work_kkta46aprvda3kxuww62zfddua	312	32	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	312	33	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	312	34	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	312	35	and	and	CC
work_kkta46aprvda3kxuww62zfddua	312	36	L57	L57	NNP
work_kkta46aprvda3kxuww62zfddua	312	37	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	312	38	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	312	39	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	312	40	.	.	.
work_kkta46aprvda3kxuww62zfddua	313	1	Again	again	RB
work_kkta46aprvda3kxuww62zfddua	313	2	Y64	Y64	NNP
work_kkta46aprvda3kxuww62zfddua	313	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	313	4	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	313	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	313	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	313	7	for	for	IN
work_kkta46aprvda3kxuww62zfddua	313	8	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	313	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	313	10	bonding	bonding	NN
work_kkta46aprvda3kxuww62zfddua	313	11	with	with	IN
work_kkta46aprvda3kxuww62zfddua	313	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	313	13	side	side	NN
work_kkta46aprvda3kxuww62zfddua	313	14	chain	chain	NN
work_kkta46aprvda3kxuww62zfddua	313	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	313	16	E140	E140	NNP
work_kkta46aprvda3kxuww62zfddua	313	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	314	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	314	2	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	314	3	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	314	4	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	314	5	site	site	NN
work_kkta46aprvda3kxuww62zfddua	314	6	in	in	IN
work_kkta46aprvda3kxuww62zfddua	314	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	314	8	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	314	9	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	314	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	314	11	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	314	12	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	314	13	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	314	14	between	between	IN
work_kkta46aprvda3kxuww62zfddua	314	15	two	two	CD
work_kkta46aprvda3kxuww62zfddua	314	16	c	c	NN
work_kkta46aprvda3kxuww62zfddua	314	17	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	314	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	315	1	Again	again	RB
work_kkta46aprvda3kxuww62zfddua	315	2	E59	E59	NNP
work_kkta46aprvda3kxuww62zfddua	315	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	315	4	TM2′	TM2′	NNP
work_kkta46aprvda3kxuww62zfddua	315	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	315	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	315	7	Q30	Q30	NNP
work_kkta46aprvda3kxuww62zfddua	315	8	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	315	9	TM1′	TM1′	NNP
work_kkta46aprvda3kxuww62zfddua	315	10	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	315	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	315	12	Q142	Q142	NNP
work_kkta46aprvda3kxuww62zfddua	315	13	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	315	14	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	315	15	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	315	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	315	17	T141	T141	NNP
work_kkta46aprvda3kxuww62zfddua	315	18	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	315	19	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	315	20	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	315	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	315	22	L138	L138	NNP
work_kkta46aprvda3kxuww62zfddua	315	23	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	315	24	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	315	25	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	315	26	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	315	27	directly	directly	RB
work_kkta46aprvda3kxuww62zfddua	315	28	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	315	29	in	in	IN
work_kkta46aprvda3kxuww62zfddua	315	30	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	315	31	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	315	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	316	1	Y145	Y145	NNP
work_kkta46aprvda3kxuww62zfddua	316	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	316	3	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	316	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	316	5	stabilizes	stabilize	VBZ
work_kkta46aprvda3kxuww62zfddua	316	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	316	7	geometry	geometry	NN
work_kkta46aprvda3kxuww62zfddua	316	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	316	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	316	10	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	316	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	316	12	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	316	13	shell	shell	NN
work_kkta46aprvda3kxuww62zfddua	316	14	by	by	IN
work_kkta46aprvda3kxuww62zfddua	316	15	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	316	16	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	316	17	bonding	bonding	NN
work_kkta46aprvda3kxuww62zfddua	316	18	with	with	IN
work_kkta46aprvda3kxuww62zfddua	316	19	E59	E59	NNP
work_kkta46aprvda3kxuww62zfddua	316	20	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	316	21	86	86	CD
work_kkta46aprvda3kxuww62zfddua	316	22	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	316	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	317	1	Therefore	therefore	RB
work_kkta46aprvda3kxuww62zfddua	317	2	nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	317	3	designed	design	VBN
work_kkta46aprvda3kxuww62zfddua	317	4	in	in	IN
work_kkta46aprvda3kxuww62zfddua	317	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	317	6	case	case	NN
work_kkta46aprvda3kxuww62zfddua	317	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	317	8	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	317	9	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	317	10	a	a	DT
work_kkta46aprvda3kxuww62zfddua	317	11	c	c	NN
work_kkta46aprvda3kxuww62zfddua	317	12	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	317	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	317	14	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	317	15	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	317	16	one	one	CD
work_kkta46aprvda3kxuww62zfddua	317	17	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	317	18	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	317	19	site	site	NN
work_kkta46aprvda3kxuww62zfddua	317	20	within	within	IN
work_kkta46aprvda3kxuww62zfddua	317	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	317	22	another	another	DT
work_kkta46aprvda3kxuww62zfddua	317	23	between	between	IN
work_kkta46aprvda3kxuww62zfddua	317	24	each	each	DT
work_kkta46aprvda3kxuww62zfddua	317	25	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	317	26	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	317	27	.	.	.
work_kkta46aprvda3kxuww62zfddua	318	1	6	6	CD
work_kkta46aprvda3kxuww62zfddua	318	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	319	1	Adaptations	adaptation	NNS
work_kkta46aprvda3kxuww62zfddua	319	2	of	of	IN
work_kkta46aprvda3kxuww62zfddua	319	3	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	319	4	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	319	5	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	319	6	to	to	IN
work_kkta46aprvda3kxuww62zfddua	319	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	319	8	inhospitable	inhospitable	JJ
work_kkta46aprvda3kxuww62zfddua	319	9	environments	environment	NNS
work_kkta46aprvda3kxuww62zfddua	319	10	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	319	11	hosts	host	NNS
work_kkta46aprvda3kxuww62zfddua	319	12	thrive	thrive	VBP
work_kkta46aprvda3kxuww62zfddua	319	13	in	in	IN
work_kkta46aprvda3kxuww62zfddua	319	14	Sodium	Sodium	NNP
work_kkta46aprvda3kxuww62zfddua	319	15	bioenergetics	bioenergetic	NNS
work_kkta46aprvda3kxuww62zfddua	319	16	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	319	17	advantageous	advantageous	JJ
work_kkta46aprvda3kxuww62zfddua	319	18	for	for	IN
work_kkta46aprvda3kxuww62zfddua	319	19	organisms	organism	NNS
work_kkta46aprvda3kxuww62zfddua	319	20	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	319	21	live	live	VBP
work_kkta46aprvda3kxuww62zfddua	319	22	on	on	IN
work_kkta46aprvda3kxuww62zfddua	319	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	319	24	thermodynamic	thermodynamic	JJ
work_kkta46aprvda3kxuww62zfddua	319	25	edge	edge	NN
work_kkta46aprvda3kxuww62zfddua	319	26	of	of	IN
work_kkta46aprvda3kxuww62zfddua	319	27	life	life	NN
work_kkta46aprvda3kxuww62zfddua	319	28	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	319	29	20	20	CD
work_kkta46aprvda3kxuww62zfddua	319	30	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	319	31	like	like	IN
work_kkta46aprvda3kxuww62zfddua	319	32	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	319	33	or	or	CC
work_kkta46aprvda3kxuww62zfddua	319	34	T.	t.	NN
work_kkta46aprvda3kxuww62zfddua	319	35	onnurineus	onnurineus	JJ
work_kkta46aprvda3kxuww62zfddua	319	36	thriving	thriving	NN
work_kkta46aprvda3kxuww62zfddua	319	37	on	on	IN
work_kkta46aprvda3kxuww62zfddua	319	38	formate	formate	NN
work_kkta46aprvda3kxuww62zfddua	319	39	.	.	.
work_kkta46aprvda3kxuww62zfddua	320	1	Any	any	DT
work_kkta46aprvda3kxuww62zfddua	320	2	reduction	reduction	NN
work_kkta46aprvda3kxuww62zfddua	320	3	in	in	IN
work_kkta46aprvda3kxuww62zfddua	320	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	320	5	magnitude	magnitude	NN
work_kkta46aprvda3kxuww62zfddua	320	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	320	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	320	8	electro-	electro-	NN
work_kkta46aprvda3kxuww62zfddua	320	9	chemical	chemical	NN
work_kkta46aprvda3kxuww62zfddua	320	10	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	320	11	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	320	12	across	across	IN
work_kkta46aprvda3kxuww62zfddua	320	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	320	14	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	320	15	by	by	IN
work_kkta46aprvda3kxuww62zfddua	320	16	leakage	leakage	NN
work_kkta46aprvda3kxuww62zfddua	320	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	320	18	ions	ion	NNS
work_kkta46aprvda3kxuww62zfddua	320	19	back	back	RB
work_kkta46aprvda3kxuww62zfddua	320	20	into	into	IN
work_kkta46aprvda3kxuww62zfddua	320	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	320	22	cell	cell	NN
work_kkta46aprvda3kxuww62zfddua	320	23	would	would	MD
work_kkta46aprvda3kxuww62zfddua	320	24	be	be	VB
work_kkta46aprvda3kxuww62zfddua	320	25	detrimental	detrimental	JJ
work_kkta46aprvda3kxuww62zfddua	320	26	.	.	.
work_kkta46aprvda3kxuww62zfddua	321	1	Biological	biological	JJ
work_kkta46aprvda3kxuww62zfddua	321	2	membranes	membrane	NNS
work_kkta46aprvda3kxuww62zfddua	321	3	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	321	4	leakier	leaky	JJR
work_kkta46aprvda3kxuww62zfddua	321	5	for	for	IN
work_kkta46aprvda3kxuww62zfddua	321	6	protons	proton	NNS
work_kkta46aprvda3kxuww62zfddua	321	7	than	than	IN
work_kkta46aprvda3kxuww62zfddua	321	8	for	for	IN
work_kkta46aprvda3kxuww62zfddua	321	9	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	321	10	ions	ion	NNS
work_kkta46aprvda3kxuww62zfddua	321	11	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	321	12	102	102	CD
work_kkta46aprvda3kxuww62zfddua	321	13	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	321	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	322	1	Thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	322	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	322	3	a	a	DT
work_kkta46aprvda3kxuww62zfddua	322	4	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	322	5	bioenergetics	bioenergetic	NNS
work_kkta46aprvda3kxuww62zfddua	322	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	322	7	Database	Database	NNP
work_kkta46aprvda3kxuww62zfddua	322	8	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	322	9	:	:	:
work_kkta46aprvda3kxuww62zfddua	322	10	EMD	EMD	NNP
work_kkta46aprvda3kxuww62zfddua	322	11	5335	5335	CD
work_kkta46aprvda3kxuww62zfddua	322	12	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	322	13	48	48	CD
work_kkta46aprvda3kxuww62zfddua	322	14	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	322	15	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	322	16	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	322	17	shown	show	VBN
work_kkta46aprvda3kxuww62zfddua	322	18	as	as	IN
work_kkta46aprvda3kxuww62zfddua	322	19	gray	gray	JJ
work_kkta46aprvda3kxuww62zfddua	322	20	surface	surface	NN
work_kkta46aprvda3kxuww62zfddua	322	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	323	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	323	2	density	density	NN
work_kkta46aprvda3kxuww62zfddua	323	3	corresponding	correspond	VBG
work_kkta46aprvda3kxuww62zfddua	323	4	to	to	IN
work_kkta46aprvda3kxuww62zfddua	323	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	323	6	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	323	7	egments	egment	NNS
work_kkta46aprvda3kxuww62zfddua	323	8	near	near	IN
work_kkta46aprvda3kxuww62zfddua	323	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	323	10	middle	middle	NN
work_kkta46aprvda3kxuww62zfddua	323	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	323	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	323	13	c	c	NN
work_kkta46aprvda3kxuww62zfddua	323	14	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	323	15	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	323	16	show	show	VBP
work_kkta46aprvda3kxuww62zfddua	323	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	323	18	contacts	contact	NNS
work_kkta46aprvda3kxuww62zfddua	323	19	of	of	IN
work_kkta46aprvda3kxuww62zfddua	323	20	c	c	NN
work_kkta46aprvda3kxuww62zfddua	323	21	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	323	22	with	with	IN
work_kkta46aprvda3kxuww62zfddua	323	23	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	323	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	323	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	323	26	a	a	DT
work_kkta46aprvda3kxuww62zfddua	323	27	thase	thase	NN
work_kkta46aprvda3kxuww62zfddua	323	28	from	from	IN
work_kkta46aprvda3kxuww62zfddua	323	29	Ilyobacter	Ilyobacter	NNP
work_kkta46aprvda3kxuww62zfddua	323	30	tartaricus	tartaricus	NN
work_kkta46aprvda3kxuww62zfddua	323	31	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	323	32	PDB	PDB	NNP
work_kkta46aprvda3kxuww62zfddua	323	33	ID	ID	NNP
work_kkta46aprvda3kxuww62zfddua	323	34	:	:	:
work_kkta46aprvda3kxuww62zfddua	323	35	1YCE	1YCE	NNP
work_kkta46aprvda3kxuww62zfddua	323	36	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	323	37	98	98	CD
work_kkta46aprvda3kxuww62zfddua	323	38	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	323	39	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	323	40	showing	show	VBG
work_kkta46aprvda3kxuww62zfddua	323	41	a	a	DT
work_kkta46aprvda3kxuww62zfddua	323	42	narrower	narrow	JJR
work_kkta46aprvda3kxuww62zfddua	323	43	cylindrical	cylindrical	JJ
work_kkta46aprvda3kxuww62zfddua	323	44	,	,	,
work_kkta46aprvda3kxuww62zfddua	323	45	hour-	hour-	JJ
work_kkta46aprvda3kxuww62zfddua	323	46	y	y	NNP
work_kkta46aprvda3kxuww62zfddua	323	47	E65	E65	NNP
work_kkta46aprvda3kxuww62zfddua	323	48	,	,	,
work_kkta46aprvda3kxuww62zfddua	323	49	Q32	Q32	NNP
work_kkta46aprvda3kxuww62zfddua	323	50	,	,	,
work_kkta46aprvda3kxuww62zfddua	323	51	V63	V63	NNP
work_kkta46aprvda3kxuww62zfddua	323	52	and	and	CC
work_kkta46aprvda3kxuww62zfddua	323	53	S66	S66	NNP
work_kkta46aprvda3kxuww62zfddua	323	54	and	and	CC
work_kkta46aprvda3kxuww62zfddua	323	55	Y70	Y70	NNP
work_kkta46aprvda3kxuww62zfddua	323	56	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	323	57	making	make	VBG
work_kkta46aprvda3kxuww62zfddua	323	58	a	a	DT
work_kkta46aprvda3kxuww62zfddua	323	59	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	323	60	bond	bond	NN
work_kkta46aprvda3kxuww62zfddua	323	61	with	with	IN
work_kkta46aprvda3kxuww62zfddua	323	62	E65	E65	NNP
work_kkta46aprvda3kxuww62zfddua	323	63	to	to	TO
work_kkta46aprvda3kxuww62zfddua	323	64	stabilize	stabilize	VB
work_kkta46aprvda3kxuww62zfddua	323	65	the	the	DT
work_kkta46aprvda3kxuww62zfddua	323	66	ge-	ge-	NN
work_kkta46aprvda3kxuww62zfddua	323	67	a	a	DT
work_kkta46aprvda3kxuww62zfddua	323	68	wider	wide	JJR
work_kkta46aprvda3kxuww62zfddua	323	69	diameter	diameter	NN
work_kkta46aprvda3kxuww62zfddua	323	70	at	at	IN
work_kkta46aprvda3kxuww62zfddua	323	71	the	the	DT
work_kkta46aprvda3kxuww62zfddua	323	72	upper	upper	JJ
work_kkta46aprvda3kxuww62zfddua	323	73	part	part	NN
work_kkta46aprvda3kxuww62zfddua	323	74	of	of	IN
work_kkta46aprvda3kxuww62zfddua	323	75	the	the	DT
work_kkta46aprvda3kxuww62zfddua	323	76	cylinder	cylinder	NN
work_kkta46aprvda3kxuww62zfddua	323	77	,	,	,
work_kkta46aprvda3kxuww62zfddua	323	78	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	323	79	could	could	MD
work_kkta46aprvda3kxuww62zfddua	323	80	accommodate	accommodate	VB
work_kkta46aprvda3kxuww62zfddua	323	81	the	the	DT
work_kkta46aprvda3kxuww62zfddua	323	82	funnel	funnel	NN
work_kkta46aprvda3kxuww62zfddua	323	83	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	323	84	showing	show	VBG
work_kkta46aprvda3kxuww62zfddua	323	85	the	the	DT
work_kkta46aprvda3kxuww62zfddua	323	86	Na+	Na+	NNP
work_kkta46aprvda3kxuww62zfddua	323	87	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	323	88	shell	shell	NN
work_kkta46aprvda3kxuww62zfddua	323	89	formed	form	VBN
work_kkta46aprvda3kxuww62zfddua	323	90	by	by	IN
work_kkta46aprvda3kxuww62zfddua	323	91	amino	amino	JJ
work_kkta46aprvda3kxuww62zfddua	323	92	acids	acid	NNS
work_kkta46aprvda3kxuww62zfddua	323	93	E139	E139	NNP
work_kkta46aprvda3kxuww62zfddua	323	94	,	,	,
work_kkta46aprvda3kxuww62zfddua	323	95	Q110	Q110	NNP
work_kkta46aprvda3kxuww62zfddua	323	96	,	,	,
work_kkta46aprvda3kxuww62zfddua	323	97	L61	L61	NNP
work_kkta46aprvda3kxuww62zfddua	323	98	,	,	,
work_kkta46aprvda3kxuww62zfddua	323	99	T64	T64	NNP
work_kkta46aprvda3kxuww62zfddua	323	100	and	and	CC
work_kkta46aprvda3kxuww62zfddua	323	101	948	948	CD
work_kkta46aprvda3kxuww62zfddua	323	102	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	323	103	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	323	104	et	et	FW
work_kkta46aprvda3kxuww62zfddua	323	105	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	323	106	.	.	.
work_kkta46aprvda3kxuww62zfddua	324	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	324	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	324	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	324	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	324	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	324	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	324	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	324	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	324	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	324	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	324	11	seen	see	VBN
work_kkta46aprvda3kxuww62zfddua	324	12	as	as	IN
work_kkta46aprvda3kxuww62zfddua	324	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	324	14	primary	primary	JJ
work_kkta46aprvda3kxuww62zfddua	324	15	event	event	NN
work_kkta46aprvda3kxuww62zfddua	324	16	in	in	IN
work_kkta46aprvda3kxuww62zfddua	324	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	324	18	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	324	19	of	of	IN
work_kkta46aprvda3kxuww62zfddua	324	20	bioenergetics	bioenergetic	NNS
work_kkta46aprvda3kxuww62zfddua	324	21	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	324	22	20,103,104	20,103,104	CD
work_kkta46aprvda3kxuww62zfddua	324	23	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	324	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	325	1	Indeed	indeed	RB
work_kkta46aprvda3kxuww62zfddua	325	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	325	3	an	an	DT
work_kkta46aprvda3kxuww62zfddua	325	4	acetogen	acetogen	NN
work_kkta46aprvda3kxuww62zfddua	325	5	with	with	IN
work_kkta46aprvda3kxuww62zfddua	325	6	an	an	DT
work_kkta46aprvda3kxuww62zfddua	325	7	ancient	ancient	JJ
work_kkta46aprvda3kxuww62zfddua	325	8	pathway	pathway	NN
work_kkta46aprvda3kxuww62zfddua	325	9	in	in	IN
work_kkta46aprvda3kxuww62zfddua	325	10	which	which	WDT
work_kkta46aprvda3kxuww62zfddua	325	11	carbon	carbon	NN
work_kkta46aprvda3kxuww62zfddua	325	12	dioxide	dioxide	NN
work_kkta46aprvda3kxuww62zfddua	325	13	fixation	fixation	NN
work_kkta46aprvda3kxuww62zfddua	325	14	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	325	15	coupled	couple	VBN
work_kkta46aprvda3kxuww62zfddua	325	16	to	to	IN
work_kkta46aprvda3kxuww62zfddua	325	17	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	325	18	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	325	19	by	by	IN
work_kkta46aprvda3kxuww62zfddua	325	20	a	a	DT
work_kkta46aprvda3kxuww62zfddua	325	21	chemiosmotic	chemiosmotic	JJ
work_kkta46aprvda3kxuww62zfddua	325	22	mechanism	mechanism	NN
work_kkta46aprvda3kxuww62zfddua	325	23	re-	re-	JJ
work_kkta46aprvda3kxuww62zfddua	325	24	Table	table	NN
work_kkta46aprvda3kxuww62zfddua	325	25	1	1	CD
work_kkta46aprvda3kxuww62zfddua	325	26	Ion	Ion	NNP
work_kkta46aprvda3kxuww62zfddua	325	27	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	325	28	motifs	motif	NNS
work_kkta46aprvda3kxuww62zfddua	325	29	of	of	IN
work_kkta46aprvda3kxuww62zfddua	325	30	different	different	JJ
work_kkta46aprvda3kxuww62zfddua	325	31	archaeal	archaeal	NN
work_kkta46aprvda3kxuww62zfddua	325	32	and	and	CC
work_kkta46aprvda3kxuww62zfddua	325	33	bacterial	bacterial	JJ
work_kkta46aprvda3kxuww62zfddua	325	34	c	c	NN
work_kkta46aprvda3kxuww62zfddua	325	35	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	325	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	326	1	Organism	Organism	NNP
work_kkta46aprvda3kxuww62zfddua	326	2	Bacteria	Bacteria	NNP
work_kkta46aprvda3kxuww62zfddua	326	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	326	4	c	c	NN
work_kkta46aprvda3kxuww62zfddua	326	5	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	326	6	with	with	IN
work_kkta46aprvda3kxuww62zfddua	326	7	one	one	CD
work_kkta46aprvda3kxuww62zfddua	326	8	hairpin	hairpin	NN
work_kkta46aprvda3kxuww62zfddua	326	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	326	10	d	d	NNP
work_kkta46aprvda3kxuww62zfddua	326	11	Acetobacterium	Acetobacterium	NNP
work_kkta46aprvda3kxuww62zfddua	326	12	woodii	woodii	VB
work_kkta46aprvda3kxuww62zfddua	326	13	c	c	NN
work_kkta46aprvda3kxuww62zfddua	326	14	2	2	CD
work_kkta46aprvda3kxuww62zfddua	326	15	/c	/c	NN
work_kkta46aprvda3kxuww62zfddua	326	16	3	3	CD
work_kkta46aprvda3kxuww62zfddua	326	17	Ilyobacter	Ilyobacter	NNP
work_kkta46aprvda3kxuww62zfddua	326	18	tartaricus	tartaricus	NN
work_kkta46aprvda3kxuww62zfddua	326	19	Propionigenium	Propionigenium	NNP
work_kkta46aprvda3kxuww62zfddua	326	20	modestum	modestum	NN
work_kkta46aprvda3kxuww62zfddua	326	21	Bacillus	bacillus	NN
work_kkta46aprvda3kxuww62zfddua	326	22	subtilis	subtili	VBZ
work_kkta46aprvda3kxuww62zfddua	326	23	Escherichia	Escherichia	NNP
work_kkta46aprvda3kxuww62zfddua	326	24	coli	coli	NNS
work_kkta46aprvda3kxuww62zfddua	326	25	Bacteria	Bacteria	NNS
work_kkta46aprvda3kxuww62zfddua	326	26	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	326	27	c	c	NN
work_kkta46aprvda3kxuww62zfddua	326	28	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	326	29	with	with	IN
work_kkta46aprvda3kxuww62zfddua	326	30	two	two	CD
work_kkta46aprvda3kxuww62zfddua	326	31	hairpins	hairpin	NNS
work_kkta46aprvda3kxuww62zfddua	326	32	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	326	33	Enterococcus	Enterococcus	NNP
work_kkta46aprvda3kxuww62zfddua	326	34	hirae	hirae	NN
work_kkta46aprvda3kxuww62zfddua	326	35	e	e	VBZ
work_kkta46aprvda3kxuww62zfddua	326	36	a	a	DT
work_kkta46aprvda3kxuww62zfddua	326	37	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	326	38	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	326	39	Euryarchaeota	Euryarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	326	40	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	326	41	c	c	NN
work_kkta46aprvda3kxuww62zfddua	326	42	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	326	43	with	with	IN
work_kkta46aprvda3kxuww62zfddua	326	44	one	one	CD
work_kkta46aprvda3kxuww62zfddua	326	45	hairpin	hairpin	NN
work_kkta46aprvda3kxuww62zfddua	326	46	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	326	47	f	f	NNP
work_kkta46aprvda3kxuww62zfddua	326	48	Archaeoglobus	Archaeoglobus	NNP
work_kkta46aprvda3kxuww62zfddua	326	49	fulgidus	fulgidus	NN
work_kkta46aprvda3kxuww62zfddua	326	50	Ferroglobus	Ferroglobus	NNP
work_kkta46aprvda3kxuww62zfddua	326	51	placidus	placidus	NN
work_kkta46aprvda3kxuww62zfddua	326	52	Haladaptatus	Haladaptatus	NNP
work_kkta46aprvda3kxuww62zfddua	326	53	paucihalophilus	paucihalophilus	JJ
work_kkta46aprvda3kxuww62zfddua	326	54	Halalkalicoccus	Halalkalicoccus	NNP
work_kkta46aprvda3kxuww62zfddua	326	55	jeotgali	jeotgali	NNP
work_kkta46aprvda3kxuww62zfddua	326	56	Haloarcula	Haloarcula	NNP
work_kkta46aprvda3kxuww62zfddua	326	57	hispanica	hispanica	NNP
work_kkta46aprvda3kxuww62zfddua	326	58	Halobacterium	Halobacterium	NNP
work_kkta46aprvda3kxuww62zfddua	326	59	salinarum	salinarum	NN
work_kkta46aprvda3kxuww62zfddua	326	60	Haloferax	Haloferax	NNP
work_kkta46aprvda3kxuww62zfddua	326	61	volcanii	volcanii	JJ
work_kkta46aprvda3kxuww62zfddua	326	62	Halogeometricum	Halogeometricum	NNP
work_kkta46aprvda3kxuww62zfddua	326	63	borinquense	borinquense	NN
work_kkta46aprvda3kxuww62zfddua	326	64	Halopiger	Halopiger	NNP
work_kkta46aprvda3kxuww62zfddua	326	65	xanaduensis	xanaduensis	NN
work_kkta46aprvda3kxuww62zfddua	326	66	Haloquadratum	Haloquadratum	NNP
work_kkta46aprvda3kxuww62zfddua	326	67	walsbyi	walsbyi	NNP
work_kkta46aprvda3kxuww62zfddua	326	68	Halorhabdus	Halorhabdus	NNP
work_kkta46aprvda3kxuww62zfddua	326	69	utahensis	utahensis	NN
work_kkta46aprvda3kxuww62zfddua	326	70	Halorubrum	Halorubrum	NNP
work_kkta46aprvda3kxuww62zfddua	326	71	lacusprofundi	lacusprofundi	NN
work_kkta46aprvda3kxuww62zfddua	326	72	Haloterrigena	Haloterrigena	NNP
work_kkta46aprvda3kxuww62zfddua	326	73	turkmenica	turkmenica	NNP
work_kkta46aprvda3kxuww62zfddua	326	74	Methanocella	Methanocella	NNP
work_kkta46aprvda3kxuww62zfddua	326	75	paludicola	paludicola	NNP
work_kkta46aprvda3kxuww62zfddua	326	76	Methanococcoides	Methanococcoides	NNP
work_kkta46aprvda3kxuww62zfddua	326	77	burtonii	burtonii	NN
work_kkta46aprvda3kxuww62zfddua	326	78	Methanocorpusculum	Methanocorpusculum	NNP
work_kkta46aprvda3kxuww62zfddua	326	79	labreanum	labreanum	NN
work_kkta46aprvda3kxuww62zfddua	326	80	Methanoculleus	Methanoculleus	NNP
work_kkta46aprvda3kxuww62zfddua	326	81	marisnigri	marisnigri	VBP
work_kkta46aprvda3kxuww62zfddua	326	82	Methanohalobium	Methanohalobium	NNP
work_kkta46aprvda3kxuww62zfddua	326	83	evestigatum	evestigatum	NN
work_kkta46aprvda3kxuww62zfddua	326	84	Methanohalophilus	Methanohalophilus	NNP
work_kkta46aprvda3kxuww62zfddua	326	85	mahii	mahii	NN
work_kkta46aprvda3kxuww62zfddua	326	86	Methanomethylovorans	Methanomethylovorans	NNP
work_kkta46aprvda3kxuww62zfddua	326	87	hollandica	hollandica	NNP
work_kkta46aprvda3kxuww62zfddua	326	88	Methanoplanus	Methanoplanus	NNP
work_kkta46aprvda3kxuww62zfddua	326	89	petrolearius	petrolearius	NN
work_kkta46aprvda3kxuww62zfddua	326	90	Methanoregula	Methanoregula	NNP
work_kkta46aprvda3kxuww62zfddua	326	91	boonei	boonei	CC
work_kkta46aprvda3kxuww62zfddua	326	92	Methanosaeta	Methanosaeta	NNP
work_kkta46aprvda3kxuww62zfddua	326	93	concilii	concilii	NN
work_kkta46aprvda3kxuww62zfddua	326	94	Methanosalsum	Methanosalsum	NNP
work_kkta46aprvda3kxuww62zfddua	326	95	zhilinae	zhilinae	NNP
work_kkta46aprvda3kxuww62zfddua	326	96	Methanosarcina	Methanosarcina	NNP
work_kkta46aprvda3kxuww62zfddua	326	97	acetivorans	acetivorans	NNPS
work_kkta46aprvda3kxuww62zfddua	326	98	Methanosphaerula	Methanosphaerula	NNP
work_kkta46aprvda3kxuww62zfddua	326	99	palustris	palustris	NN
work_kkta46aprvda3kxuww62zfddua	326	100	Methanothermus	Methanothermus	NNP
work_kkta46aprvda3kxuww62zfddua	326	101	fervidus	fervidus	NN
work_kkta46aprvda3kxuww62zfddua	326	102	Natrialba	Natrialba	NNP
work_kkta46aprvda3kxuww62zfddua	326	103	magadii	magadii	JJ
work_kkta46aprvda3kxuww62zfddua	326	104	Natronococcus	Natronococcus	NNP
work_kkta46aprvda3kxuww62zfddua	326	105	occultus	occultus	NN
work_kkta46aprvda3kxuww62zfddua	326	106	Natronomonas	Natronomonas	NNP
work_kkta46aprvda3kxuww62zfddua	326	107	pharaonis	pharaonis	NN
work_kkta46aprvda3kxuww62zfddua	326	108	Natronorubrum	Natronorubrum	NNP
work_kkta46aprvda3kxuww62zfddua	326	109	tibetense	tibetense	NN
work_kkta46aprvda3kxuww62zfddua	326	110	Picrophilus	Picrophilus	NNP
work_kkta46aprvda3kxuww62zfddua	326	111	torridus	torridus	VB
work_kkta46aprvda3kxuww62zfddua	326	112	Thermoplasma	Thermoplasma	NNP
work_kkta46aprvda3kxuww62zfddua	326	113	acidophilum	acidophilum	NN
work_kkta46aprvda3kxuww62zfddua	326	114	Euryarchaeota	Euryarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	326	115	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	326	116	c	c	NN
work_kkta46aprvda3kxuww62zfddua	326	117	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	326	118	with	with	IN
work_kkta46aprvda3kxuww62zfddua	326	119	two	two	CD
work_kkta46aprvda3kxuww62zfddua	326	120	hairpins	hairpin	NNS
work_kkta46aprvda3kxuww62zfddua	326	121	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	326	122	Methanobacterium	Methanobacterium	NNP
work_kkta46aprvda3kxuww62zfddua	326	123	sp	sp	NNP
work_kkta46aprvda3kxuww62zfddua	326	124	.	.	.
work_kkta46aprvda3kxuww62zfddua	327	1	AL-21	al-21	RB
work_kkta46aprvda3kxuww62zfddua	327	2	g	g	LS
work_kkta46aprvda3kxuww62zfddua	327	3	a	a	DT
work_kkta46aprvda3kxuww62zfddua	327	4	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	327	5	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	327	6	Methanobrevibacter	Methanobrevibacter	NNP
work_kkta46aprvda3kxuww62zfddua	327	7	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	327	8	g	g	NNP
work_kkta46aprvda3kxuww62zfddua	327	9	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	327	10	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	327	11	Methanosphaera	Methanosphaera	NNP
work_kkta46aprvda3kxuww62zfddua	327	12	stadtmanae	stadtmanae	NNP
work_kkta46aprvda3kxuww62zfddua	327	13	g	g	NNP
work_kkta46aprvda3kxuww62zfddua	327	14	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	327	15	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	327	16	Methanothermobacter	Methanothermobacter	NNP
work_kkta46aprvda3kxuww62zfddua	327	17	thermautotrophicus	thermautotrophicus	NN
work_kkta46aprvda3kxuww62zfddua	327	18	g	g	NN
work_kkta46aprvda3kxuww62zfddua	327	19	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	327	20	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	327	21	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	327	22	furiosus	furiosus	NNP
work_kkta46aprvda3kxuww62zfddua	327	23	e	e	NNP
work_kkta46aprvda3kxuww62zfddua	327	24	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	327	25	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	327	26	Thermococcus	Thermococcus	NNP
work_kkta46aprvda3kxuww62zfddua	327	27	onnurineus	onnurineus	NNP
work_kkta46aprvda3kxuww62zfddua	327	28	e	e	NN
work_kkta46aprvda3kxuww62zfddua	327	29	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	327	30	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	327	31	lies	lie	VBZ
work_kkta46aprvda3kxuww62zfddua	327	32	on	on	IN
work_kkta46aprvda3kxuww62zfddua	327	33	a	a	DT
work_kkta46aprvda3kxuww62zfddua	327	34	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	327	35	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	327	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	328	1	This	this	DT
work_kkta46aprvda3kxuww62zfddua	328	2	pathway	pathway	NN
work_kkta46aprvda3kxuww62zfddua	328	3	allows	allow	VBZ
work_kkta46aprvda3kxuww62zfddua	328	4	for	for	IN
work_kkta46aprvda3kxuww62zfddua	328	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	328	6	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	328	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	328	8	only	only	RB
work_kkta46aprvda3kxuww62zfddua	328	9	a	a	DT
work_kkta46aprvda3kxuww62zfddua	328	10	fraction	fraction	NN
work_kkta46aprvda3kxuww62zfddua	328	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	328	12	an	an	DT
work_kkta46aprvda3kxuww62zfddua	328	13	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	328	14	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	328	15	104	104	CD
work_kkta46aprvda3kxuww62zfddua	328	16	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	328	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	329	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	329	2	same	same	JJ
work_kkta46aprvda3kxuww62zfddua	329	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	329	4	true	true	JJ
work_kkta46aprvda3kxuww62zfddua	329	5	for	for	IN
work_kkta46aprvda3kxuww62zfddua	329	6	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	329	7	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	329	8	em-	em-	NNP
work_kkta46aprvda3kxuww62zfddua	329	9	ploy	ploy	VBP
work_kkta46aprvda3kxuww62zfddua	329	10	pretty	pretty	RB
work_kkta46aprvda3kxuww62zfddua	329	11	much	much	RB
work_kkta46aprvda3kxuww62zfddua	329	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	329	13	same	same	JJ
work_kkta46aprvda3kxuww62zfddua	329	14	pathway	pathway	NN
work_kkta46aprvda3kxuww62zfddua	329	15	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	329	16	29	29	CD
work_kkta46aprvda3kxuww62zfddua	329	17	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	329	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	330	1	So	so	RB
work_kkta46aprvda3kxuww62zfddua	330	2	far	far	RB
work_kkta46aprvda3kxuww62zfddua	330	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	330	4	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	330	5	bioenergetics	bioenergetic	NNS
work_kkta46aprvda3kxuww62zfddua	330	6	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	330	7	Site	site	NN
work_kkta46aprvda3kxuww62zfddua	330	8	1	1	CD
work_kkta46aprvda3kxuww62zfddua	330	9	b	b	CD
work_kkta46aprvda3kxuww62zfddua	330	10	Site	site	NN
work_kkta46aprvda3kxuww62zfddua	330	11	2	2	CD
work_kkta46aprvda3kxuww62zfddua	330	12	b	b	NN
work_kkta46aprvda3kxuww62zfddua	330	13	Ion	Ion	NNP
work_kkta46aprvda3kxuww62zfddua	330	14	c	c	NN
work_kkta46aprvda3kxuww62zfddua	330	15	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	16	VxETTxxY	VxETTxxY	:
work_kkta46aprvda3kxuww62zfddua	330	17	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	18	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	19	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	20	VxESTxxY	VxESTxxY	:
work_kkta46aprvda3kxuww62zfddua	330	21	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	22	+	+	ADD
work_kkta46aprvda3kxuww62zfddua	330	23	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	24	IxESTxxY	IxESTxxY	.
work_kkta46aprvda3kxuww62zfddua	330	25	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	26	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	27	N	n	NN
work_kkta46aprvda3kxuww62zfddua	330	28	LxEALxxI	lxealxxi	NN
work_kkta46aprvda3kxuww62zfddua	330	29	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	30	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	31	I	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	330	32	LxDAIxxI	LxDAIxxI	:
work_kkta46aprvda3kxuww62zfddua	330	33	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	34	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	35	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	36	LxGTQxxY	LxGTQxxY	''
work_kkta46aprvda3kxuww62zfddua	330	37	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	38	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	39	MxETYxxL	MxETYxxL	.
work_kkta46aprvda3kxuww62zfddua	330	40	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	41	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	42	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	43	IxETIxxF	IxETIxxF	''
work_kkta46aprvda3kxuww62zfddua	330	44	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	45	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	46	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	47	IxETIxxF	IxETIxxF	''
work_kkta46aprvda3kxuww62zfddua	330	48	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	49	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	50	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	51	LxETLxxL	LxETLxxL	''
work_kkta46aprvda3kxuww62zfddua	330	52	Na	na	IN
work_kkta46aprvda3kxuww62zfddua	330	53	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	54	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	55	LxETLxxL	LxETLxxL	''
work_kkta46aprvda3kxuww62zfddua	330	56	Na	na	IN
work_kkta46aprvda3kxuww62zfddua	330	57	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	58	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	59	LxETLxxL	LxETLxxL	''
work_kkta46aprvda3kxuww62zfddua	330	60	Na	na	IN
work_kkta46aprvda3kxuww62zfddua	330	61	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	62	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	63	LxETLxxL	LxETLxxL	''
work_kkta46aprvda3kxuww62zfddua	330	64	Na	na	IN
work_kkta46aprvda3kxuww62zfddua	330	65	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	66	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	67	LxETLxxL	LxETLxxL	''
work_kkta46aprvda3kxuww62zfddua	330	68	Na	na	IN
work_kkta46aprvda3kxuww62zfddua	330	69	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	70	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	71	LxETLxxL	LxETLxxL	''
work_kkta46aprvda3kxuww62zfddua	330	72	Na	na	IN
work_kkta46aprvda3kxuww62zfddua	330	73	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	74	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	75	LxETLxxL	LxETLxxL	''
work_kkta46aprvda3kxuww62zfddua	330	76	Na	na	IN
work_kkta46aprvda3kxuww62zfddua	330	77	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	78	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	79	LxETIxxL	LxETIxxL	.
work_kkta46aprvda3kxuww62zfddua	330	80	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	81	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	82	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	83	LxETLxxL	LxETLxxL	''
work_kkta46aprvda3kxuww62zfddua	330	84	Na	na	IN
work_kkta46aprvda3kxuww62zfddua	330	85	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	86	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	87	LxETIxxL	LxETIxxL	.
work_kkta46aprvda3kxuww62zfddua	330	88	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	89	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	90	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	91	LxETLxxL	LxETLxxL	.
work_kkta46aprvda3kxuww62zfddua	330	92	Na	Na	NNS
work_kkta46aprvda3kxuww62zfddua	330	93	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	94	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	95	IxETLxxL	ixetlxxl	XX
work_kkta46aprvda3kxuww62zfddua	330	96	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	97	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	98	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	99	IxETIxxF	IxETIxxF	''
work_kkta46aprvda3kxuww62zfddua	330	100	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	101	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	102	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	103	LxETVxxF	LxETVxxF	''
work_kkta46aprvda3kxuww62zfddua	330	104	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	105	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	106	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	107	IxETIxxF	IxETIxxF	''
work_kkta46aprvda3kxuww62zfddua	330	108	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	109	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	110	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	111	IxETIxxF	IxETIxxF	''
work_kkta46aprvda3kxuww62zfddua	330	112	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	113	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	114	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	115	IxETIxxF	IxETIxxF	''
work_kkta46aprvda3kxuww62zfddua	330	116	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	117	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	118	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	119	IxETIxxF	IxETIxxF	''
work_kkta46aprvda3kxuww62zfddua	330	120	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	121	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	122	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	123	IxETVxxF	IxETVxxF	.
work_kkta46aprvda3kxuww62zfddua	330	124	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	125	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	126	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	127	IxETIxxF	IxETIxxF	''
work_kkta46aprvda3kxuww62zfddua	330	128	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	129	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	130	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	131	LxETLxxF	LxETLxxF	''
work_kkta46aprvda3kxuww62zfddua	330	132	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	133	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	134	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	135	IxEAIxxF	ixeaixxf	NN
work_kkta46aprvda3kxuww62zfddua	330	136	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	137	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	138	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	139	IxETIxxF	IxETIxxF	''
work_kkta46aprvda3kxuww62zfddua	330	140	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	141	+	+	NNS
work_kkta46aprvda3kxuww62zfddua	330	142	/H	/H	.
work_kkta46aprvda3kxuww62zfddua	330	143	+	+	SYM
work_kkta46aprvda3kxuww62zfddua	330	144	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	145	IxETIxxF	IxETIxxF	''
work_kkta46aprvda3kxuww62zfddua	330	146	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	147	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	148	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	149	LxETHxxF	LxETHxxF	.
work_kkta46aprvda3kxuww62zfddua	330	150	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	151	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	152	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	153	LxETLxxL	LxETLxxL	''
work_kkta46aprvda3kxuww62zfddua	330	154	Na	na	IN
work_kkta46aprvda3kxuww62zfddua	330	155	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	156	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	157	LxETLxxF	LxETLxxF	''
work_kkta46aprvda3kxuww62zfddua	330	158	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	159	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	160	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	161	LxETLxxL	LxETLxxL	''
work_kkta46aprvda3kxuww62zfddua	330	162	Na	na	IN
work_kkta46aprvda3kxuww62zfddua	330	163	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	164	E	e	NN
work_kkta46aprvda3kxuww62zfddua	330	165	LxETLxxL	LxETLxxL	.
work_kkta46aprvda3kxuww62zfddua	330	166	Na	Na	NNS
work_kkta46aprvda3kxuww62zfddua	330	167	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	168	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	169	IxETLxxI	IxETLxxI	:
work_kkta46aprvda3kxuww62zfddua	330	170	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	171	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	172	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	173	IxETLxxI	IxETLxxI	:
work_kkta46aprvda3kxuww62zfddua	330	174	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	175	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	176	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	177	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	178	Na	na	RB
work_kkta46aprvda3kxuww62zfddua	330	179	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	180	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	181	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	182	Na	na	RB
work_kkta46aprvda3kxuww62zfddua	330	183	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	184	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	185	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	186	Na	na	RB
work_kkta46aprvda3kxuww62zfddua	330	187	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	188	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	189	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	190	Na	na	RB
work_kkta46aprvda3kxuww62zfddua	330	191	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	192	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	193	IxETQxxY	IxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	194	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	195	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	196	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	197	IxETQxxY	IxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	198	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	199	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	200	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	201	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	202	Na	na	RB
work_kkta46aprvda3kxuww62zfddua	330	203	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	204	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	205	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	206	Na	Na	NNS
work_kkta46aprvda3kxuww62zfddua	330	207	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	208	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	209	LxMTQxxY	LxMTQxxY	''
work_kkta46aprvda3kxuww62zfddua	330	210	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	211	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	212	MxETMxxF	MxETMxxF	.
work_kkta46aprvda3kxuww62zfddua	330	213	Na	Na	NNS
work_kkta46aprvda3kxuww62zfddua	330	214	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	215	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	216	LxMTQxxY	LxMTQxxY	''
work_kkta46aprvda3kxuww62zfddua	330	217	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	218	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	219	MxETMxxF	MxETMxxF	.
work_kkta46aprvda3kxuww62zfddua	330	220	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	221	+	+	NFP
work_kkta46aprvda3kxuww62zfddua	330	222	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	330	223	continued	continue	VBN
work_kkta46aprvda3kxuww62zfddua	330	224	on	on	IN
work_kkta46aprvda3kxuww62zfddua	330	225	next	next	JJ
work_kkta46aprvda3kxuww62zfddua	330	226	page	page	NN
work_kkta46aprvda3kxuww62zfddua	330	227	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	330	228	Euryarchaeota	Euryarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	330	229	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	330	230	c	c	NN
work_kkta46aprvda3kxuww62zfddua	330	231	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	330	232	with	with	IN
work_kkta46aprvda3kxuww62zfddua	330	233	three	three	CD
work_kkta46aprvda3kxuww62zfddua	330	234	hairpins	hairpin	NNS
work_kkta46aprvda3kxuww62zfddua	330	235	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	330	236	h	h	LS
work_kkta46aprvda3kxuww62zfddua	330	237	Methanocaldococcus	methanocaldococcus	NN
work_kkta46aprvda3kxuww62zfddua	330	238	jannaschii	jannaschii	NN
work_kkta46aprvda3kxuww62zfddua	330	239	a	a	DT
work_kkta46aprvda3kxuww62zfddua	330	240	H1-H2	h1-h2	NN
work_kkta46aprvda3kxuww62zfddua	330	241	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	330	242	LxQTQxxY	LxQTQxxY	''
work_kkta46aprvda3kxuww62zfddua	330	243	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	244	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	330	245	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	330	246	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	247	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	248	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	249	H5-H6	h5-h6	NN
work_kkta46aprvda3kxuww62zfddua	330	250	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	251	MxETFxxF	MxETFxxF	.
work_kkta46aprvda3kxuww62zfddua	330	252	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	253	+	+	NNP
work_kkta46aprvda3kxuww62zfddua	330	254	Methanococcus	methanococcus	NN
work_kkta46aprvda3kxuww62zfddua	330	255	maripaludis	maripaludis	NN
work_kkta46aprvda3kxuww62zfddua	330	256	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	330	257	A	a	NN
work_kkta46aprvda3kxuww62zfddua	330	258	LxQTQxxY	LxQTQxxY	''
work_kkta46aprvda3kxuww62zfddua	330	259	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	260	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	330	261	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	330	262	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	263	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	264	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	265	H5-H6	h5-h6	NN
work_kkta46aprvda3kxuww62zfddua	330	266	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	267	MxETFxxF	MxETFxxF	.
work_kkta46aprvda3kxuww62zfddua	330	268	Na	na	RB
work_kkta46aprvda3kxuww62zfddua	330	269	+	+	NNS
work_kkta46aprvda3kxuww62zfddua	330	270	Methanospirillum	Methanospirillum	NNP
work_kkta46aprvda3kxuww62zfddua	330	271	hungatei	hungatei	VB
work_kkta46aprvda3kxuww62zfddua	330	272	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	330	273	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	274	IxQTQxxY	ixqtqxxy	ADD
work_kkta46aprvda3kxuww62zfddua	330	275	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	276	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	330	277	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	330	278	VxETQxxY	VxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	279	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	280	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	281	H5-H6	h5-h6	NN
work_kkta46aprvda3kxuww62zfddua	330	282	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	283	MxETFxxF	MxETFxxF	.
work_kkta46aprvda3kxuww62zfddua	330	284	Na	na	NN
work_kkta46aprvda3kxuww62zfddua	330	285	+	+	SYM
work_kkta46aprvda3kxuww62zfddua	330	286	Methanothermococcus	Methanothermococcus	NNP
work_kkta46aprvda3kxuww62zfddua	330	287	okinawensis	okinawensis	NN
work_kkta46aprvda3kxuww62zfddua	330	288	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	330	289	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	330	290	LxQTQxxY	LxQTQxxY	''
work_kkta46aprvda3kxuww62zfddua	330	291	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	292	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	330	293	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	330	294	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	295	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	296	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	297	H5-H6	h5-h6	NN
work_kkta46aprvda3kxuww62zfddua	330	298	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	299	MxETFxxF	MxETFxxF	.
work_kkta46aprvda3kxuww62zfddua	330	300	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	301	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	302	Methanotorris	Methanotorris	NNP
work_kkta46aprvda3kxuww62zfddua	330	303	igneus	igneus	NNP
work_kkta46aprvda3kxuww62zfddua	330	304	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	330	305	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	330	306	LxQTQxxY	LxQTQxxY	''
work_kkta46aprvda3kxuww62zfddua	330	307	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	308	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	330	309	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	330	310	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	311	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	312	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	313	H5-H6	h5-h6	NN
work_kkta46aprvda3kxuww62zfddua	330	314	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	315	MxETFxxF	MxETFxxF	.
work_kkta46aprvda3kxuww62zfddua	330	316	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	317	+	+	NNP
work_kkta46aprvda3kxuww62zfddua	330	318	Euryarchaeota	Euryarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	330	319	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	330	320	c	c	NN
work_kkta46aprvda3kxuww62zfddua	330	321	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	330	322	with	with	IN
work_kkta46aprvda3kxuww62zfddua	330	323	13	13	CD
work_kkta46aprvda3kxuww62zfddua	330	324	hairpins	hairpin	NNS
work_kkta46aprvda3kxuww62zfddua	330	325	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	330	326	Methanopyrus	Methanopyrus	NNP
work_kkta46aprvda3kxuww62zfddua	330	327	kandleri	kandleri	NN
work_kkta46aprvda3kxuww62zfddua	330	328	i	i	PRP
work_kkta46aprvda3kxuww62zfddua	330	329	Q	q	VBP
work_kkta46aprvda3kxuww62zfddua	330	330	FxETQxxY	FxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	331	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	332	+	+	DT
work_kkta46aprvda3kxuww62zfddua	330	333	Crenarchaeota	Crenarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	330	334	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	330	335	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	330	336	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	330	337	with	with	IN
work_kkta46aprvda3kxuww62zfddua	330	338	one	one	CD
work_kkta46aprvda3kxuww62zfddua	330	339	hairpin	hairpin	NN
work_kkta46aprvda3kxuww62zfddua	330	340	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	330	341	f	f	NNP
work_kkta46aprvda3kxuww62zfddua	330	342	Acidianus	Acidianus	NNP
work_kkta46aprvda3kxuww62zfddua	330	343	hospitalis	hospitali	VBZ
work_kkta46aprvda3kxuww62zfddua	330	344	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	345	IxEGIxxY	IxEGIxxY	.
work_kkta46aprvda3kxuww62zfddua	330	346	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	347	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	348	Acidilobus	Acidilobus	NNP
work_kkta46aprvda3kxuww62zfddua	330	349	saccharovorans	saccharovoran	VBZ
work_kkta46aprvda3kxuww62zfddua	330	350	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	351	LxEGIxxY	LxEGIxxY	NNP
work_kkta46aprvda3kxuww62zfddua	330	352	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	330	353	+	+	SYM
work_kkta46aprvda3kxuww62zfddua	330	354	Aeropyrum	Aeropyrum	NNP
work_kkta46aprvda3kxuww62zfddua	330	355	pernix	pernix	NN
work_kkta46aprvda3kxuww62zfddua	330	356	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	357	LxEGIxxY	lxegixxy	NN
work_kkta46aprvda3kxuww62zfddua	330	358	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	359	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	360	Caldisphaera	Caldisphaera	NNP
work_kkta46aprvda3kxuww62zfddua	330	361	lagunensis	lagunensis	VB
work_kkta46aprvda3kxuww62zfddua	330	362	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	363	LxEGIxxY	lxegixxy	NN
work_kkta46aprvda3kxuww62zfddua	330	364	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	330	365	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	366	Caldivirga	Caldivirga	NNP
work_kkta46aprvda3kxuww62zfddua	330	367	maquilingensis	maquilingensis	NN
work_kkta46aprvda3kxuww62zfddua	330	368	M	m	NN
work_kkta46aprvda3kxuww62zfddua	330	369	FxETIxxY	fxetixxy	NN
work_kkta46aprvda3kxuww62zfddua	330	370	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	330	371	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	372	Hyperthermus	hyperthermus	NN
work_kkta46aprvda3kxuww62zfddua	330	373	butylicus	butylicus	NN
work_kkta46aprvda3kxuww62zfddua	330	374	L	l	NN
work_kkta46aprvda3kxuww62zfddua	330	375	LxEGIxxY	LxEGIxxY	:
work_kkta46aprvda3kxuww62zfddua	330	376	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	330	377	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	378	Ignicoccus	Ignicoccus	NNP
work_kkta46aprvda3kxuww62zfddua	330	379	hospitalis	hospitali	VBD
work_kkta46aprvda3kxuww62zfddua	330	380	L	L	NNP
work_kkta46aprvda3kxuww62zfddua	330	381	IxETPxxY	IxETPxxY	:
work_kkta46aprvda3kxuww62zfddua	330	382	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	383	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	384	Metallosphaera	metallosphaera	NN
work_kkta46aprvda3kxuww62zfddua	330	385	sedula	sedula	VB
work_kkta46aprvda3kxuww62zfddua	330	386	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	387	IxEGIxxY	IxEGIxxY	.
work_kkta46aprvda3kxuww62zfddua	330	388	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	389	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	390	Pyrobaculum	Pyrobaculum	NNP
work_kkta46aprvda3kxuww62zfddua	330	391	aerophilum	aerophilum	NN
work_kkta46aprvda3kxuww62zfddua	330	392	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	393	LxEAIxxY	LxEAIxxY	.
work_kkta46aprvda3kxuww62zfddua	330	394	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	330	395	+	+	SYM
work_kkta46aprvda3kxuww62zfddua	330	396	Pyrolobus	Pyrolobus	NNP
work_kkta46aprvda3kxuww62zfddua	330	397	fumarii	fumarii	VBZ
work_kkta46aprvda3kxuww62zfddua	330	398	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	399	LxEGIxxY	lxegixxy	NN
work_kkta46aprvda3kxuww62zfddua	330	400	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	330	401	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	402	Sulfolobus	Sulfolobus	NNP
work_kkta46aprvda3kxuww62zfddua	330	403	acidocaldarius	acidocaldarius	NN
work_kkta46aprvda3kxuww62zfddua	330	404	V	v	NN
work_kkta46aprvda3kxuww62zfddua	330	405	IxEGIxxY	IxEGIxxY	.
work_kkta46aprvda3kxuww62zfddua	330	406	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	407	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	408	Thermofilum	thermofilum	NN
work_kkta46aprvda3kxuww62zfddua	330	409	pendens	penden	VBZ
work_kkta46aprvda3kxuww62zfddua	330	410	L	l	NN
work_kkta46aprvda3kxuww62zfddua	330	411	LxEGIxxY	LxEGIxxY	:
work_kkta46aprvda3kxuww62zfddua	330	412	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	413	+	+	SYM
work_kkta46aprvda3kxuww62zfddua	330	414	Thermoproteus	Thermoproteus	NNP
work_kkta46aprvda3kxuww62zfddua	330	415	neutrophilus	neutrophilus	IN
work_kkta46aprvda3kxuww62zfddua	330	416	L	l	NN
work_kkta46aprvda3kxuww62zfddua	330	417	LxEAVxxY	lxeavxxy	NN
work_kkta46aprvda3kxuww62zfddua	330	418	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	419	+	+	SYM
work_kkta46aprvda3kxuww62zfddua	330	420	Thermosphaera	Thermosphaera	NNP
work_kkta46aprvda3kxuww62zfddua	330	421	aggregans	aggregan	NNS
work_kkta46aprvda3kxuww62zfddua	330	422	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	330	423	YxELWxxL	yxelwxxl	NN
work_kkta46aprvda3kxuww62zfddua	330	424	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	425	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	426	Vulcanisaeta	vulcanisaeta	NN
work_kkta46aprvda3kxuww62zfddua	330	427	distributa	distributa	NN
work_kkta46aprvda3kxuww62zfddua	330	428	I	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	330	429	LxEAIxxY	LxEAIxxY	.
work_kkta46aprvda3kxuww62zfddua	330	430	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	431	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	432	Crenarchaeota	crenarchaeota	NN
work_kkta46aprvda3kxuww62zfddua	330	433	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	330	434	c	c	NN
work_kkta46aprvda3kxuww62zfddua	330	435	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	330	436	with	with	IN
work_kkta46aprvda3kxuww62zfddua	330	437	two	two	CD
work_kkta46aprvda3kxuww62zfddua	330	438	hairpins	hairpin	NNS
work_kkta46aprvda3kxuww62zfddua	330	439	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	330	440	g	g	LS
work_kkta46aprvda3kxuww62zfddua	330	441	Desulfurococcus	Desulfurococcus	NNP
work_kkta46aprvda3kxuww62zfddua	330	442	kamchatkensis	kamchatkensis	NN
work_kkta46aprvda3kxuww62zfddua	330	443	a	a	DT
work_kkta46aprvda3kxuww62zfddua	330	444	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	330	445	M	M	NNP
work_kkta46aprvda3kxuww62zfddua	330	446	LxMTQxxY	lxmtqxxy	NN
work_kkta46aprvda3kxuww62zfddua	330	447	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	448	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	330	449	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	330	450	YxELWxxY	YxELWxxY	.
work_kkta46aprvda3kxuww62zfddua	330	451	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	452	+	+	SYM
work_kkta46aprvda3kxuww62zfddua	330	453	Ignisphaera	Ignisphaera	NNP
work_kkta46aprvda3kxuww62zfddua	330	454	aggregans	aggregans	NNPS
work_kkta46aprvda3kxuww62zfddua	330	455	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	330	456	T	T	NNP
work_kkta46aprvda3kxuww62zfddua	330	457	FxMTQxxA	FxMTQxxA	''
work_kkta46aprvda3kxuww62zfddua	330	458	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	459	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	330	460	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	330	461	YxELFxxI	YxELFxxI	.
work_kkta46aprvda3kxuww62zfddua	330	462	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	463	+	+	SYM
work_kkta46aprvda3kxuww62zfddua	330	464	Staphylothermus	Staphylothermus	NNP
work_kkta46aprvda3kxuww62zfddua	330	465	marinus	marinus	NN
work_kkta46aprvda3kxuww62zfddua	330	466	H1-H2	H1-H2	NNP
work_kkta46aprvda3kxuww62zfddua	330	467	M	M	NNP
work_kkta46aprvda3kxuww62zfddua	330	468	LxMTQxxY	lxmtqxxy	XX
work_kkta46aprvda3kxuww62zfddua	330	469	--	--	:
work_kkta46aprvda3kxuww62zfddua	330	470	H3-H4	H3-H4	NNP
work_kkta46aprvda3kxuww62zfddua	330	471	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	330	472	YxELIxxL	yxelixxl	ADD
work_kkta46aprvda3kxuww62zfddua	330	473	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	474	+	+	NNP
work_kkta46aprvda3kxuww62zfddua	330	475	Nanoarchaeota	Nanoarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	330	476	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	330	477	c	c	NN
work_kkta46aprvda3kxuww62zfddua	330	478	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	330	479	with	with	IN
work_kkta46aprvda3kxuww62zfddua	330	480	one	one	CD
work_kkta46aprvda3kxuww62zfddua	330	481	hairpin	hairpin	NN
work_kkta46aprvda3kxuww62zfddua	330	482	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	330	483	f	f	NNP
work_kkta46aprvda3kxuww62zfddua	330	484	Nanoarchaeum	nanoarchaeum	JJ
work_kkta46aprvda3kxuww62zfddua	330	485	equitans	equitan	NNS
work_kkta46aprvda3kxuww62zfddua	330	486	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	330	487	LxETQxxY	LxETQxxY	.
work_kkta46aprvda3kxuww62zfddua	330	488	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	330	489	+	+	SYM
work_kkta46aprvda3kxuww62zfddua	330	490	Korarchaeota	Korarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	330	491	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	330	492	c	c	NN
work_kkta46aprvda3kxuww62zfddua	330	493	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	330	494	with	with	IN
work_kkta46aprvda3kxuww62zfddua	330	495	one	one	CD
work_kkta46aprvda3kxuww62zfddua	330	496	hairpin	hairpin	NN
work_kkta46aprvda3kxuww62zfddua	330	497	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	330	498	f	f	NNP
work_kkta46aprvda3kxuww62zfddua	330	499	Korarchaeum	Korarchaeum	NNP
work_kkta46aprvda3kxuww62zfddua	330	500	cryptofilum	cryptofilum	NN
work_kkta46aprvda3kxuww62zfddua	330	501	L	l	NN
work_kkta46aprvda3kxuww62zfddua	330	502	LxEGVxxY	LxEGVxxY	:
work_kkta46aprvda3kxuww62zfddua	330	503	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	330	504	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	505	Thaumarchaeota	thaumarchaeota	NN
work_kkta46aprvda3kxuww62zfddua	330	506	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	330	507	c	c	NN
work_kkta46aprvda3kxuww62zfddua	330	508	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	330	509	with	with	IN
work_kkta46aprvda3kxuww62zfddua	330	510	one	one	CD
work_kkta46aprvda3kxuww62zfddua	330	511	hairpin	hairpin	NN
work_kkta46aprvda3kxuww62zfddua	330	512	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	330	513	f	f	NNP
work_kkta46aprvda3kxuww62zfddua	330	514	Cenarchaeum	Cenarchaeum	NNP
work_kkta46aprvda3kxuww62zfddua	330	515	symbiosum	symbiosum	NN
work_kkta46aprvda3kxuww62zfddua	330	516	L	l	NN
work_kkta46aprvda3kxuww62zfddua	330	517	MxESIxxY	mxesixxy	NN
work_kkta46aprvda3kxuww62zfddua	330	518	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	330	519	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	520	Nitrosopumilus	nitrosopumilus	JJ
work_kkta46aprvda3kxuww62zfddua	330	521	maritimus	maritimus	NN
work_kkta46aprvda3kxuww62zfddua	330	522	L	l	NN
work_kkta46aprvda3kxuww62zfddua	330	523	MxESIxxY	MxESIxxY	:
work_kkta46aprvda3kxuww62zfddua	330	524	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	330	525	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	526	Nitrosoarchaeum	Nitrosoarchaeum	NNP
work_kkta46aprvda3kxuww62zfddua	330	527	limnia	limnia	NN
work_kkta46aprvda3kxuww62zfddua	330	528	L	l	NN
work_kkta46aprvda3kxuww62zfddua	330	529	MxESIxxY	mxesixxy	NN
work_kkta46aprvda3kxuww62zfddua	330	530	H	H	NNP
work_kkta46aprvda3kxuww62zfddua	330	531	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	532	Nitrososphaera	Nitrososphaera	NNP
work_kkta46aprvda3kxuww62zfddua	330	533	gargensis	gargensis	NN
work_kkta46aprvda3kxuww62zfddua	330	534	L	l	NN
work_kkta46aprvda3kxuww62zfddua	330	535	MxESIxxY	MxESIxxY	:
work_kkta46aprvda3kxuww62zfddua	330	536	H	h	NN
work_kkta46aprvda3kxuww62zfddua	330	537	+	+	CC
work_kkta46aprvda3kxuww62zfddua	330	538	Organism	organism	NN
work_kkta46aprvda3kxuww62zfddua	330	539	Site	site	NN
work_kkta46aprvda3kxuww62zfddua	330	540	1	1	CD
work_kkta46aprvda3kxuww62zfddua	330	541	b	b	CD
work_kkta46aprvda3kxuww62zfddua	330	542	Site	site	NN
work_kkta46aprvda3kxuww62zfddua	330	543	2	2	CD
work_kkta46aprvda3kxuww62zfddua	330	544	b	b	NN
work_kkta46aprvda3kxuww62zfddua	330	545	Ion	Ion	NNP
work_kkta46aprvda3kxuww62zfddua	330	546	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	330	547	Table	table	NN
work_kkta46aprvda3kxuww62zfddua	330	548	1	1	CD
work_kkta46aprvda3kxuww62zfddua	330	549	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	330	550	continued	continue	VBD
work_kkta46aprvda3kxuww62zfddua	330	551	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	330	552	a	a	DT
work_kkta46aprvda3kxuww62zfddua	330	553	H1	h1	NN
work_kkta46aprvda3kxuww62zfddua	330	554	=	=	SYM
work_kkta46aprvda3kxuww62zfddua	330	555	Helix	Helix	NNP
work_kkta46aprvda3kxuww62zfddua	330	556	1	1	CD
work_kkta46aprvda3kxuww62zfddua	330	557	,	,	,
work_kkta46aprvda3kxuww62zfddua	330	558	H2	H2	NNP
work_kkta46aprvda3kxuww62zfddua	330	559	=	=	SYM
work_kkta46aprvda3kxuww62zfddua	330	560	Helix	Helix	NNP
work_kkta46aprvda3kxuww62zfddua	330	561	2	2	CD
work_kkta46aprvda3kxuww62zfddua	330	562	,	,	,
work_kkta46aprvda3kxuww62zfddua	330	563	H3	H3	NNP
work_kkta46aprvda3kxuww62zfddua	330	564	=	=	SYM
work_kkta46aprvda3kxuww62zfddua	330	565	Helix	Helix	NNP
work_kkta46aprvda3kxuww62zfddua	330	566	3	3	CD
work_kkta46aprvda3kxuww62zfddua	330	567	,	,	,
work_kkta46aprvda3kxuww62zfddua	330	568	H4	H4	NNP
work_kkta46aprvda3kxuww62zfddua	330	569	=	=	SYM
work_kkta46aprvda3kxuww62zfddua	330	570	Helix	Helix	NNP
work_kkta46aprvda3kxuww62zfddua	330	571	4	4	CD
work_kkta46aprvda3kxuww62zfddua	330	572	,	,	,
work_kkta46aprvda3kxuww62zfddua	330	573	H5	H5	NNP
work_kkta46aprvda3kxuww62zfddua	330	574	=	=	SYM
work_kkta46aprvda3kxuww62zfddua	330	575	Helix	Helix	NNP
work_kkta46aprvda3kxuww62zfddua	330	576	5	5	CD
work_kkta46aprvda3kxuww62zfddua	330	577	,	,	,
work_kkta46aprvda3kxuww62zfddua	330	578	H6	H6	NNP
work_kkta46aprvda3kxuww62zfddua	330	579	=	=	SYM
work_kkta46aprvda3kxuww62zfddua	330	580	Helix	Helix	NNP
work_kkta46aprvda3kxuww62zfddua	330	581	6	6	CD
work_kkta46aprvda3kxuww62zfddua	330	582	.	.	.
work_kkta46aprvda3kxuww62zfddua	330	583	b	b	LS
work_kkta46aprvda3kxuww62zfddua	330	584	Site	site	NN
work_kkta46aprvda3kxuww62zfddua	330	585	1	1	CD
work_kkta46aprvda3kxuww62zfddua	330	586	and	and	CC
work_kkta46aprvda3kxuww62zfddua	330	587	2	2	CD
work_kkta46aprvda3kxuww62zfddua	330	588	describes	describe	VBZ
work_kkta46aprvda3kxuww62zfddua	330	589	amino	amino	JJ
work_kkta46aprvda3kxuww62zfddua	330	590	acids	acid	NNS
work_kkta46aprvda3kxuww62zfddua	330	591	of	of	IN
work_kkta46aprvda3kxuww62zfddua	330	592	the	the	DT
work_kkta46aprvda3kxuww62zfddua	330	593	H+	H+	NNP
work_kkta46aprvda3kxuww62zfddua	330	594	or	or	CC
work_kkta46aprvda3kxuww62zfddua	330	595	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	330	596	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	330	597	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	330	598	in	in	IN
work_kkta46aprvda3kxuww62zfddua	330	599	helix	helix	NN
work_kkta46aprvda3kxuww62zfddua	330	600	one	one	CD
work_kkta46aprvda3kxuww62zfddua	330	601	and	and	CC
work_kkta46aprvda3kxuww62zfddua	330	602	two	two	CD
work_kkta46aprvda3kxuww62zfddua	330	603	of	of	IN
work_kkta46aprvda3kxuww62zfddua	330	604	the	the	DT
work_kkta46aprvda3kxuww62zfddua	330	605	hairpin	hairpin	NN
work_kkta46aprvda3kxuww62zfddua	330	606	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	330	607	like	like	NNP
work_kkta46aprvda3kxuww62zfddua	330	608	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	330	609	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	330	610	.	.	.
work_kkta46aprvda3kxuww62zfddua	331	1	c	c	LS
work_kkta46aprvda3kxuww62zfddua	331	2	Except	Except	NNP
work_kkta46aprvda3kxuww62zfddua	331	3	were	be	VBD
work_kkta46aprvda3kxuww62zfddua	331	4	indicated	indicate	VBN
work_kkta46aprvda3kxuww62zfddua	331	5	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	331	6	●	●	NFP
work_kkta46aprvda3kxuww62zfddua	331	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	331	8	experimental	experimental	JJ
work_kkta46aprvda3kxuww62zfddua	331	9	evidence	evidence	NN
work_kkta46aprvda3kxuww62zfddua	331	10	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	331	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	331	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	331	13	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	331	14	specificity	specificity	NN
work_kkta46aprvda3kxuww62zfddua	331	15	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	331	16	suggested	suggest	VBN
work_kkta46aprvda3kxuww62zfddua	331	17	based	base	VBN
work_kkta46aprvda3kxuww62zfddua	331	18	on	on	IN
work_kkta46aprvda3kxuww62zfddua	331	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	331	20	presence	presence	NN
work_kkta46aprvda3kxuww62zfddua	331	21	or	or	CC
work_kkta46aprvda3kxuww62zfddua	331	22	absence	absence	NN
work_kkta46aprvda3kxuww62zfddua	331	23	of	of	IN
work_kkta46aprvda3kxuww62zfddua	331	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	331	25	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	331	26	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	331	27	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	331	28	.	.	.
work_kkta46aprvda3kxuww62zfddua	332	1	d	d	LS
work_kkta46aprvda3kxuww62zfddua	332	2	In	in	IN
work_kkta46aprvda3kxuww62zfddua	332	3	bacterial	bacterial	JJ
work_kkta46aprvda3kxuww62zfddua	332	4	c	c	NN
work_kkta46aprvda3kxuww62zfddua	332	5	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	332	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	332	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	332	8	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	332	9	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	332	10	site	site	NN
work_kkta46aprvda3kxuww62zfddua	332	11	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	332	12	between	between	IN
work_kkta46aprvda3kxuww62zfddua	332	13	two	two	CD
work_kkta46aprvda3kxuww62zfddua	332	14	c	c	NN
work_kkta46aprvda3kxuww62zfddua	332	15	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	332	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	332	17	built	build	VBN
work_kkta46aprvda3kxuww62zfddua	332	18	by	by	IN
work_kkta46aprvda3kxuww62zfddua	332	19	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	332	20	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	332	21	site	site	NN
work_kkta46aprvda3kxuww62zfddua	332	22	1	1	CD
work_kkta46aprvda3kxuww62zfddua	332	23	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	332	24	and	and	CC
work_kkta46aprvda3kxuww62zfddua	332	25	ET	ET	NNP
work_kkta46aprvda3kxuww62zfddua	332	26	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	332	27	site	site	NN
work_kkta46aprvda3kxuww62zfddua	332	28	2	2	CD
work_kkta46aprvda3kxuww62zfddua	332	29	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	332	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	333	1	e	e	LS
work_kkta46aprvda3kxuww62zfddua	333	2	In	in	IN
work_kkta46aprvda3kxuww62zfddua	333	3	these	these	DT
work_kkta46aprvda3kxuww62zfddua	333	4	c	c	NN
work_kkta46aprvda3kxuww62zfddua	333	5	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	333	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	333	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	333	8	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	333	9	binding	binding	JJ
work_kkta46aprvda3kxuww62zfddua	333	10	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	333	11	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	333	12	shared	share	VBN
work_kkta46aprvda3kxuww62zfddua	333	13	by	by	IN
work_kkta46aprvda3kxuww62zfddua	333	14	H1–H2	h1–h2	NN
work_kkta46aprvda3kxuww62zfddua	333	15	and	and	CC
work_kkta46aprvda3kxuww62zfddua	333	16	H3–H4	H3–H4	NNP
work_kkta46aprvda3kxuww62zfddua	333	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	334	1	There	there	EX
work_kkta46aprvda3kxuww62zfddua	334	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	334	3	only	only	RB
work_kkta46aprvda3kxuww62zfddua	334	4	one	one	CD
work_kkta46aprvda3kxuww62zfddua	334	5	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	334	6	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	334	7	site	site	NN
work_kkta46aprvda3kxuww62zfddua	334	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	334	9	four	four	CD
work_kkta46aprvda3kxuww62zfddua	334	10	transmembrane	transmembrane	JJ
work_kkta46aprvda3kxuww62zfddua	334	11	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	334	12	.	.	.
work_kkta46aprvda3kxuww62zfddua	335	1	f	f	LS
work_kkta46aprvda3kxuww62zfddua	335	2	As	as	IN
work_kkta46aprvda3kxuww62zfddua	335	3	in	in	IN
work_kkta46aprvda3kxuww62zfddua	335	4	bacterial	bacterial	JJ
work_kkta46aprvda3kxuww62zfddua	335	5	c	c	NN
work_kkta46aprvda3kxuww62zfddua	335	6	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	335	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	335	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	335	9	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	335	10	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	335	11	site	site	NN
work_kkta46aprvda3kxuww62zfddua	335	12	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	335	13	between	between	IN
work_kkta46aprvda3kxuww62zfddua	335	14	two	two	CD
work_kkta46aprvda3kxuww62zfddua	335	15	c	c	NN
work_kkta46aprvda3kxuww62zfddua	335	16	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	335	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	335	18	built	build	VBN
work_kkta46aprvda3kxuww62zfddua	335	19	by	by	IN
work_kkta46aprvda3kxuww62zfddua	335	20	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	335	21	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	335	22	site	site	NN
work_kkta46aprvda3kxuww62zfddua	335	23	1	1	CD
work_kkta46aprvda3kxuww62zfddua	335	24	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	335	25	and	and	CC
work_kkta46aprvda3kxuww62zfddua	335	26	ET	ET	NNP
work_kkta46aprvda3kxuww62zfddua	335	27	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	335	28	site	site	NN
work_kkta46aprvda3kxuww62zfddua	335	29	2	2	CD
work_kkta46aprvda3kxuww62zfddua	335	30	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	335	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	336	1	g	g	LS
work_kkta46aprvda3kxuww62zfddua	336	2	These	these	DT
work_kkta46aprvda3kxuww62zfddua	336	3	c	c	NN
work_kkta46aprvda3kxuww62zfddua	336	4	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	336	5	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	336	6	two	two	CD
work_kkta46aprvda3kxuww62zfddua	336	7	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	336	8	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	336	9	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	336	10	in	in	IN
work_kkta46aprvda3kxuww62zfddua	336	11	four	four	CD
work_kkta46aprvda3kxuww62zfddua	336	12	transmembrane	transmembrane	JJ
work_kkta46aprvda3kxuww62zfddua	336	13	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	336	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	337	1	One	one	CD
work_kkta46aprvda3kxuww62zfddua	337	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	337	3	within	within	IN
work_kkta46aprvda3kxuww62zfddua	337	4	one	one	CD
work_kkta46aprvda3kxuww62zfddua	337	5	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	337	6	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	337	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	337	8	one	one	CD
work_kkta46aprvda3kxuww62zfddua	337	9	inbetween	inbetween	VBN
work_kkta46aprvda3kxuww62zfddua	337	10	two	two	CD
work_kkta46aprvda3kxuww62zfddua	337	11	c	c	NN
work_kkta46aprvda3kxuww62zfddua	337	12	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	337	13	.	.	.
work_kkta46aprvda3kxuww62zfddua	338	1	h	h	LS
work_kkta46aprvda3kxuww62zfddua	338	2	In	in	IN
work_kkta46aprvda3kxuww62zfddua	338	3	these	these	DT
work_kkta46aprvda3kxuww62zfddua	338	4	c	c	NN
work_kkta46aprvda3kxuww62zfddua	338	5	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	338	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	338	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	338	8	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	338	9	binding	binding	JJ
work_kkta46aprvda3kxuww62zfddua	338	10	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	338	11	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	338	12	shared	share	VBN
work_kkta46aprvda3kxuww62zfddua	338	13	by	by	IN
work_kkta46aprvda3kxuww62zfddua	338	14	H1–H2	h1–h2	NN
work_kkta46aprvda3kxuww62zfddua	338	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	338	16	H3–H4	H3–H4	NNP
work_kkta46aprvda3kxuww62zfddua	338	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	338	18	H5–H6	H5–H6	NNP
work_kkta46aprvda3kxuww62zfddua	338	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	339	1	There	there	EX
work_kkta46aprvda3kxuww62zfddua	339	2	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	339	3	two	two	CD
work_kkta46aprvda3kxuww62zfddua	339	4	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	339	5	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	339	6	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	339	7	in	in	IN
work_kkta46aprvda3kxuww62zfddua	339	8	six	six	CD
work_kkta46aprvda3kxuww62zfddua	339	9	transmembrane	transmembrane	JJ
work_kkta46aprvda3kxuww62zfddua	339	10	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	339	11	.	.	.
work_kkta46aprvda3kxuww62zfddua	340	1	i	i	PRP
work_kkta46aprvda3kxuww62zfddua	340	2	This	this	DT
work_kkta46aprvda3kxuww62zfddua	340	3	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	340	4	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	340	5	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	340	6	thirteen	thirteen	CD
work_kkta46aprvda3kxuww62zfddua	340	7	covalently	covalently	RB
work_kkta46aprvda3kxuww62zfddua	340	8	linked	link	VBN
work_kkta46aprvda3kxuww62zfddua	340	9	hairpins	hairpin	NNS
work_kkta46aprvda3kxuww62zfddua	340	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	340	11	each	each	DT
work_kkta46aprvda3kxuww62zfddua	340	12	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	340	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	340	14	depicted	depict	VBN
work_kkta46aprvda3kxuww62zfddua	340	15	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	340	16	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	340	17	site	site	NN
work_kkta46aprvda3kxuww62zfddua	340	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	341	1	949G.	949g.	JJ
work_kkta46aprvda3kxuww62zfddua	342	1	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	342	2	et	et	FW
work_kkta46aprvda3kxuww62zfddua	342	3	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	342	4	.	.	.
work_kkta46aprvda3kxuww62zfddua	343	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	343	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	343	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	343	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	343	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	343	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	343	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	343	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	343	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	343	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	343	11	only	only	RB
work_kkta46aprvda3kxuww62zfddua	343	12	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	343	13	observed	observe	VBN
work_kkta46aprvda3kxuww62zfddua	343	14	in	in	IN
work_kkta46aprvda3kxuww62zfddua	343	15	anaerobes	anaerobe	NNS
work_kkta46aprvda3kxuww62zfddua	343	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	344	1	In	in	IN
work_kkta46aprvda3kxuww62zfddua	344	2	addition	addition	NN
work_kkta46aprvda3kxuww62zfddua	344	3	to	to	IN
work_kkta46aprvda3kxuww62zfddua	344	4	living	live	VBG
work_kkta46aprvda3kxuww62zfddua	344	5	in	in	IN
work_kkta46aprvda3kxuww62zfddua	344	6	low	low	JJ
work_kkta46aprvda3kxuww62zfddua	344	7	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	344	8	envi-	envi-	NNS
work_kkta46aprvda3kxuww62zfddua	344	9	ronments	ronment	NNS
work_kkta46aprvda3kxuww62zfddua	344	10	these	these	DT
work_kkta46aprvda3kxuww62zfddua	344	11	environments	environment	NNS
work_kkta46aprvda3kxuww62zfddua	344	12	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	344	13	full	full	JJ
work_kkta46aprvda3kxuww62zfddua	344	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	344	15	fermentation	fermentation	NN
work_kkta46aprvda3kxuww62zfddua	344	16	end	end	NN
work_kkta46aprvda3kxuww62zfddua	344	17	products	product	NNS
work_kkta46aprvda3kxuww62zfddua	344	18	such	such	JJ
work_kkta46aprvda3kxuww62zfddua	344	19	as	as	IN
work_kkta46aprvda3kxuww62zfddua	344	20	short	short	JJ
work_kkta46aprvda3kxuww62zfddua	344	21	chain	chain	NN
work_kkta46aprvda3kxuww62zfddua	344	22	fatty	fatty	NN
work_kkta46aprvda3kxuww62zfddua	344	23	acids	acid	NNS
work_kkta46aprvda3kxuww62zfddua	344	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	345	1	These	these	DT
work_kkta46aprvda3kxuww62zfddua	345	2	act	act	VBP
work_kkta46aprvda3kxuww62zfddua	345	3	as	as	IN
work_kkta46aprvda3kxuww62zfddua	345	4	proton	proton	NNP
work_kkta46aprvda3kxuww62zfddua	345	5	ferries	ferry	VBZ
work_kkta46aprvda3kxuww62zfddua	345	6	to	to	TO
work_kkta46aprvda3kxuww62zfddua	345	7	decouple	decouple	VB
work_kkta46aprvda3kxuww62zfddua	345	8	metabo-	metabo-	JJ
work_kkta46aprvda3kxuww62zfddua	345	9	lism	lism	NN
work_kkta46aprvda3kxuww62zfddua	345	10	from	from	IN
work_kkta46aprvda3kxuww62zfddua	345	11	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	345	12	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	345	13	.	.	.
work_kkta46aprvda3kxuww62zfddua	346	1	These	these	DT
work_kkta46aprvda3kxuww62zfddua	346	2	fermentation	fermentation	NN
work_kkta46aprvda3kxuww62zfddua	346	3	end	end	NN
work_kkta46aprvda3kxuww62zfddua	346	4	products	product	NNS
work_kkta46aprvda3kxuww62zfddua	346	5	can	can	MD
work_kkta46aprvda3kxuww62zfddua	346	6	not	not	RB
work_kkta46aprvda3kxuww62zfddua	346	7	shuffle	shuffle	VB
work_kkta46aprvda3kxuww62zfddua	346	8	back	back	RP
work_kkta46aprvda3kxuww62zfddua	346	9	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	346	10	into	into	IN
work_kkta46aprvda3kxuww62zfddua	346	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	346	12	cell	cell	NN
work_kkta46aprvda3kxuww62zfddua	346	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	346	14	thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	346	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	346	16	a	a	DT
work_kkta46aprvda3kxuww62zfddua	346	17	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	346	18	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	346	19	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	346	20	not	not	RB
work_kkta46aprvda3kxuww62zfddua	346	21	dissipated	dissipate	VBN
work_kkta46aprvda3kxuww62zfddua	346	22	by	by	IN
work_kkta46aprvda3kxuww62zfddua	346	23	short	short	JJ
work_kkta46aprvda3kxuww62zfddua	346	24	chain	chain	NN
work_kkta46aprvda3kxuww62zfddua	346	25	fatty	fatty	NN
work_kkta46aprvda3kxuww62zfddua	346	26	acids	acid	NNS
work_kkta46aprvda3kxuww62zfddua	346	27	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	346	28	20	20	CD
work_kkta46aprvda3kxuww62zfddua	346	29	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	346	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	347	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	347	2	Na+-dependent	Na+-dependent	NNP
work_kkta46aprvda3kxuww62zfddua	347	3	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	347	4	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	347	5	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	347	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	347	7	fully	fully	RB
work_kkta46aprvda3kxuww62zfddua	347	8	consistent	consistent	JJ
work_kkta46aprvda3kxuww62zfddua	347	9	with	with	IN
work_kkta46aprvda3kxuww62zfddua	347	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	347	11	phys-	phys-	NNP
work_kkta46aprvda3kxuww62zfddua	347	12	iology	iology	NN
work_kkta46aprvda3kxuww62zfddua	347	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	347	14	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	347	15	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	347	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	348	1	It	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	348	2	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	348	3	no	no	DT
work_kkta46aprvda3kxuww62zfddua	348	4	cytochromes	cytochrome	NNS
work_kkta46aprvda3kxuww62zfddua	348	5	and	and	CC
work_kkta46aprvda3kxuww62zfddua	348	6	only	only	RB
work_kkta46aprvda3kxuww62zfddua	348	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	348	8	Na+-	Na+-	NNP
work_kkta46aprvda3kxuww62zfddua	348	9	Fig	Fig	NNP
work_kkta46aprvda3kxuww62zfddua	348	10	.	.	.
work_kkta46aprvda3kxuww62zfddua	349	1	5	5	CD
work_kkta46aprvda3kxuww62zfddua	349	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	350	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	350	2	A	a	NN
work_kkta46aprvda3kxuww62zfddua	350	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	350	4	Computationally	computationally	RB
work_kkta46aprvda3kxuww62zfddua	350	5	derived	derive	VBN
work_kkta46aprvda3kxuww62zfddua	350	6	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	350	7	model	model	NN
work_kkta46aprvda3kxuww62zfddua	350	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	350	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	350	10	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	350	11	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	350	12	site	site	NN
work_kkta46aprvda3kxuww62zfddua	350	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	350	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	350	15	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	350	16	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	350	17	from	from	IN
work_kkta46aprvda3kxuww62zfddua	350	18	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	350	19	furiosus	furiosus	NNP
work_kkta46aprvda3kxuww62zfddua	350	20	.	.	.
work_kkta46aprvda3kxuww62zfddua	351	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	351	2	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	351	3	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	351	4	site	site	NN
work_kkta46aprvda3kxuww62zfddua	351	5	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	351	6	within	within	IN
work_kkta46aprvda3kxuww62zfddua	351	7	one	one	CD
work_kkta46aprvda3kxuww62zfddua	351	8	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	351	9	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	351	10	between	between	IN
work_kkta46aprvda3kxuww62zfddua	351	11	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	351	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	351	13	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	351	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	352	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	352	2	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	352	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	352	4	coordinated	coordinate	VBN
work_kkta46aprvda3kxuww62zfddua	352	5	by	by	IN
work_kkta46aprvda3kxuww62zfddua	352	6	E142	E142	NNP
work_kkta46aprvda3kxuww62zfddua	352	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	352	8	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	352	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	352	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	352	11	Q113	Q113	NNP
work_kkta46aprvda3kxuww62zfddua	352	12	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	352	13	TM3	TM3	NNP
work_kkta46aprvda3kxuww62zfddua	352	14	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	352	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	352	16	T56	T56	NNP
work_kkta46aprvda3kxuww62zfddua	352	17	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	352	18	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	352	19	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	352	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	352	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	352	22	Q57	Q57	NNP
work_kkta46aprvda3kxuww62zfddua	352	23	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	352	24	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	352	25	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	352	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	352	27	and	and	CC
work_kkta46aprvda3kxuww62zfddua	352	28	by	by	IN
work_kkta46aprvda3kxuww62zfddua	352	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	352	30	backbone	backbone	NN
work_kkta46aprvda3kxuww62zfddua	352	31	of	of	IN
work_kkta46aprvda3kxuww62zfddua	352	32	L53	L53	NNP
work_kkta46aprvda3kxuww62zfddua	352	33	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	352	34	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	352	35	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	352	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	353	1	Y60	Y60	NNP
work_kkta46aprvda3kxuww62zfddua	353	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	353	3	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	353	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	353	5	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	353	6	not	not	RB
work_kkta46aprvda3kxuww62zfddua	353	7	directly	directly	RB
work_kkta46aprvda3kxuww62zfddua	353	8	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	353	9	in	in	IN
work_kkta46aprvda3kxuww62zfddua	353	10	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	353	11	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	353	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	353	13	but	but	CC
work_kkta46aprvda3kxuww62zfddua	353	14	forms	form	VBZ
work_kkta46aprvda3kxuww62zfddua	353	15	a	a	DT
work_kkta46aprvda3kxuww62zfddua	353	16	hydrogen-	hydrogen-	FW
work_kkta46aprvda3kxuww62zfddua	353	17	bond	bond	NN
work_kkta46aprvda3kxuww62zfddua	353	18	with	with	IN
work_kkta46aprvda3kxuww62zfddua	353	19	E142	E142	NNP
work_kkta46aprvda3kxuww62zfddua	353	20	.	.	.
work_kkta46aprvda3kxuww62zfddua	354	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	354	2	B	b	NN
work_kkta46aprvda3kxuww62zfddua	354	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	354	4	Between	between	IN
work_kkta46aprvda3kxuww62zfddua	354	5	two	two	CD
work_kkta46aprvda3kxuww62zfddua	354	6	c	c	NN
work_kkta46aprvda3kxuww62zfddua	354	7	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	354	8	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	354	9	no	no	DT
work_kkta46aprvda3kxuww62zfddua	354	10	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	354	11	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	354	12	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	354	13	site	site	NN
work_kkta46aprvda3kxuww62zfddua	354	14	in	in	IN
work_kkta46aprvda3kxuww62zfddua	354	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	354	16	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	354	17	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	354	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	354	19	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	354	20	furiosus	furiosus	NNP
work_kkta46aprvda3kxuww62zfddua	354	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	355	1	There	there	RB
work_kkta46aprvda3kxuww62zfddua	355	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	355	3	essential	essential	JJ
work_kkta46aprvda3kxuww62zfddua	355	4	glutamate	glutamate	NN
work_kkta46aprvda3kxuww62zfddua	355	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	355	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	355	7	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	355	8	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	355	9	site	site	NN
work_kkta46aprvda3kxuww62zfddua	355	10	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	355	11	replaced	replace	VBN
work_kkta46aprvda3kxuww62zfddua	355	12	by	by	IN
work_kkta46aprvda3kxuww62zfddua	355	13	a	a	DT
work_kkta46aprvda3kxuww62zfddua	355	14	methionine	methionine	NN
work_kkta46aprvda3kxuww62zfddua	355	15	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	355	16	M55	M55	NNP
work_kkta46aprvda3kxuww62zfddua	355	17	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	355	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	356	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	356	2	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	356	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	356	4	The	the	DT
work_kkta46aprvda3kxuww62zfddua	356	5	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	356	6	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	356	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	356	8	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	356	9	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	356	10	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	356	11	two	two	CD
work_kkta46aprvda3kxuww62zfddua	356	12	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	356	13	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	356	14	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	356	15	.	.	.
work_kkta46aprvda3kxuww62zfddua	357	1	According	accord	VBG
work_kkta46aprvda3kxuww62zfddua	357	2	to	to	IN
work_kkta46aprvda3kxuww62zfddua	357	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	357	4	computationally	computationally	RB
work_kkta46aprvda3kxuww62zfddua	357	5	derived	derive	VBN
work_kkta46aprvda3kxuww62zfddua	357	6	model	model	NN
work_kkta46aprvda3kxuww62zfddua	357	7	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	357	8	86	86	CD
work_kkta46aprvda3kxuww62zfddua	357	9	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	357	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	357	11	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	357	12	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	357	13	coordinated	coordinate	VBN
work_kkta46aprvda3kxuww62zfddua	357	14	by	by	IN
work_kkta46aprvda3kxuww62zfddua	357	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	357	16	side	side	NN
work_kkta46aprvda3kxuww62zfddua	357	17	chains	chain	NNS
work_kkta46aprvda3kxuww62zfddua	357	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	357	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	357	20	amino	amino	NN
work_kkta46aprvda3kxuww62zfddua	357	21	acids	acid	NNS
work_kkta46aprvda3kxuww62zfddua	357	22	E140	E140	NNP
work_kkta46aprvda3kxuww62zfddua	357	23	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	357	24	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	357	25	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	357	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	357	27	Q111	Q111	NNP
work_kkta46aprvda3kxuww62zfddua	357	28	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	357	29	TM3	TM3	NNP
work_kkta46aprvda3kxuww62zfddua	357	30	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	357	31	,	,	,
work_kkta46aprvda3kxuww62zfddua	357	32	Q61	Q61	NNP
work_kkta46aprvda3kxuww62zfddua	357	33	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	357	34	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	357	35	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	357	36	T60	t60	UH
work_kkta46aprvda3kxuww62zfddua	357	37	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	357	38	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	357	39	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	357	40	and	and	CC
work_kkta46aprvda3kxuww62zfddua	357	41	L57	L57	NNP
work_kkta46aprvda3kxuww62zfddua	357	42	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	357	43	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	357	44	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	357	45	within	within	IN
work_kkta46aprvda3kxuww62zfddua	357	46	one	one	CD
work_kkta46aprvda3kxuww62zfddua	357	47	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	357	48	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	357	49	.	.	.
work_kkta46aprvda3kxuww62zfddua	358	1	Again	again	RB
work_kkta46aprvda3kxuww62zfddua	358	2	Y64	Y64	NNP
work_kkta46aprvda3kxuww62zfddua	358	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	358	4	TM2	TM2	NNP
work_kkta46aprvda3kxuww62zfddua	358	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	358	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	358	7	for	for	IN
work_kkta46aprvda3kxuww62zfddua	358	8	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	358	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	358	10	bonding	bonding	NN
work_kkta46aprvda3kxuww62zfddua	358	11	with	with	IN
work_kkta46aprvda3kxuww62zfddua	358	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	358	13	side	side	NN
work_kkta46aprvda3kxuww62zfddua	358	14	chain	chain	NN
work_kkta46aprvda3kxuww62zfddua	358	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	358	16	E140	E140	NNP
work_kkta46aprvda3kxuww62zfddua	358	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	359	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	359	2	D	d	NN
work_kkta46aprvda3kxuww62zfddua	359	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	359	4	The	the	DT
work_kkta46aprvda3kxuww62zfddua	359	5	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	359	6	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	359	7	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	359	8	site	site	NN
work_kkta46aprvda3kxuww62zfddua	359	9	in	in	IN
work_kkta46aprvda3kxuww62zfddua	359	10	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	359	11	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	359	12	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	359	13	between	between	IN
work_kkta46aprvda3kxuww62zfddua	359	14	two	two	CD
work_kkta46aprvda3kxuww62zfddua	359	15	c	c	NN
work_kkta46aprvda3kxuww62zfddua	359	16	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	359	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	360	1	Again	again	RB
work_kkta46aprvda3kxuww62zfddua	360	2	E59	E59	NNP
work_kkta46aprvda3kxuww62zfddua	360	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	360	4	TM2′	TM2′	NNP
work_kkta46aprvda3kxuww62zfddua	360	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	360	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	360	7	Q30	Q30	NNP
work_kkta46aprvda3kxuww62zfddua	360	8	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	360	9	TM1′	TM1′	NNP
work_kkta46aprvda3kxuww62zfddua	360	10	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	360	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	360	12	Q142	Q142	NNP
work_kkta46aprvda3kxuww62zfddua	360	13	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	360	14	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	360	15	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	360	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	360	17	T141	T141	NNP
work_kkta46aprvda3kxuww62zfddua	360	18	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	360	19	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	360	20	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	360	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	360	22	L138	L138	NNP
work_kkta46aprvda3kxuww62zfddua	360	23	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	360	24	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	360	25	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	360	26	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	360	27	directly	directly	RB
work_kkta46aprvda3kxuww62zfddua	360	28	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	360	29	in	in	IN
work_kkta46aprvda3kxuww62zfddua	360	30	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	360	31	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	360	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	361	1	Y145	Y145	NNP
work_kkta46aprvda3kxuww62zfddua	361	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	361	3	TM4	TM4	NNP
work_kkta46aprvda3kxuww62zfddua	361	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	361	5	stabilizes	stabilize	VBZ
work_kkta46aprvda3kxuww62zfddua	361	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	361	7	geometry	geometry	NN
work_kkta46aprvda3kxuww62zfddua	361	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	361	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	361	10	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	361	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	361	12	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	361	13	shell	shell	NN
work_kkta46aprvda3kxuww62zfddua	361	14	by	by	IN
work_kkta46aprvda3kxuww62zfddua	361	15	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	361	16	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	361	17	bonding	bonding	NN
work_kkta46aprvda3kxuww62zfddua	361	18	with	with	IN
work_kkta46aprvda3kxuww62zfddua	361	19	E59	E59	NNP
work_kkta46aprvda3kxuww62zfddua	361	20	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	361	21	86	86	CD
work_kkta46aprvda3kxuww62zfddua	361	22	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	361	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	362	1	950	950	CD
work_kkta46aprvda3kxuww62zfddua	362	2	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	362	3	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	362	4	et	et	FW
work_kkta46aprvda3kxuww62zfddua	362	5	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	362	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	363	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	363	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	363	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	363	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	363	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	363	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	363	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	363	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	363	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	363	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	363	11	motive	motive	JJ
work_kkta46aprvda3kxuww62zfddua	363	12	methyltransferase	methyltransferase	NN
work_kkta46aprvda3kxuww62zfddua	363	13	for	for	IN
work_kkta46aprvda3kxuww62zfddua	363	14	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	363	15	energization	energization	NN
work_kkta46aprvda3kxuww62zfddua	363	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	363	17	thus	thus	RB
work_kkta46aprvda3kxuww62zfddua	363	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	363	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	363	20	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	363	21	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	363	22	must	must	MD
work_kkta46aprvda3kxuww62zfddua	363	23	be	be	VB
work_kkta46aprvda3kxuww62zfddua	363	24	used	use	VBN
work_kkta46aprvda3kxuww62zfddua	363	25	to	to	TO
work_kkta46aprvda3kxuww62zfddua	363	26	drive	drive	VB
work_kkta46aprvda3kxuww62zfddua	363	27	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	363	28	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	363	29	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	363	30	20,29,86	20,29,86	CD
work_kkta46aprvda3kxuww62zfddua	363	31	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	363	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	364	1	With	with	IN
work_kkta46aprvda3kxuww62zfddua	364	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	364	3	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	364	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	364	5	cytochromes	cytochrome	NNS
work_kkta46aprvda3kxuww62zfddua	364	6	and	and	CC
work_kkta46aprvda3kxuww62zfddua	364	7	an	an	DT
work_kkta46aprvda3kxuww62zfddua	364	8	additional	additional	JJ
work_kkta46aprvda3kxuww62zfddua	364	9	proton	proton	NN
work_kkta46aprvda3kxuww62zfddua	364	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	364	11	pumping	pump	VBG
work_kkta46aprvda3kxuww62zfddua	364	12	elec-	elec-	NNP
work_kkta46aprvda3kxuww62zfddua	364	13	tron	tron	NNP
work_kkta46aprvda3kxuww62zfddua	364	14	transfer	transfer	NN
work_kkta46aprvda3kxuww62zfddua	364	15	chain	chain	NN
work_kkta46aprvda3kxuww62zfddua	364	16	in	in	IN
work_kkta46aprvda3kxuww62zfddua	364	17	some	some	DT
work_kkta46aprvda3kxuww62zfddua	364	18	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	364	19	like	like	IN
work_kkta46aprvda3kxuww62zfddua	364	20	the	the	DT
work_kkta46aprvda3kxuww62zfddua	364	21	Methanosarcinales	Methanosarcinales	NNPS
work_kkta46aprvda3kxuww62zfddua	364	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	364	23	an	an	DT
work_kkta46aprvda3kxuww62zfddua	364	24	organism	organism	NN
work_kkta46aprvda3kxuww62zfddua	364	25	arose	arise	VBD
work_kkta46aprvda3kxuww62zfddua	364	26	that	that	IN
work_kkta46aprvda3kxuww62zfddua	364	27	couples	couple	VBZ
work_kkta46aprvda3kxuww62zfddua	364	28	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	364	29	metabolism	metabolism	NN
work_kkta46aprvda3kxuww62zfddua	364	30	to	to	IN
work_kkta46aprvda3kxuww62zfddua	364	31	the	the	DT
work_kkta46aprvda3kxuww62zfddua	364	32	generation	generation	NN
work_kkta46aprvda3kxuww62zfddua	364	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	364	34	a	a	DT
work_kkta46aprvda3kxuww62zfddua	364	35	proton	proton	JJ
work_kkta46aprvda3kxuww62zfddua	364	36	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	364	37	and	and	CC
work_kkta46aprvda3kxuww62zfddua	364	38	a	a	DT
work_kkta46aprvda3kxuww62zfddua	364	39	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	364	40	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	364	41	potential	potential	NN
work_kkta46aprvda3kxuww62zfddua	364	42	.	.	.
work_kkta46aprvda3kxuww62zfddua	365	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	365	2	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	365	3	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	365	4	adapted	adapt	VBD
work_kkta46aprvda3kxuww62zfddua	365	5	to	to	IN
work_kkta46aprvda3kxuww62zfddua	365	6	this	this	DT
work_kkta46aprvda3kxuww62zfddua	365	7	scenario	scenario	NN
work_kkta46aprvda3kxuww62zfddua	365	8	by	by	IN
work_kkta46aprvda3kxuww62zfddua	365	9	using	use	VBG
work_kkta46aprvda3kxuww62zfddua	365	10	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	365	11	and	and	CC
work_kkta46aprvda3kxuww62zfddua	365	12	H+	h+	VB
work_kkta46aprvda3kxuww62zfddua	365	13	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	365	14	29,30	29,30	CD
work_kkta46aprvda3kxuww62zfddua	365	15	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	365	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	366	1	Apparently	apparently	RB
work_kkta46aprvda3kxuww62zfddua	366	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	366	3	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	366	4	and	and	CC
work_kkta46aprvda3kxuww62zfddua	366	5	H+	H+	NNP
work_kkta46aprvda3kxuww62zfddua	366	6	concurrently	concurrently	RB
work_kkta46aprvda3kxuww62zfddua	366	7	drive	drive	VBP
work_kkta46aprvda3kxuww62zfddua	366	8	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	366	9	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	366	10	.	.	.
work_kkta46aprvda3kxuww62zfddua	367	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	367	2	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	367	3	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	367	4	site	site	NN
work_kkta46aprvda3kxuww62zfddua	367	5	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	367	6	a	a	DT
work_kkta46aprvda3kxuww62zfddua	367	7	high	high	JJ
work_kkta46aprvda3kxuww62zfddua	367	8	prefer-	prefer-	JJ
work_kkta46aprvda3kxuww62zfddua	367	9	ence	ence	NN
work_kkta46aprvda3kxuww62zfddua	367	10	for	for	IN
work_kkta46aprvda3kxuww62zfddua	367	11	H+	H+	JJS
work_kkta46aprvda3kxuww62zfddua	367	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	367	13	but	but	CC
work_kkta46aprvda3kxuww62zfddua	367	14	under	under	IN
work_kkta46aprvda3kxuww62zfddua	367	15	physiological	physiological	JJ
work_kkta46aprvda3kxuww62zfddua	367	16	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	367	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	367	18	pH	pH	NNP
work_kkta46aprvda3kxuww62zfddua	367	19	7.5	7.5	CD
work_kkta46aprvda3kxuww62zfddua	367	20	and	and	CC
work_kkta46aprvda3kxuww62zfddua	367	21	400	400	CD
work_kkta46aprvda3kxuww62zfddua	367	22	mM	mm	NN
work_kkta46aprvda3kxuww62zfddua	367	23	NaCl	NaCl	NNP
work_kkta46aprvda3kxuww62zfddua	367	24	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	367	25	sea	sea	NN
work_kkta46aprvda3kxuww62zfddua	367	26	water	water	NN
work_kkta46aprvda3kxuww62zfddua	367	27	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	367	28	both	both	CC
work_kkta46aprvda3kxuww62zfddua	367	29	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	367	30	and	and	CC
work_kkta46aprvda3kxuww62zfddua	367	31	H+	h+	ADD
work_kkta46aprvda3kxuww62zfddua	367	32	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	367	33	used	use	VBN
work_kkta46aprvda3kxuww62zfddua	367	34	simultaneously	simultaneously	RB
work_kkta46aprvda3kxuww62zfddua	367	35	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	367	36	100	100	CD
work_kkta46aprvda3kxuww62zfddua	367	37	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	367	38	.	.	.
work_kkta46aprvda3kxuww62zfddua	368	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	368	2	minimal	minimal	JJ
work_kkta46aprvda3kxuww62zfddua	368	3	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	368	4	binding	binding	JJ
work_kkta46aprvda3kxuww62zfddua	368	5	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	368	6	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	368	7	conserved	conserve	VBN
work_kkta46aprvda3kxuww62zfddua	368	8	but	but	CC
work_kkta46aprvda3kxuww62zfddua	368	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	368	10	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	368	11	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	368	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	368	13	Na+	na+	CC
work_kkta46aprvda3kxuww62zfddua	368	14	binding	binding	JJ
work_kkta46aprvda3kxuww62zfddua	368	15	in	in	IN
work_kkta46aprvda3kxuww62zfddua	368	16	bacterial	bacterial	JJ
work_kkta46aprvda3kxuww62zfddua	368	17	c	c	NN
work_kkta46aprvda3kxuww62zfddua	368	18	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	368	19	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	368	20	less	less	RBR
work_kkta46aprvda3kxuww62zfddua	368	21	conserved	conserve	VBN
work_kkta46aprvda3kxuww62zfddua	368	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	369	1	Noteworthy	noteworthy	JJ
work_kkta46aprvda3kxuww62zfddua	369	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	369	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	369	4	change	change	NN
work_kkta46aprvda3kxuww62zfddua	369	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	369	6	glutamine	glutamine	NN
work_kkta46aprvda3kxuww62zfddua	369	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	369	8	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	369	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	369	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	369	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	369	12	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	369	13	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	369	14	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	369	15	Q	Q	NNP
work_kkta46aprvda3kxuww62zfddua	369	16	…	…	NFP
work_kkta46aprvda3kxuww62zfddua	369	17	ES	es	NN
work_kkta46aprvda3kxuww62zfddua	369	18	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	369	19	T	t	NN
work_kkta46aprvda3kxuww62zfddua	369	20	to	to	IN
work_kkta46aprvda3kxuww62zfddua	369	21	a	a	DT
work_kkta46aprvda3kxuww62zfddua	369	22	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	369	23	glutamate	glutamate	NN
work_kkta46aprvda3kxuww62zfddua	369	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	369	25	and	and	CC
work_kkta46aprvda3kxuww62zfddua	369	26	indeed	indeed	RB
work_kkta46aprvda3kxuww62zfddua	369	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	369	28	this	this	DT
work_kkta46aprvda3kxuww62zfddua	369	29	exchange	exchange	NN
work_kkta46aprvda3kxuww62zfddua	369	30	still	still	RB
work_kkta46aprvda3kxuww62zfddua	369	31	allows	allow	VBZ
work_kkta46aprvda3kxuww62zfddua	369	32	for	for	IN
work_kkta46aprvda3kxuww62zfddua	369	33	Na+	na+	DT
work_kkta46aprvda3kxuww62zfddua	369	34	binding	binding	JJ
work_kkta46aprvda3kxuww62zfddua	369	35	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	369	36	101	101	CD
work_kkta46aprvda3kxuww62zfddua	369	37	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	369	38	.	.	.
work_kkta46aprvda3kxuww62zfddua	370	1	Such	such	PDT
work_kkta46aprvda3kxuww62zfddua	370	2	a	a	DT
work_kkta46aprvda3kxuww62zfddua	370	3	Q	q	NN
work_kkta46aprvda3kxuww62zfddua	370	4	→	→	SYM
work_kkta46aprvda3kxuww62zfddua	370	5	E	e	NN
work_kkta46aprvda3kxuww62zfddua	370	6	exchange	exchange	NN
work_kkta46aprvda3kxuww62zfddua	370	7	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	370	8	present	present	JJ
work_kkta46aprvda3kxuww62zfddua	370	9	in	in	IN
work_kkta46aprvda3kxuww62zfddua	370	10	a	a	DT
work_kkta46aprvda3kxuww62zfddua	370	11	lot	lot	NN
work_kkta46aprvda3kxuww62zfddua	370	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	370	13	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	370	14	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	370	15	Table	table	NN
work_kkta46aprvda3kxuww62zfddua	370	16	1	1	CD
work_kkta46aprvda3kxuww62zfddua	370	17	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	370	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	371	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	371	2	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	371	3	specificity	specificity	NN
work_kkta46aprvda3kxuww62zfddua	371	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	371	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	371	6	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	371	7	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	371	8	bound	bind	VBN
work_kkta46aprvda3kxuww62zfddua	371	9	hydrogenase	hydrogenase	NN
work_kkta46aprvda3kxuww62zfddua	371	10	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	371	11	Mbh	Mbh	NNP
work_kkta46aprvda3kxuww62zfddua	371	12	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	371	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	371	14	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	371	15	furiosus	furiosus	NNP
work_kkta46aprvda3kxuww62zfddua	371	16	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	371	17	not	not	RB
work_kkta46aprvda3kxuww62zfddua	371	18	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	371	19	addressed	address	VBN
work_kkta46aprvda3kxuww62zfddua	371	20	experimentally	experimentally	RB
work_kkta46aprvda3kxuww62zfddua	371	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	371	22	but	but	CC
work_kkta46aprvda3kxuww62zfddua	371	23	there	there	EX
work_kkta46aprvda3kxuww62zfddua	371	24	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	371	25	no	no	DT
work_kkta46aprvda3kxuww62zfddua	371	26	reason	reason	NN
work_kkta46aprvda3kxuww62zfddua	371	27	to	to	TO
work_kkta46aprvda3kxuww62zfddua	371	28	believe	believe	VB
work_kkta46aprvda3kxuww62zfddua	371	29	that	that	IN
work_kkta46aprvda3kxuww62zfddua	371	30	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	371	31	ions	ion	NNS
work_kkta46aprvda3kxuww62zfddua	371	32	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	371	33	not	not	RB
work_kkta46aprvda3kxuww62zfddua	371	34	the	the	DT
work_kkta46aprvda3kxuww62zfddua	371	35	coupling	coupling	NN
work_kkta46aprvda3kxuww62zfddua	371	36	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	371	37	.	.	.
work_kkta46aprvda3kxuww62zfddua	372	1	It	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	372	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	372	3	also	also	RB
work_kkta46aprvda3kxuww62zfddua	372	4	notewor-	notewor-	NN
work_kkta46aprvda3kxuww62zfddua	372	5	thy	thy	NN
work_kkta46aprvda3kxuww62zfddua	372	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	372	7	that	that	IN
work_kkta46aprvda3kxuww62zfddua	372	8	some	some	DT
work_kkta46aprvda3kxuww62zfddua	372	9	of	of	IN
work_kkta46aprvda3kxuww62zfddua	372	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	372	11	halophilic	halophilic	JJ
work_kkta46aprvda3kxuww62zfddua	372	12	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	372	13	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	372	14	a	a	DT
work_kkta46aprvda3kxuww62zfddua	372	15	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	372	16	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	372	17	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	372	18	site	site	NN
work_kkta46aprvda3kxuww62zfddua	372	19	:	:	:
work_kkta46aprvda3kxuww62zfddua	372	20	but	but	CC
work_kkta46aprvda3kxuww62zfddua	372	21	whether	whether	IN
work_kkta46aprvda3kxuww62zfddua	372	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	372	23	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	372	24	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	372	25	indeed	indeed	RB
work_kkta46aprvda3kxuww62zfddua	372	26	uses	use	VBZ
work_kkta46aprvda3kxuww62zfddua	372	27	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	372	28	or	or	CC
work_kkta46aprvda3kxuww62zfddua	372	29	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	372	30	and	and	CC
work_kkta46aprvda3kxuww62zfddua	372	31	H+	h+	ADD
work_kkta46aprvda3kxuww62zfddua	372	32	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	372	33	to	to	TO
work_kkta46aprvda3kxuww62zfddua	372	34	be	be	VB
work_kkta46aprvda3kxuww62zfddua	372	35	established	establish	VBN
work_kkta46aprvda3kxuww62zfddua	372	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	373	1	Apart	apart	RB
work_kkta46aprvda3kxuww62zfddua	373	2	from	from	IN
work_kkta46aprvda3kxuww62zfddua	373	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	373	4	Euryarchaeota	Euryarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	373	5	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	373	6	Methanogens	Methanogens	NNP
work_kkta46aprvda3kxuww62zfddua	373	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	373	8	Thermococci	Thermococci	NNP
work_kkta46aprvda3kxuww62zfddua	373	9	and	and	CC
work_kkta46aprvda3kxuww62zfddua	373	10	Pyrococci	Pyrococci	NNP
work_kkta46aprvda3kxuww62zfddua	373	11	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	373	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	373	13	only	only	RB
work_kkta46aprvda3kxuww62zfddua	373	14	the	the	DT
work_kkta46aprvda3kxuww62zfddua	373	15	genera	genera	NN
work_kkta46aprvda3kxuww62zfddua	373	16	Desulfurococcus	Desulfurococcus	NNP
work_kkta46aprvda3kxuww62zfddua	373	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	373	18	Ignisphaera	Ignisphaera	NNP
work_kkta46aprvda3kxuww62zfddua	373	19	and	and	CC
work_kkta46aprvda3kxuww62zfddua	373	20	Staphylothermus	Staphylothermus	NNP
work_kkta46aprvda3kxuww62zfddua	373	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	373	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	373	23	phylum	phylum	NN
work_kkta46aprvda3kxuww62zfddua	373	24	Crenarchaeota	Crenarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	373	25	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	373	26	86	86	CD
work_kkta46aprvda3kxuww62zfddua	373	27	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	373	28	as	as	RB
work_kkta46aprvda3kxuww62zfddua	373	29	well	well	RB
work_kkta46aprvda3kxuww62zfddua	373	30	as	as	IN
work_kkta46aprvda3kxuww62zfddua	373	31	Nanoarchaeum	nanoarchaeum	JJ
work_kkta46aprvda3kxuww62zfddua	373	32	equitans	equitan	NNS
work_kkta46aprvda3kxuww62zfddua	373	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	373	34	the	the	DT
work_kkta46aprvda3kxuww62zfddua	373	35	phylum	phylum	NN
work_kkta46aprvda3kxuww62zfddua	373	36	Nanoarchaeota	Nanoarchaeota	NNP
work_kkta46aprvda3kxuww62zfddua	373	37	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	373	38	the	the	DT
work_kkta46aprvda3kxuww62zfddua	373	39	conserved	conserve	VBN
work_kkta46aprvda3kxuww62zfddua	373	40	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	373	41	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	373	42	site	site	NN
work_kkta46aprvda3kxuww62zfddua	373	43	.	.	.
work_kkta46aprvda3kxuww62zfddua	374	1	Unfortunately	unfortunately	RB
work_kkta46aprvda3kxuww62zfddua	374	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	374	3	nothing	nothing	NN
work_kkta46aprvda3kxuww62zfddua	374	4	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	374	5	known	know	VBN
work_kkta46aprvda3kxuww62zfddua	374	6	about	about	IN
work_kkta46aprvda3kxuww62zfddua	374	7	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	374	8	physiology	physiology	NN
work_kkta46aprvda3kxuww62zfddua	374	9	but	but	CC
work_kkta46aprvda3kxuww62zfddua	374	10	it	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	374	11	can	can	MD
work_kkta46aprvda3kxuww62zfddua	374	12	be	be	VB
work_kkta46aprvda3kxuww62zfddua	374	13	concluded	conclude	VBN
work_kkta46aprvda3kxuww62zfddua	374	14	that	that	IN
work_kkta46aprvda3kxuww62zfddua	374	15	Na+	Na+	NNP
work_kkta46aprvda3kxuww62zfddua	374	16	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	374	17	important	important	JJ
work_kkta46aprvda3kxuww62zfddua	374	18	for	for	IN
work_kkta46aprvda3kxuww62zfddua	374	19	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	374	20	physiology	physiology	NN
work_kkta46aprvda3kxuww62zfddua	374	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	375	1	Another	another	DT
work_kkta46aprvda3kxuww62zfddua	375	2	adaptation	adaptation	NN
work_kkta46aprvda3kxuww62zfddua	375	3	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	375	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	375	5	increase	increase	NN
work_kkta46aprvda3kxuww62zfddua	375	6	in	in	IN
work_kkta46aprvda3kxuww62zfddua	375	7	length	length	NN
work_kkta46aprvda3kxuww62zfddua	375	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	375	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	375	10	c	c	NN
work_kkta46aprvda3kxuww62zfddua	375	11	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	375	12	with	with	IN
work_kkta46aprvda3kxuww62zfddua	375	13	in-	in-	JJ
work_kkta46aprvda3kxuww62zfddua	375	14	creasing	creasing	NN
work_kkta46aprvda3kxuww62zfddua	375	15	temperature	temperature	NN
work_kkta46aprvda3kxuww62zfddua	375	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	376	1	At	at	IN
work_kkta46aprvda3kxuww62zfddua	376	2	least	least	JJS
work_kkta46aprvda3kxuww62zfddua	376	3	in	in	IN
work_kkta46aprvda3kxuww62zfddua	376	4	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	376	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	376	6	there	there	EX
work_kkta46aprvda3kxuww62zfddua	376	7	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	376	8	a	a	DT
work_kkta46aprvda3kxuww62zfddua	376	9	clear	clear	JJ
work_kkta46aprvda3kxuww62zfddua	376	10	tendency	tendency	NN
work_kkta46aprvda3kxuww62zfddua	376	11	from	from	IN
work_kkta46aprvda3kxuww62zfddua	376	12	one	one	CD
work_kkta46aprvda3kxuww62zfddua	376	13	hairpin	hairpin	NN
work_kkta46aprvda3kxuww62zfddua	376	14	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	376	15	most	most	JJS
work_kkta46aprvda3kxuww62zfddua	376	16	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	376	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	376	18	e.	e.	NNP
work_kkta46aprvda3kxuww62zfddua	376	19	g.	g.	NNP
work_kkta46aprvda3kxuww62zfddua	376	20	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	376	21	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	376	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	376	23	35	35	CD
work_kkta46aprvda3kxuww62zfddua	376	24	°	°	,
work_kkta46aprvda3kxuww62zfddua	376	25	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	376	26	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	376	27	to	to	IN
work_kkta46aprvda3kxuww62zfddua	376	28	two	two	CD
work_kkta46aprvda3kxuww62zfddua	376	29	hair-	hair-	NNS
work_kkta46aprvda3kxuww62zfddua	376	30	pins	pin	NNS
work_kkta46aprvda3kxuww62zfddua	376	31	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	376	32	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	376	33	thermautotrophicus	thermautotrophicus	NNP
work_kkta46aprvda3kxuww62zfddua	376	34	,	,	,
work_kkta46aprvda3kxuww62zfddua	376	35	70	70	CD
work_kkta46aprvda3kxuww62zfddua	376	36	°	°	,
work_kkta46aprvda3kxuww62zfddua	376	37	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	376	38	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	376	39	,	,	,
work_kkta46aprvda3kxuww62zfddua	376	40	three	three	CD
work_kkta46aprvda3kxuww62zfddua	376	41	hairpins	hairpin	NNS
work_kkta46aprvda3kxuww62zfddua	376	42	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	376	43	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	376	44	jannaschii	jannaschii	NNP
work_kkta46aprvda3kxuww62zfddua	376	45	,	,	,
work_kkta46aprvda3kxuww62zfddua	376	46	85	85	CD
work_kkta46aprvda3kxuww62zfddua	376	47	°	°	,
work_kkta46aprvda3kxuww62zfddua	376	48	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	376	49	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	376	50	and	and	CC
work_kkta46aprvda3kxuww62zfddua	376	51	13	13	CD
work_kkta46aprvda3kxuww62zfddua	376	52	hairpins	hairpin	NNS
work_kkta46aprvda3kxuww62zfddua	376	53	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	376	54	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	376	55	kandleri	kandleri	NNP
work_kkta46aprvda3kxuww62zfddua	376	56	,	,	,
work_kkta46aprvda3kxuww62zfddua	376	57	98	98	CD
work_kkta46aprvda3kxuww62zfddua	376	58	°	°	,
work_kkta46aprvda3kxuww62zfddua	376	59	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	376	60	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	376	61	.	.	.
work_kkta46aprvda3kxuww62zfddua	377	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	377	2	higher	high	JJR
work_kkta46aprvda3kxuww62zfddua	377	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	377	4	number	number	NN
work_kkta46aprvda3kxuww62zfddua	377	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	377	6	covalent	covalent	NN
work_kkta46aprvda3kxuww62zfddua	377	7	linkages	linkage	VBZ
work_kkta46aprvda3kxuww62zfddua	377	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	377	9	higher	high	JJR
work_kkta46aprvda3kxuww62zfddua	377	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	377	11	stability	stability	NN
work_kkta46aprvda3kxuww62zfddua	377	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	377	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	377	14	rotating	rotating	NN
work_kkta46aprvda3kxuww62zfddua	377	15	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	377	16	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	377	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	378	1	These	these	DT
work_kkta46aprvda3kxuww62zfddua	378	2	arguments	argument	NNS
work_kkta46aprvda3kxuww62zfddua	378	3	may	may	MD
work_kkta46aprvda3kxuww62zfddua	378	4	be	be	VB
work_kkta46aprvda3kxuww62zfddua	378	5	true	true	JJ
work_kkta46aprvda3kxuww62zfddua	378	6	for	for	IN
work_kkta46aprvda3kxuww62zfddua	378	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	378	8	two	two	CD
work_kkta46aprvda3kxuww62zfddua	378	9	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	378	10	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	378	11	that	that	WDT
work_kkta46aprvda3kxuww62zfddua	378	12	may	may	MD
work_kkta46aprvda3kxuww62zfddua	378	13	gives	give	VBZ
work_kkta46aprvda3kxuww62zfddua	378	14	additional	additional	JJ
work_kkta46aprvda3kxuww62zfddua	378	15	stabil-	stabil-	XX
work_kkta46aprvda3kxuww62zfddua	378	16	ity	ity	NN
work_kkta46aprvda3kxuww62zfddua	378	17	to	to	IN
work_kkta46aprvda3kxuww62zfddua	378	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	378	19	rotating	rotating	NN
work_kkta46aprvda3kxuww62zfddua	378	20	nanomachine	nanomachine	NN
work_kkta46aprvda3kxuww62zfddua	378	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	379	1	7	7	LS
work_kkta46aprvda3kxuww62zfddua	379	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	380	1	Conclusion	conclusion	NN
work_kkta46aprvda3kxuww62zfddua	380	2	A1AO	a1ao	NN
work_kkta46aprvda3kxuww62zfddua	380	3	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	380	4	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	380	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	380	6	hyperthermophilic	hyperthermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	380	7	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	380	8	have	have	VBP
work_kkta46aprvda3kxuww62zfddua	380	9	unique	unique	JJ
work_kkta46aprvda3kxuww62zfddua	380	10	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	380	11	and	and	CC
work_kkta46aprvda3kxuww62zfddua	380	12	functional	functional	JJ
work_kkta46aprvda3kxuww62zfddua	380	13	features	feature	NNS
work_kkta46aprvda3kxuww62zfddua	380	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	380	15	including	include	VBG
work_kkta46aprvda3kxuww62zfddua	380	16	an	an	DT
work_kkta46aprvda3kxuww62zfddua	380	17	optimized	optimize	VBN
work_kkta46aprvda3kxuww62zfddua	380	18	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	380	19	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	380	20	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	380	21	design	design	NN
work_kkta46aprvda3kxuww62zfddua	380	22	of	of	IN
work_kkta46aprvda3kxuww62zfddua	380	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	380	24	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	380	25	A	a	DT
work_kkta46aprvda3kxuww62zfddua	380	26	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	380	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	380	28	enabling	enable	VBG
work_kkta46aprvda3kxuww62zfddua	380	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	380	30	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	380	31	to	to	TO
work_kkta46aprvda3kxuww62zfddua	380	32	catalyze	catalyze	VB
work_kkta46aprvda3kxuww62zfddua	380	33	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	380	34	apart	apart	RB
work_kkta46aprvda3kxuww62zfddua	380	35	from	from	IN
work_kkta46aprvda3kxuww62zfddua	380	36	GTP	GTP	NNP
work_kkta46aprvda3kxuww62zfddua	380	37	and	and	CC
work_kkta46aprvda3kxuww62zfddua	380	38	UTP	UTP	NNP
work_kkta46aprvda3kxuww62zfddua	380	39	.	.	.
work_kkta46aprvda3kxuww62zfddua	381	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	381	2	80	80	CD
work_kkta46aprvda3kxuww62zfddua	381	3	Å	Å	NNP
work_kkta46aprvda3kxuww62zfddua	381	4	long	long	JJ
work_kkta46aprvda3kxuww62zfddua	381	5	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	381	6	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	381	7	with	with	IN
work_kkta46aprvda3kxuww62zfddua	381	8	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	381	9	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	381	10	C	c	NN
work_kkta46aprvda3kxuww62zfddua	381	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	381	12	D	d	NN
work_kkta46aprvda3kxuww62zfddua	381	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	381	14	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	381	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	381	16	reflects	reflect	VBZ
work_kkta46aprvda3kxuww62zfddua	381	17	a	a	DT
work_kkta46aprvda3kxuww62zfddua	381	18	coupling	couple	VBG
work_kkta46aprvda3kxuww62zfddua	381	19	mechanism	mechanism	NN
work_kkta46aprvda3kxuww62zfddua	381	20	diverse	diverse	JJ
work_kkta46aprvda3kxuww62zfddua	381	21	to	to	IN
work_kkta46aprvda3kxuww62zfddua	381	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	381	23	Wankel	Wankel	NNP
work_kkta46aprvda3kxuww62zfddua	381	24	engine	engine	NN
work_kkta46aprvda3kxuww62zfddua	381	25	like	like	IN
work_kkta46aprvda3kxuww62zfddua	381	26	form	form	NN
work_kkta46aprvda3kxuww62zfddua	381	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	381	28	described	describe	VBN
work_kkta46aprvda3kxuww62zfddua	381	29	for	for	IN
work_kkta46aprvda3kxuww62zfddua	381	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	381	31	γ	γ	NN
work_kkta46aprvda3kxuww62zfddua	381	32	–	–	:
work_kkta46aprvda3kxuww62zfddua	381	33	ε	ε	NN
work_kkta46aprvda3kxuww62zfddua	381	34	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	381	35	ensemble	ensemble	NN
work_kkta46aprvda3kxuww62zfddua	381	36	of	of	IN
work_kkta46aprvda3kxuww62zfddua	381	37	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	381	38	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	381	39	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	381	40	.	.	.
work_kkta46aprvda3kxuww62zfddua	382	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	382	2	hallmark	hallmark	NN
work_kkta46aprvda3kxuww62zfddua	382	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	382	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	382	5	classification	classification	NN
work_kkta46aprvda3kxuww62zfddua	382	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	382	7	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	382	8	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	382	9	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	382	10	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	382	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	382	12	number	number	NN
work_kkta46aprvda3kxuww62zfddua	382	13	951G.	951g.	NN
work_kkta46aprvda3kxuww62zfddua	383	1	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	383	2	et	et	FW
work_kkta46aprvda3kxuww62zfddua	383	3	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	383	4	.	.	.
work_kkta46aprvda3kxuww62zfddua	384	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	384	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	384	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	384	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	384	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	384	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	384	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	384	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	384	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	384	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	384	11	and	and	CC
work_kkta46aprvda3kxuww62zfddua	384	12	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	384	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	384	14	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	384	15	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	384	16	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	384	17	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	384	18	E	e	NN
work_kkta46aprvda3kxuww62zfddua	384	19	–	–	:
work_kkta46aprvda3kxuww62zfddua	384	20	H	h	NN
work_kkta46aprvda3kxuww62zfddua	384	21	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	384	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	385	1	A	a	DT
work_kkta46aprvda3kxuww62zfddua	385	2	primary	primary	JJ
work_kkta46aprvda3kxuww62zfddua	385	3	function	function	NN
work_kkta46aprvda3kxuww62zfddua	385	4	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	385	5	to	to	TO
work_kkta46aprvda3kxuww62zfddua	385	6	allow	allow	VB
work_kkta46aprvda3kxuww62zfddua	385	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	385	8	rotary	rotary	JJ
work_kkta46aprvda3kxuww62zfddua	385	9	elements	element	NNS
work_kkta46aprvda3kxuww62zfddua	385	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	385	11	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	385	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	385	13	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	385	14	to	to	TO
work_kkta46aprvda3kxuww62zfddua	385	15	move	move	VB
work_kkta46aprvda3kxuww62zfddua	385	16	relative	relative	JJ
work_kkta46aprvda3kxuww62zfddua	385	17	to	to	IN
work_kkta46aprvda3kxuww62zfddua	385	18	each	each	DT
work_kkta46aprvda3kxuww62zfddua	385	19	other	other	JJ
work_kkta46aprvda3kxuww62zfddua	385	20	.	.	.
work_kkta46aprvda3kxuww62zfddua	386	1	Their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	386	2	importance	importance	NN
work_kkta46aprvda3kxuww62zfddua	386	3	for	for	IN
work_kkta46aprvda3kxuww62zfddua	386	4	regulation	regulation	NN
work_kkta46aprvda3kxuww62zfddua	386	5	and	and	CC
work_kkta46aprvda3kxuww62zfddua	386	6	fine	fine	NN
work_kkta46aprvda3kxuww62zfddua	386	7	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	386	8	tuning	tuning	NN
work_kkta46aprvda3kxuww62zfddua	386	9	of	of	IN
work_kkta46aprvda3kxuww62zfddua	386	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	386	11	entire	entire	JJ
work_kkta46aprvda3kxuww62zfddua	386	12	enzyme	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	386	13	will	will	MD
work_kkta46aprvda3kxuww62zfddua	386	14	be	be	VB
work_kkta46aprvda3kxuww62zfddua	386	15	a	a	DT
work_kkta46aprvda3kxuww62zfddua	386	16	topic	topic	NN
work_kkta46aprvda3kxuww62zfddua	386	17	for	for	IN
work_kkta46aprvda3kxuww62zfddua	386	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	386	19	near	near	JJ
work_kkta46aprvda3kxuww62zfddua	386	20	future	future	NN
work_kkta46aprvda3kxuww62zfddua	386	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	387	1	So	so	RB
work_kkta46aprvda3kxuww62zfddua	387	2	far	far	RB
work_kkta46aprvda3kxuww62zfddua	387	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	387	4	biochemical	biochemical	JJ
work_kkta46aprvda3kxuww62zfddua	387	5	and	and	CC
work_kkta46aprvda3kxuww62zfddua	387	6	structural	structural	JJ
work_kkta46aprvda3kxuww62zfddua	387	7	work	work	NN
work_kkta46aprvda3kxuww62zfddua	387	8	on	on	IN
work_kkta46aprvda3kxuww62zfddua	387	9	these	these	DT
work_kkta46aprvda3kxuww62zfddua	387	10	unique	unique	JJ
work_kkta46aprvda3kxuww62zfddua	387	11	enzymes	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	387	12	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	387	13	been	be	VBN
work_kkta46aprvda3kxuww62zfddua	387	14	done	do	VBN
work_kkta46aprvda3kxuww62zfddua	387	15	with	with	IN
work_kkta46aprvda3kxuww62zfddua	387	16	enzymes	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	387	17	isolated	isolate	VBN
work_kkta46aprvda3kxuww62zfddua	387	18	directly	directly	RB
work_kkta46aprvda3kxuww62zfddua	387	19	from	from	IN
work_kkta46aprvda3kxuww62zfddua	387	20	cells	cell	NNS
work_kkta46aprvda3kxuww62zfddua	387	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	387	22	these	these	DT
work_kkta46aprvda3kxuww62zfddua	387	23	hyperthermophiles	hyperthermophile	NNS
work_kkta46aprvda3kxuww62zfddua	387	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	388	1	Since	since	IN
work_kkta46aprvda3kxuww62zfddua	388	2	these	these	DT
work_kkta46aprvda3kxuww62zfddua	388	3	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	388	4	difficult	difficult	JJ
work_kkta46aprvda3kxuww62zfddua	388	5	to	to	TO
work_kkta46aprvda3kxuww62zfddua	388	6	grow	grow	VB
work_kkta46aprvda3kxuww62zfddua	388	7	and	and	CC
work_kkta46aprvda3kxuww62zfddua	388	8	yields	yield	NNS
work_kkta46aprvda3kxuww62zfddua	388	9	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	388	10	low	low	JJ
work_kkta46aprvda3kxuww62zfddua	388	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	388	12	biochemical	biochemical	JJ
work_kkta46aprvda3kxuww62zfddua	388	13	analyses	analysis	NNS
work_kkta46aprvda3kxuww62zfddua	388	14	are	be	VBP
work_kkta46aprvda3kxuww62zfddua	388	15	a	a	DT
work_kkta46aprvda3kxuww62zfddua	388	16	challenge	challenge	NN
work_kkta46aprvda3kxuww62zfddua	388	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	388	18	not	not	RB
work_kkta46aprvda3kxuww62zfddua	388	19	possible	possible	JJ
work_kkta46aprvda3kxuww62zfddua	388	20	for	for	IN
work_kkta46aprvda3kxuww62zfddua	388	21	many	many	JJ
work_kkta46aprvda3kxuww62zfddua	388	22	interesting	interesting	JJ
work_kkta46aprvda3kxuww62zfddua	388	23	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	388	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	389	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	389	2	advent	advent	NN
work_kkta46aprvda3kxuww62zfddua	389	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	389	4	genetic	genetic	JJ
work_kkta46aprvda3kxuww62zfddua	389	5	systems	system	NNS
work_kkta46aprvda3kxuww62zfddua	389	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	389	7	overexpression	overexpression	NN
work_kkta46aprvda3kxuww62zfddua	389	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	389	9	tagging	tagging	NN
work_kkta46aprvda3kxuww62zfddua	389	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	389	11	affinity	affinity	NN
work_kkta46aprvda3kxuww62zfddua	389	12	purification	purification	NN
work_kkta46aprvda3kxuww62zfddua	389	13	will	will	MD
work_kkta46aprvda3kxuww62zfddua	389	14	bring	bring	VB
work_kkta46aprvda3kxuww62zfddua	389	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	389	16	field	field	NN
work_kkta46aprvda3kxuww62zfddua	389	17	into	into	IN
work_kkta46aprvda3kxuww62zfddua	389	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	389	19	next	next	JJ
work_kkta46aprvda3kxuww62zfddua	389	20	round	round	NN
work_kkta46aprvda3kxuww62zfddua	389	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	390	1	There	there	EX
work_kkta46aprvda3kxuww62zfddua	390	2	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	390	3	still	still	RB
work_kkta46aprvda3kxuww62zfddua	390	4	lot	lot	NN
work_kkta46aprvda3kxuww62zfddua	390	5	to	to	TO
work_kkta46aprvda3kxuww62zfddua	390	6	do	do	VB
work_kkta46aprvda3kxuww62zfddua	390	7	to	to	TO
work_kkta46aprvda3kxuww62zfddua	390	8	unravel	unravel	VB
work_kkta46aprvda3kxuww62zfddua	390	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	390	10	beauty	beauty	NN
work_kkta46aprvda3kxuww62zfddua	390	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	390	12	these	these	DT
work_kkta46aprvda3kxuww62zfddua	390	13	fascinating	fascinating	JJ
work_kkta46aprvda3kxuww62zfddua	390	14	enzymes	enzyme	NNS
work_kkta46aprvda3kxuww62zfddua	390	15	.	.	.
work_kkta46aprvda3kxuww62zfddua	391	1	Acknowledgments	acknowledgment	NNS
work_kkta46aprvda3kxuww62zfddua	391	2	This	this	DT
work_kkta46aprvda3kxuww62zfddua	391	3	work	work	NN
work_kkta46aprvda3kxuww62zfddua	391	4	was	be	VBD
work_kkta46aprvda3kxuww62zfddua	391	5	supported	support	VBN
work_kkta46aprvda3kxuww62zfddua	391	6	by	by	IN
work_kkta46aprvda3kxuww62zfddua	391	7	a	a	DT
work_kkta46aprvda3kxuww62zfddua	391	8	grant	grant	NN
work_kkta46aprvda3kxuww62zfddua	391	9	from	from	IN
work_kkta46aprvda3kxuww62zfddua	391	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	391	11	Deutsche	Deutsche	NNP
work_kkta46aprvda3kxuww62zfddua	391	12	Forschungsgemeinschaft	Forschungsgemeinschaft	NNP
work_kkta46aprvda3kxuww62zfddua	391	13	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	391	14	through	through	IN
work_kkta46aprvda3kxuww62zfddua	391	15	SFB	SFB	NNP
work_kkta46aprvda3kxuww62zfddua	391	16	807	807	CD
work_kkta46aprvda3kxuww62zfddua	391	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	391	18	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	391	19	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	391	20	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	391	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	391	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	391	23	Ministry	Ministry	NNP
work_kkta46aprvda3kxuww62zfddua	391	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	391	25	Education	Education	NNP
work_kkta46aprvda3kxuww62zfddua	391	26	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	391	27	Singapore	Singapore	NNP
work_kkta46aprvda3kxuww62zfddua	391	28	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	391	29	MOE	MOE	NNP
work_kkta46aprvda3kxuww62zfddua	391	30	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	391	31	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	391	32	MOE2011-T2	MOE2011-T2	NNP
work_kkta46aprvda3kxuww62zfddua	391	33	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	391	34	2	2	CD
work_kkta46aprvda3kxuww62zfddua	391	35	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	391	36	156	156	CD
work_kkta46aprvda3kxuww62zfddua	391	37	;	;	:
work_kkta46aprvda3kxuww62zfddua	391	38	ARC	ARC	NNP
work_kkta46aprvda3kxuww62zfddua	391	39	18/12	18/12	CD
work_kkta46aprvda3kxuww62zfddua	391	40	;	;	:
work_kkta46aprvda3kxuww62zfddua	391	41	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	391	42	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	391	43	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	391	44	.	.	.
work_kkta46aprvda3kxuww62zfddua	392	1	References	reference	NNS
work_kkta46aprvda3kxuww62zfddua	392	2	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	392	3	1	1	CD
work_kkta46aprvda3kxuww62zfddua	392	4	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	392	5	K.O.	K.O.	NNP
work_kkta46aprvda3kxuww62zfddua	393	1	Stetter	stetter	VB
work_kkta46aprvda3kxuww62zfddua	393	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	393	3	History	history	NN
work_kkta46aprvda3kxuww62zfddua	393	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	393	5	discovery	discovery	NN
work_kkta46aprvda3kxuww62zfddua	393	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	393	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	393	8	first	first	JJ
work_kkta46aprvda3kxuww62zfddua	393	9	hyperthermophiles	hyperthermophile	NNS
work_kkta46aprvda3kxuww62zfddua	393	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	393	11	Extremophiles	Extremophiles	NNP
work_kkta46aprvda3kxuww62zfddua	393	12	10	10	CD
work_kkta46aprvda3kxuww62zfddua	393	13	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	393	14	2006	2006	CD
work_kkta46aprvda3kxuww62zfddua	393	15	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	393	16	357–362	357–362	CD
work_kkta46aprvda3kxuww62zfddua	393	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	394	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	394	2	2	2	LS
work_kkta46aprvda3kxuww62zfddua	394	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	394	4	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	394	5	Fiala	Fiala	NNP
work_kkta46aprvda3kxuww62zfddua	394	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	394	7	K.O.	K.O.	NNP
work_kkta46aprvda3kxuww62zfddua	395	1	Stetter	Stetter	NNP
work_kkta46aprvda3kxuww62zfddua	395	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	395	3	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	395	4	furiosus	furiosus	NN
work_kkta46aprvda3kxuww62zfddua	395	5	sp	sp	NNP
work_kkta46aprvda3kxuww62zfddua	395	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	396	1	nov	nov	NNP
work_kkta46aprvda3kxuww62zfddua	396	2	.	.	NNP
work_kkta46aprvda3kxuww62zfddua	396	3	represents	represent	VBZ
work_kkta46aprvda3kxuww62zfddua	396	4	a	a	DT
work_kkta46aprvda3kxuww62zfddua	396	5	novel	novel	JJ
work_kkta46aprvda3kxuww62zfddua	396	6	genus	genus	NN
work_kkta46aprvda3kxuww62zfddua	396	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	396	8	marine	marine	JJ
work_kkta46aprvda3kxuww62zfddua	396	9	heterotrophic	heterotrophic	JJ
work_kkta46aprvda3kxuww62zfddua	396	10	archaebacteria	archaebacteria	NNP
work_kkta46aprvda3kxuww62zfddua	396	11	growing	grow	VBG
work_kkta46aprvda3kxuww62zfddua	396	12	optimally	optimally	RB
work_kkta46aprvda3kxuww62zfddua	396	13	at	at	IN
work_kkta46aprvda3kxuww62zfddua	396	14	100	100	CD
work_kkta46aprvda3kxuww62zfddua	396	15	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	396	16	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	396	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	396	18	Arch	Arch	NNP
work_kkta46aprvda3kxuww62zfddua	396	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	397	1	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	397	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	398	1	145	145	CD
work_kkta46aprvda3kxuww62zfddua	398	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	398	3	1986	1986	CD
work_kkta46aprvda3kxuww62zfddua	398	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	398	5	56–61	56–61	JJ
work_kkta46aprvda3kxuww62zfddua	398	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	399	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	399	2	3	3	CD
work_kkta46aprvda3kxuww62zfddua	399	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	399	4	K.O.	K.O.	NNP
work_kkta46aprvda3kxuww62zfddua	400	1	Stetter	Stetter	NNP
work_kkta46aprvda3kxuww62zfddua	400	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	400	3	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	400	4	König	König	NNP
work_kkta46aprvda3kxuww62zfddua	400	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	400	6	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	400	7	Stackebrandt	Stackebrandt	NNP
work_kkta46aprvda3kxuww62zfddua	400	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	400	9	Pyrodictium	Pyrodictium	NNP
work_kkta46aprvda3kxuww62zfddua	400	10	gen	gen	NNP
work_kkta46aprvda3kxuww62zfddua	400	11	.	.	NNP
work_kkta46aprvda3kxuww62zfddua	400	12	nov	nov	NNP
work_kkta46aprvda3kxuww62zfddua	400	13	.	.	NNP
work_kkta46aprvda3kxuww62zfddua	400	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	400	15	a	a	DT
work_kkta46aprvda3kxuww62zfddua	400	16	new	new	JJ
work_kkta46aprvda3kxuww62zfddua	400	17	genus	genus	NN
work_kkta46aprvda3kxuww62zfddua	400	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	400	19	submarine	submarine	NN
work_kkta46aprvda3kxuww62zfddua	400	20	disc	disc	NN
work_kkta46aprvda3kxuww62zfddua	400	21	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	400	22	shaped	shape	VBN
work_kkta46aprvda3kxuww62zfddua	400	23	sulphur	sulphur	NNP
work_kkta46aprvda3kxuww62zfddua	400	24	reducing	reduce	VBG
work_kkta46aprvda3kxuww62zfddua	400	25	archaebacteria	archaebacteria	NNP
work_kkta46aprvda3kxuww62zfddua	400	26	growing	grow	VBG
work_kkta46aprvda3kxuww62zfddua	400	27	optimally	optimally	RB
work_kkta46aprvda3kxuww62zfddua	400	28	at	at	IN
work_kkta46aprvda3kxuww62zfddua	400	29	105	105	CD
work_kkta46aprvda3kxuww62zfddua	400	30	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	400	31	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	400	32	,	,	,
work_kkta46aprvda3kxuww62zfddua	400	33	Syst	Syst	NNP
work_kkta46aprvda3kxuww62zfddua	400	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	401	1	Appl	Appl	NNP
work_kkta46aprvda3kxuww62zfddua	401	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	402	1	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	402	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	403	1	4	4	CD
work_kkta46aprvda3kxuww62zfddua	403	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	403	3	1983	1983	CD
work_kkta46aprvda3kxuww62zfddua	403	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	403	5	535–551	535–551	CD
work_kkta46aprvda3kxuww62zfddua	403	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	404	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	404	2	4	4	CD
work_kkta46aprvda3kxuww62zfddua	404	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	404	4	W.	W.	NNP
work_kkta46aprvda3kxuww62zfddua	404	5	Zillig	Zillig	NNP
work_kkta46aprvda3kxuww62zfddua	404	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	404	7	I.	I.	NNP
work_kkta46aprvda3kxuww62zfddua	404	8	Holz	Holz	NNP
work_kkta46aprvda3kxuww62zfddua	404	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	404	10	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	404	11	Janekovic	Janekovic	NNP
work_kkta46aprvda3kxuww62zfddua	404	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	404	13	H.P.	H.P.	NNP
work_kkta46aprvda3kxuww62zfddua	405	1	Klenk	Klenk	NNP
work_kkta46aprvda3kxuww62zfddua	405	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	405	3	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	405	4	Imsel	Imsel	NNP
work_kkta46aprvda3kxuww62zfddua	405	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	405	6	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	405	7	Trent	Trent	NNP
work_kkta46aprvda3kxuww62zfddua	405	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	405	9	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	405	10	Wunderl	Wunderl	NNP
work_kkta46aprvda3kxuww62zfddua	405	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	405	12	V.H.	V.H.	NNP
work_kkta46aprvda3kxuww62zfddua	406	1	Forjaz	Forjaz	NNP
work_kkta46aprvda3kxuww62zfddua	406	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	406	3	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	406	4	Coutinho	Coutinho	NNP
work_kkta46aprvda3kxuww62zfddua	406	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	406	6	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	406	7	Ferreira	Ferreira	NNP
work_kkta46aprvda3kxuww62zfddua	406	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	406	9	Hyperthermus	Hyperthermus	NNP
work_kkta46aprvda3kxuww62zfddua	406	10	butylicus	butylicus	NN
work_kkta46aprvda3kxuww62zfddua	406	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	406	12	a	a	DT
work_kkta46aprvda3kxuww62zfddua	406	13	hyperthermophilic	hyperthermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	406	14	sulfur	sulfur	NN
work_kkta46aprvda3kxuww62zfddua	406	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	406	16	reducing	reduce	VBG
work_kkta46aprvda3kxuww62zfddua	406	17	ar-	ar-	NNP
work_kkta46aprvda3kxuww62zfddua	406	18	chaebacterium	chaebacterium	NN
work_kkta46aprvda3kxuww62zfddua	406	19	that	that	IN
work_kkta46aprvda3kxuww62zfddua	406	20	ferments	ferment	NNS
work_kkta46aprvda3kxuww62zfddua	406	21	peptides	peptide	NNS
work_kkta46aprvda3kxuww62zfddua	406	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	406	23	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	406	24	Bacteriol	Bacteriol	NNP
work_kkta46aprvda3kxuww62zfddua	406	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	407	1	172	172	CD
work_kkta46aprvda3kxuww62zfddua	407	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	407	3	1990	1990	CD
work_kkta46aprvda3kxuww62zfddua	407	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	407	5	3959–3965	3959–3965	CD
work_kkta46aprvda3kxuww62zfddua	407	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	408	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	408	2	5	5	CD
work_kkta46aprvda3kxuww62zfddua	408	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	408	4	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	408	5	Kurr	Kurr	NNP
work_kkta46aprvda3kxuww62zfddua	408	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	408	7	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	408	8	Huber	Huber	NNP
work_kkta46aprvda3kxuww62zfddua	408	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	408	10	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	408	11	Konig	Konig	NNP
work_kkta46aprvda3kxuww62zfddua	408	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	408	13	H.W.	H.W.	NNP
work_kkta46aprvda3kxuww62zfddua	409	1	Jannasch	Jannasch	NNP
work_kkta46aprvda3kxuww62zfddua	409	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	409	3	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	409	4	Fricke	Fricke	NNP
work_kkta46aprvda3kxuww62zfddua	409	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	409	6	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	409	7	Trincone	Trincone	NNP
work_kkta46aprvda3kxuww62zfddua	409	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	409	9	J.K.	J.K.	NNP
work_kkta46aprvda3kxuww62zfddua	409	10	Kristjansson	Kristjansson	NNP
work_kkta46aprvda3kxuww62zfddua	409	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	409	12	K.O.	K.O.	NNP
work_kkta46aprvda3kxuww62zfddua	410	1	Stetter	stetter	VB
work_kkta46aprvda3kxuww62zfddua	410	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	410	3	Methanopyrus	Methanopyrus	NNP
work_kkta46aprvda3kxuww62zfddua	410	4	kandleri	kandleri	NN
work_kkta46aprvda3kxuww62zfddua	410	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	410	6	gen	gen	NNP
work_kkta46aprvda3kxuww62zfddua	410	7	.	.	NNP
work_kkta46aprvda3kxuww62zfddua	410	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	410	9	sp	sp	NNP
work_kkta46aprvda3kxuww62zfddua	410	10	.	.	.
work_kkta46aprvda3kxuww62zfddua	411	1	nov	nov	NNP
work_kkta46aprvda3kxuww62zfddua	411	2	.	.	NNP
work_kkta46aprvda3kxuww62zfddua	411	3	represents	represent	VBZ
work_kkta46aprvda3kxuww62zfddua	411	4	a	a	DT
work_kkta46aprvda3kxuww62zfddua	411	5	novel	novel	JJ
work_kkta46aprvda3kxuww62zfddua	411	6	group	group	NN
work_kkta46aprvda3kxuww62zfddua	411	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	411	8	hyperthermophilic	hyperthermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	411	9	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	411	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	411	11	growing	grow	VBG
work_kkta46aprvda3kxuww62zfddua	411	12	at	at	IN
work_kkta46aprvda3kxuww62zfddua	411	13	110	110	CD
work_kkta46aprvda3kxuww62zfddua	411	14	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	411	15	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	411	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	411	17	Arch	Arch	NNP
work_kkta46aprvda3kxuww62zfddua	411	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	412	1	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	412	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	413	1	156	156	CD
work_kkta46aprvda3kxuww62zfddua	413	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	413	3	1991	1991	CD
work_kkta46aprvda3kxuww62zfddua	413	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	413	5	239–247	239–247	CD
work_kkta46aprvda3kxuww62zfddua	413	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	414	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	414	2	6	6	CD
work_kkta46aprvda3kxuww62zfddua	414	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	414	4	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	414	5	Blöchl	Blöchl	NNP
work_kkta46aprvda3kxuww62zfddua	414	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	414	7	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	414	8	Rachel	Rachel	NNP
work_kkta46aprvda3kxuww62zfddua	414	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	414	10	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	414	11	Burggraf	Burggraf	NNP
work_kkta46aprvda3kxuww62zfddua	414	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	414	13	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	414	14	Hafenbradl	Hafenbradl	NNP
work_kkta46aprvda3kxuww62zfddua	414	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	414	16	H.W.	H.W.	NNP
work_kkta46aprvda3kxuww62zfddua	415	1	Jannasch	Jannasch	NNP
work_kkta46aprvda3kxuww62zfddua	415	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	415	3	K.O.	K.O.	NNP
work_kkta46aprvda3kxuww62zfddua	416	1	Stetter	Stetter	NNP
work_kkta46aprvda3kxuww62zfddua	416	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	416	3	Pyrolobus	Pyrolobus	NNP
work_kkta46aprvda3kxuww62zfddua	416	4	fumarii	fumarii	NNS
work_kkta46aprvda3kxuww62zfddua	416	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	416	6	gen	gen	NNP
work_kkta46aprvda3kxuww62zfddua	416	7	.	.	NNP
work_kkta46aprvda3kxuww62zfddua	416	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	416	9	sp	sp	NNP
work_kkta46aprvda3kxuww62zfddua	416	10	.	.	.
work_kkta46aprvda3kxuww62zfddua	417	1	nov	nov	NNP
work_kkta46aprvda3kxuww62zfddua	417	2	.	.	NNP
work_kkta46aprvda3kxuww62zfddua	417	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	417	4	represents	represent	VBZ
work_kkta46aprvda3kxuww62zfddua	417	5	a	a	DT
work_kkta46aprvda3kxuww62zfddua	417	6	novel	novel	JJ
work_kkta46aprvda3kxuww62zfddua	417	7	group	group	NN
work_kkta46aprvda3kxuww62zfddua	417	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	417	9	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	417	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	417	11	ex-	ex-	XX
work_kkta46aprvda3kxuww62zfddua	417	12	tending	tend	VBG
work_kkta46aprvda3kxuww62zfddua	417	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	417	14	upper	upper	JJ
work_kkta46aprvda3kxuww62zfddua	417	15	temperature	temperature	NN
work_kkta46aprvda3kxuww62zfddua	417	16	limit	limit	NN
work_kkta46aprvda3kxuww62zfddua	417	17	for	for	IN
work_kkta46aprvda3kxuww62zfddua	417	18	life	life	NN
work_kkta46aprvda3kxuww62zfddua	417	19	to	to	IN
work_kkta46aprvda3kxuww62zfddua	417	20	113	113	CD
work_kkta46aprvda3kxuww62zfddua	417	21	°	°	NNS
work_kkta46aprvda3kxuww62zfddua	417	22	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	417	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	417	24	Extremophiles	Extremophiles	NNP
work_kkta46aprvda3kxuww62zfddua	417	25	1	1	CD
work_kkta46aprvda3kxuww62zfddua	417	26	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	417	27	1997	1997	CD
work_kkta46aprvda3kxuww62zfddua	417	28	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	417	29	14–21	14–21	CD
work_kkta46aprvda3kxuww62zfddua	417	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	418	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	418	2	7	7	CD
work_kkta46aprvda3kxuww62zfddua	418	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	418	4	H.P.	H.P.	NNP
work_kkta46aprvda3kxuww62zfddua	419	1	Klenk	Klenk	NNP
work_kkta46aprvda3kxuww62zfddua	419	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	419	3	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	419	4	Spitzer	Spitzer	NNP
work_kkta46aprvda3kxuww62zfddua	419	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	419	6	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	419	7	Ochsenreiter	Ochsenreiter	NNP
work_kkta46aprvda3kxuww62zfddua	419	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	419	9	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	419	10	Fuellen	Fuellen	NNP
work_kkta46aprvda3kxuww62zfddua	419	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	419	12	Phylogenomics	Phylogenomics	NNP
work_kkta46aprvda3kxuww62zfddua	419	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	419	14	hyperthermo-	hyperthermo-	NNP
work_kkta46aprvda3kxuww62zfddua	419	15	philic	philic	NNP
work_kkta46aprvda3kxuww62zfddua	419	16	Archaea	Archaea	NNP
work_kkta46aprvda3kxuww62zfddua	419	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	419	18	Bacteria	Bacteria	NNP
work_kkta46aprvda3kxuww62zfddua	419	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	419	20	Biochem	Biochem	NNP
work_kkta46aprvda3kxuww62zfddua	419	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	420	1	Soc	Soc	NNP
work_kkta46aprvda3kxuww62zfddua	420	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	421	1	Trans	tran	NNS
work_kkta46aprvda3kxuww62zfddua	421	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	422	1	32	32	CD
work_kkta46aprvda3kxuww62zfddua	422	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	422	3	2004	2004	CD
work_kkta46aprvda3kxuww62zfddua	422	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	422	5	175–178	175–178	CD
work_kkta46aprvda3kxuww62zfddua	422	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	423	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	423	2	8	8	CD
work_kkta46aprvda3kxuww62zfddua	423	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	423	4	B.	B.	NNP
work_kkta46aprvda3kxuww62zfddua	423	5	Snel	Snel	NNP
work_kkta46aprvda3kxuww62zfddua	423	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	423	7	M.A.	M.A.	NNP
work_kkta46aprvda3kxuww62zfddua	424	1	Huynen	Huynen	NNP
work_kkta46aprvda3kxuww62zfddua	424	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	424	3	B.E.	B.E.	NNP
work_kkta46aprvda3kxuww62zfddua	425	1	Dutilh	dutilh	VB
work_kkta46aprvda3kxuww62zfddua	425	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	425	3	Genome	Genome	NNP
work_kkta46aprvda3kxuww62zfddua	425	4	trees	tree	NNS
work_kkta46aprvda3kxuww62zfddua	425	5	and	and	CC
work_kkta46aprvda3kxuww62zfddua	425	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	425	7	nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	425	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	425	9	genome	genome	JJ
work_kkta46aprvda3kxuww62zfddua	425	10	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	425	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	425	12	Annu	Annu	NNP
work_kkta46aprvda3kxuww62zfddua	425	13	.	.	.
work_kkta46aprvda3kxuww62zfddua	426	1	Rev.	Rev.	NNP
work_kkta46aprvda3kxuww62zfddua	427	1	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	427	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	428	1	59	59	CD
work_kkta46aprvda3kxuww62zfddua	428	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	428	3	2005	2005	CD
work_kkta46aprvda3kxuww62zfddua	428	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	428	5	191–209	191–209	CD
work_kkta46aprvda3kxuww62zfddua	428	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	429	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	429	2	9	9	CD
work_kkta46aprvda3kxuww62zfddua	429	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	429	4	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	429	5	Gribaldo	Gribaldo	NNP
work_kkta46aprvda3kxuww62zfddua	429	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	429	7	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	429	8	Brochier	Brochier	NNP
work_kkta46aprvda3kxuww62zfddua	429	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	429	10	Armanet	Armanet	NNP
work_kkta46aprvda3kxuww62zfddua	429	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	429	12	The	the	DT
work_kkta46aprvda3kxuww62zfddua	429	13	origin	origin	NN
work_kkta46aprvda3kxuww62zfddua	429	14	and	and	CC
work_kkta46aprvda3kxuww62zfddua	429	15	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	429	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	429	17	Archaea	Archaea	NNP
work_kkta46aprvda3kxuww62zfddua	429	18	:	:	:
work_kkta46aprvda3kxuww62zfddua	429	19	a	a	DT
work_kkta46aprvda3kxuww62zfddua	429	20	state	state	NN
work_kkta46aprvda3kxuww62zfddua	429	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	429	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	429	23	art	art	NN
work_kkta46aprvda3kxuww62zfddua	429	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	429	25	Philos	Philos	NNP
work_kkta46aprvda3kxuww62zfddua	429	26	.	.	.
work_kkta46aprvda3kxuww62zfddua	430	1	Trans	tran	NNS
work_kkta46aprvda3kxuww62zfddua	430	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	431	1	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	431	2	Soc	Soc	NNP
work_kkta46aprvda3kxuww62zfddua	431	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	432	1	Lond	lond	NN
work_kkta46aprvda3kxuww62zfddua	432	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	433	1	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	433	2	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	433	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	434	1	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	434	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	435	1	361	361	CD
work_kkta46aprvda3kxuww62zfddua	435	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	435	3	2006	2006	CD
work_kkta46aprvda3kxuww62zfddua	435	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	435	5	1007–1022	1007–1022	CD
work_kkta46aprvda3kxuww62zfddua	435	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	436	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	436	2	10	10	CD
work_kkta46aprvda3kxuww62zfddua	436	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	436	4	D.W.	D.W.	NNP
work_kkta46aprvda3kxuww62zfddua	436	5	Schwartzman	Schwartzman	NNP
work_kkta46aprvda3kxuww62zfddua	436	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	436	7	C.H.	C.H.	NNP
work_kkta46aprvda3kxuww62zfddua	437	1	Lineweaver	lineweaver	NN
work_kkta46aprvda3kxuww62zfddua	437	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	437	3	The	the	DT
work_kkta46aprvda3kxuww62zfddua	437	4	hyperthermophilic	hyperthermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	437	5	origin	origin	NN
work_kkta46aprvda3kxuww62zfddua	437	6	of	of	IN
work_kkta46aprvda3kxuww62zfddua	437	7	life	life	NN
work_kkta46aprvda3kxuww62zfddua	437	8	revisited	revisit	VBN
work_kkta46aprvda3kxuww62zfddua	437	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	437	10	Biochem	Biochem	NNP
work_kkta46aprvda3kxuww62zfddua	437	11	.	.	.
work_kkta46aprvda3kxuww62zfddua	438	1	Soc	Soc	NNP
work_kkta46aprvda3kxuww62zfddua	438	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	439	1	Trans	tran	NNS
work_kkta46aprvda3kxuww62zfddua	439	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	440	1	32	32	CD
work_kkta46aprvda3kxuww62zfddua	440	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	440	3	2004	2004	CD
work_kkta46aprvda3kxuww62zfddua	440	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	440	5	168–171	168–171	CD
work_kkta46aprvda3kxuww62zfddua	440	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	441	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	441	2	11	11	CD
work_kkta46aprvda3kxuww62zfddua	441	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	441	4	T.M.	T.M.	NNP
work_kkta46aprvda3kxuww62zfddua	442	1	Hoehler	Hoehler	NNP
work_kkta46aprvda3kxuww62zfddua	442	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	442	3	Biogeochemistry	Biogeochemistry	NNP
work_kkta46aprvda3kxuww62zfddua	442	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	442	5	dihydrogen	dihydrogen	NNP
work_kkta46aprvda3kxuww62zfddua	442	6	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	442	7	H2	H2	NNP
work_kkta46aprvda3kxuww62zfddua	442	8	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	442	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	442	10	Met	Met	NNP
work_kkta46aprvda3kxuww62zfddua	442	11	.	.	.
work_kkta46aprvda3kxuww62zfddua	443	1	Ions	Ions	NNP
work_kkta46aprvda3kxuww62zfddua	443	2	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	443	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	444	1	Syst	Syst	NNP
work_kkta46aprvda3kxuww62zfddua	444	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	445	1	43	43	CD
work_kkta46aprvda3kxuww62zfddua	445	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	445	3	2005	2005	CD
work_kkta46aprvda3kxuww62zfddua	445	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	445	5	9–48	9–48	CD
work_kkta46aprvda3kxuww62zfddua	445	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	446	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	446	2	12	12	CD
work_kkta46aprvda3kxuww62zfddua	446	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	446	4	J.P.	J.P.	NNP
work_kkta46aprvda3kxuww62zfddua	447	1	Amend	amend	VB
work_kkta46aprvda3kxuww62zfddua	447	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	447	3	E.L.	E.L.	NNP
work_kkta46aprvda3kxuww62zfddua	448	1	Shock	shock	NN
work_kkta46aprvda3kxuww62zfddua	448	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	448	3	Energetics	Energetics	NNPS
work_kkta46aprvda3kxuww62zfddua	448	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	448	5	overall	overall	JJ
work_kkta46aprvda3kxuww62zfddua	448	6	metabolic	metabolic	JJ
work_kkta46aprvda3kxuww62zfddua	448	7	reactions	reaction	NNS
work_kkta46aprvda3kxuww62zfddua	448	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	448	9	thermophilic	thermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	448	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	448	11	hyperthermophilic	hyperthermophilic	NN
work_kkta46aprvda3kxuww62zfddua	448	12	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	448	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	448	14	bacteria	bacteria	NNS
work_kkta46aprvda3kxuww62zfddua	448	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	448	16	FEMS	FEMS	NNP
work_kkta46aprvda3kxuww62zfddua	448	17	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	448	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	449	1	Rev.	Rev.	NNP
work_kkta46aprvda3kxuww62zfddua	450	1	25	25	CD
work_kkta46aprvda3kxuww62zfddua	450	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	450	3	2001	2001	CD
work_kkta46aprvda3kxuww62zfddua	450	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	450	5	175–243	175–243	CD
work_kkta46aprvda3kxuww62zfddua	450	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	451	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	451	2	13	13	CD
work_kkta46aprvda3kxuww62zfddua	451	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	451	4	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	451	5	Conrad	Conrad	NNP
work_kkta46aprvda3kxuww62zfddua	451	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	451	7	Soil	Soil	NNP
work_kkta46aprvda3kxuww62zfddua	451	8	microorganisms	microorganism	NNS
work_kkta46aprvda3kxuww62zfddua	451	9	as	as	IN
work_kkta46aprvda3kxuww62zfddua	451	10	controllers	controller	NNS
work_kkta46aprvda3kxuww62zfddua	451	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	451	12	atmospheric	atmospheric	JJ
work_kkta46aprvda3kxuww62zfddua	451	13	trace	trace	NN
work_kkta46aprvda3kxuww62zfddua	451	14	gases	gas	NNS
work_kkta46aprvda3kxuww62zfddua	451	15	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	451	16	H2	H2	NNP
work_kkta46aprvda3kxuww62zfddua	451	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	451	18	CO	CO	NNP
work_kkta46aprvda3kxuww62zfddua	451	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	451	20	CH4	CH4	NNP
work_kkta46aprvda3kxuww62zfddua	451	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	451	22	OCS	OCS	NNP
work_kkta46aprvda3kxuww62zfddua	451	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	451	24	N2O	n2o	NN
work_kkta46aprvda3kxuww62zfddua	451	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	451	26	and	and	CC
work_kkta46aprvda3kxuww62zfddua	451	27	NO	no	UH
work_kkta46aprvda3kxuww62zfddua	451	28	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	451	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	451	30	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	451	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	452	1	Rev.	Rev.	NNP
work_kkta46aprvda3kxuww62zfddua	453	1	60	60	CD
work_kkta46aprvda3kxuww62zfddua	453	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	453	3	1996	1996	CD
work_kkta46aprvda3kxuww62zfddua	453	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	453	5	609–640	609–640	CD
work_kkta46aprvda3kxuww62zfddua	453	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	454	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	454	2	14	14	CD
work_kkta46aprvda3kxuww62zfddua	454	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	454	4	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	454	5	Elderfield	Elderfield	NNP
work_kkta46aprvda3kxuww62zfddua	454	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	454	7	A.	A.	NNP
work_kkta46aprvda3kxuww62zfddua	454	8	Schultz	Schultz	NNP
work_kkta46aprvda3kxuww62zfddua	454	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	454	10	Mid	Mid	NNP
work_kkta46aprvda3kxuww62zfddua	454	11	-	-	NNP
work_kkta46aprvda3kxuww62zfddua	454	12	ocean	ocean	NNP
work_kkta46aprvda3kxuww62zfddua	454	13	ridge	ridge	NNP
work_kkta46aprvda3kxuww62zfddua	454	14	hydrothermal	hydrothermal	NNP
work_kkta46aprvda3kxuww62zfddua	454	15	fluxes	flux	NNS
work_kkta46aprvda3kxuww62zfddua	454	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	454	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	454	18	chemical	chemical	JJ
work_kkta46aprvda3kxuww62zfddua	454	19	composition	composition	NN
work_kkta46aprvda3kxuww62zfddua	454	20	of	of	IN
work_kkta46aprvda3kxuww62zfddua	454	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	454	22	ocean	ocean	NN
work_kkta46aprvda3kxuww62zfddua	454	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	454	24	Annu	Annu	NNP
work_kkta46aprvda3kxuww62zfddua	454	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	455	1	Rev.	Rev.	NNP
work_kkta46aprvda3kxuww62zfddua	456	1	Earth	Earth	NNP
work_kkta46aprvda3kxuww62zfddua	456	2	Planet	Planet	NNP
work_kkta46aprvda3kxuww62zfddua	456	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	457	1	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	457	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	458	1	24	24	CD
work_kkta46aprvda3kxuww62zfddua	458	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	458	3	1996	1996	CD
work_kkta46aprvda3kxuww62zfddua	458	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	458	5	191–224	191–224	CD
work_kkta46aprvda3kxuww62zfddua	458	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	459	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	459	2	15	15	CD
work_kkta46aprvda3kxuww62zfddua	459	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	459	4	D.S.	D.S.	NNP
work_kkta46aprvda3kxuww62zfddua	460	1	Kelley	Kelley	NNP
work_kkta46aprvda3kxuww62zfddua	460	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	460	3	J.A.	J.A.	NNP
work_kkta46aprvda3kxuww62zfddua	461	1	Baross	Baross	NNP
work_kkta46aprvda3kxuww62zfddua	461	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	461	3	J.R.	J.R.	NNP
work_kkta46aprvda3kxuww62zfddua	461	4	Delaney	Delaney	NNP
work_kkta46aprvda3kxuww62zfddua	461	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	461	6	Volcanoes	Volcanoes	NNP
work_kkta46aprvda3kxuww62zfddua	461	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	461	8	fluids	fluid	NNS
work_kkta46aprvda3kxuww62zfddua	461	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	461	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	461	11	life	life	NN
work_kkta46aprvda3kxuww62zfddua	461	12	at	at	IN
work_kkta46aprvda3kxuww62zfddua	461	13	mid	mid	NNP
work_kkta46aprvda3kxuww62zfddua	461	14	-	-	NNP
work_kkta46aprvda3kxuww62zfddua	461	15	ocean	ocean	NNP
work_kkta46aprvda3kxuww62zfddua	461	16	ridge	ridge	NN
work_kkta46aprvda3kxuww62zfddua	461	17	spreading	spread	VBG
work_kkta46aprvda3kxuww62zfddua	461	18	centers	center	NNS
work_kkta46aprvda3kxuww62zfddua	461	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	461	20	Annu	Annu	NNP
work_kkta46aprvda3kxuww62zfddua	461	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	462	1	Rev.	Rev.	NNP
work_kkta46aprvda3kxuww62zfddua	463	1	Earth	Earth	NNP
work_kkta46aprvda3kxuww62zfddua	463	2	Planet	Planet	NNP
work_kkta46aprvda3kxuww62zfddua	463	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	464	1	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	464	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	465	1	30	30	CD
work_kkta46aprvda3kxuww62zfddua	465	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	465	3	2002	2002	CD
work_kkta46aprvda3kxuww62zfddua	465	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	465	5	385–491	385–491	CD
work_kkta46aprvda3kxuww62zfddua	465	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	466	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	466	2	16	16	CD
work_kkta46aprvda3kxuww62zfddua	466	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	466	4	T.M.	T.M.	NNP
work_kkta46aprvda3kxuww62zfddua	467	1	McCollom	McCollom	NNP
work_kkta46aprvda3kxuww62zfddua	467	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	467	3	J.S.	J.S.	NNP
work_kkta46aprvda3kxuww62zfddua	468	1	Seewald	Seewald	VBN
work_kkta46aprvda3kxuww62zfddua	468	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	468	3	Abiotic	abiotic	JJ
work_kkta46aprvda3kxuww62zfddua	468	4	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	468	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	468	6	organic	organic	JJ
work_kkta46aprvda3kxuww62zfddua	468	7	compounds	compound	NNS
work_kkta46aprvda3kxuww62zfddua	468	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	468	9	deep	deep	JJ
work_kkta46aprvda3kxuww62zfddua	468	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	468	11	sea	sea	NN
work_kkta46aprvda3kxuww62zfddua	468	12	hydrothermal	hydrothermal	NN
work_kkta46aprvda3kxuww62zfddua	468	13	environments	environment	NNS
work_kkta46aprvda3kxuww62zfddua	468	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	468	15	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	468	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	469	1	Rev.	Rev.	NNP
work_kkta46aprvda3kxuww62zfddua	470	1	107	107	CD
work_kkta46aprvda3kxuww62zfddua	470	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	470	3	2007	2007	CD
work_kkta46aprvda3kxuww62zfddua	470	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	470	5	382–401	382–401	CD
work_kkta46aprvda3kxuww62zfddua	470	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	471	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	471	2	17	17	CD
work_kkta46aprvda3kxuww62zfddua	471	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	471	4	U.	U.	NNP
work_kkta46aprvda3kxuww62zfddua	471	5	Deppenmeier	Deppenmeier	NNP
work_kkta46aprvda3kxuww62zfddua	471	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	471	7	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	471	8	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	471	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	471	10	Life	Life	NNP
work_kkta46aprvda3kxuww62zfddua	471	11	close	close	RB
work_kkta46aprvda3kxuww62zfddua	471	12	to	to	IN
work_kkta46aprvda3kxuww62zfddua	471	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	471	14	thermodynamic	thermodynamic	JJ
work_kkta46aprvda3kxuww62zfddua	471	15	limit	limit	NN
work_kkta46aprvda3kxuww62zfddua	471	16	:	:	:
work_kkta46aprvda3kxuww62zfddua	471	17	how	how	WRB
work_kkta46aprvda3kxuww62zfddua	471	18	methano-	methano-	NNP
work_kkta46aprvda3kxuww62zfddua	471	19	genic	genic	NNP
work_kkta46aprvda3kxuww62zfddua	471	20	archaea	archaea	VBN
work_kkta46aprvda3kxuww62zfddua	471	21	conserve	conserve	VB
work_kkta46aprvda3kxuww62zfddua	471	22	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	471	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	471	24	Results	Results	NNP
work_kkta46aprvda3kxuww62zfddua	471	25	Probl	Probl	NNP
work_kkta46aprvda3kxuww62zfddua	471	26	.	.	.
work_kkta46aprvda3kxuww62zfddua	472	1	Cell	Cell	NNP
work_kkta46aprvda3kxuww62zfddua	472	2	Differ	Differ	NNP
work_kkta46aprvda3kxuww62zfddua	472	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	473	1	45	45	CD
work_kkta46aprvda3kxuww62zfddua	473	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	473	3	2008	2008	CD
work_kkta46aprvda3kxuww62zfddua	473	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	473	5	123–152	123–152	CD
work_kkta46aprvda3kxuww62zfddua	473	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	474	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	474	2	18	18	CD
work_kkta46aprvda3kxuww62zfddua	474	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	474	4	E.J.	E.J.	NNP
work_kkta46aprvda3kxuww62zfddua	475	1	Boekema	Boekema	NNP
work_kkta46aprvda3kxuww62zfddua	475	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	475	3	J.F.	J.F.	NNP
work_kkta46aprvda3kxuww62zfddua	476	1	van	van	NNP
work_kkta46aprvda3kxuww62zfddua	476	2	Breemen	Breemen	NNP
work_kkta46aprvda3kxuww62zfddua	476	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	476	4	A.	A.	NNP
work_kkta46aprvda3kxuww62zfddua	476	5	Brisson	Brisson	NNP
work_kkta46aprvda3kxuww62zfddua	476	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	476	7	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	476	8	Ubbink	Ubbink	NNP
work_kkta46aprvda3kxuww62zfddua	476	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	476	10	Kok	Kok	NNP
work_kkta46aprvda3kxuww62zfddua	476	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	476	12	W.N.	W.N.	NNP
work_kkta46aprvda3kxuww62zfddua	477	1	Konings	Konings	NNP
work_kkta46aprvda3kxuww62zfddua	477	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	477	3	J.S.	J.S.	NNP
work_kkta46aprvda3kxuww62zfddua	478	1	Lolkema	Lolkema	NNP
work_kkta46aprvda3kxuww62zfddua	478	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	478	3	Connecting	Connecting	NNP
work_kkta46aprvda3kxuww62zfddua	478	4	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	478	5	in	in	IN
work_kkta46aprvda3kxuww62zfddua	478	6	V	v	NN
work_kkta46aprvda3kxuww62zfddua	478	7	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	478	8	type	type	NN
work_kkta46aprvda3kxuww62zfddua	478	9	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	478	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	478	11	Nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	478	12	401	401	CD
work_kkta46aprvda3kxuww62zfddua	478	13	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	478	14	1999	1999	CD
work_kkta46aprvda3kxuww62zfddua	478	15	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	478	16	37–38	37–38	CD
work_kkta46aprvda3kxuww62zfddua	478	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	479	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	479	2	19	19	CD
work_kkta46aprvda3kxuww62zfddua	479	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	479	4	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	479	5	Schäfer	Schäfer	NNP
work_kkta46aprvda3kxuww62zfddua	479	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	479	7	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	479	8	Engelhard	Engelhard	NNP
work_kkta46aprvda3kxuww62zfddua	479	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	479	10	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	479	11	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	479	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	479	13	Bioenergetics	Bioenergetics	NNP
work_kkta46aprvda3kxuww62zfddua	479	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	479	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	479	16	Archaea	Archaea	NNP
work_kkta46aprvda3kxuww62zfddua	479	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	479	18	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	479	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	480	1	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	480	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	481	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	481	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	482	1	Rev.	Rev.	NNP
work_kkta46aprvda3kxuww62zfddua	483	1	63	63	CD
work_kkta46aprvda3kxuww62zfddua	483	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	483	3	1999	1999	CD
work_kkta46aprvda3kxuww62zfddua	483	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	483	5	570–620	570–620	CD
work_kkta46aprvda3kxuww62zfddua	483	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	484	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	484	2	20	20	CD
work_kkta46aprvda3kxuww62zfddua	484	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	484	4	F.	F.	NNP
work_kkta46aprvda3kxuww62zfddua	484	5	Mayer	Mayer	NNP
work_kkta46aprvda3kxuww62zfddua	484	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	484	7	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	484	8	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	484	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	484	10	Adaptations	Adaptations	NNPS
work_kkta46aprvda3kxuww62zfddua	484	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	484	12	anaerobic	anaerobic	JJ
work_kkta46aprvda3kxuww62zfddua	484	13	archaea	archaea	VBN
work_kkta46aprvda3kxuww62zfddua	484	14	to	to	IN
work_kkta46aprvda3kxuww62zfddua	484	15	life	life	NN
work_kkta46aprvda3kxuww62zfddua	484	16	under	under	IN
work_kkta46aprvda3kxuww62zfddua	484	17	extreme	extreme	JJ
work_kkta46aprvda3kxuww62zfddua	484	18	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	484	19	limitation	limitation	NN
work_kkta46aprvda3kxuww62zfddua	484	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	484	21	FEMS	FEMS	NNP
work_kkta46aprvda3kxuww62zfddua	484	22	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	484	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	485	1	Rev.	Rev.	NNP
work_kkta46aprvda3kxuww62zfddua	486	1	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	486	2	2013	2013	CD
work_kkta46aprvda3kxuww62zfddua	486	3	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	486	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	486	5	http://dx.doi.org/10.1111/1574-6976	http://dx.doi.org/10.1111/1574-6976	NN
work_kkta46aprvda3kxuww62zfddua	486	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	487	1	12043	12043	CD
work_kkta46aprvda3kxuww62zfddua	487	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	488	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	488	2	21	21	CD
work_kkta46aprvda3kxuww62zfddua	488	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	488	4	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	488	5	Sapra	Sapra	NNP
work_kkta46aprvda3kxuww62zfddua	488	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	488	7	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	488	8	Bagramyan	Bagramyan	NNP
work_kkta46aprvda3kxuww62zfddua	488	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	488	10	M.W.W.	M.W.W.	NNP
work_kkta46aprvda3kxuww62zfddua	489	1	Adams	Adams	NNP
work_kkta46aprvda3kxuww62zfddua	489	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	489	3	A	a	DT
work_kkta46aprvda3kxuww62zfddua	489	4	simple	simple	JJ
work_kkta46aprvda3kxuww62zfddua	489	5	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	489	6	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	489	7	conserving	conserve	VBG
work_kkta46aprvda3kxuww62zfddua	489	8	system	system	NN
work_kkta46aprvda3kxuww62zfddua	489	9	:	:	:
work_kkta46aprvda3kxuww62zfddua	489	10	pro-	pro-	NN
work_kkta46aprvda3kxuww62zfddua	489	11	ton	ton	NN
work_kkta46aprvda3kxuww62zfddua	489	12	reduction	reduction	NN
work_kkta46aprvda3kxuww62zfddua	489	13	coupled	couple	VBN
work_kkta46aprvda3kxuww62zfddua	489	14	to	to	IN
work_kkta46aprvda3kxuww62zfddua	489	15	proton	proton	NNP
work_kkta46aprvda3kxuww62zfddua	489	16	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	489	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	489	18	Proc	Proc	NNP
work_kkta46aprvda3kxuww62zfddua	489	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	490	1	Natl	Natl	NNP
work_kkta46aprvda3kxuww62zfddua	490	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	491	1	Acad	Acad	NNS
work_kkta46aprvda3kxuww62zfddua	491	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	492	1	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	492	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	493	1	U.	U.	NNP
work_kkta46aprvda3kxuww62zfddua	493	2	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	493	3	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	494	1	100	100	CD
work_kkta46aprvda3kxuww62zfddua	494	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	494	3	2003	2003	CD
work_kkta46aprvda3kxuww62zfddua	494	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	494	5	7545–7550	7545–7550	CD
work_kkta46aprvda3kxuww62zfddua	494	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	495	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	495	2	22	22	CD
work_kkta46aprvda3kxuww62zfddua	495	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	495	4	G.J.	G.J.	NNP
work_kkta46aprvda3kxuww62zfddua	496	1	Schut	Schut	NNP
work_kkta46aprvda3kxuww62zfddua	496	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	496	3	E.S.	E.S.	NNP
work_kkta46aprvda3kxuww62zfddua	497	1	Boyd	Boyd	NNP
work_kkta46aprvda3kxuww62zfddua	497	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	497	3	J.W.	J.W.	NNP
work_kkta46aprvda3kxuww62zfddua	498	1	Peters	Peters	NNP
work_kkta46aprvda3kxuww62zfddua	498	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	498	3	M.W.	M.W.	NNP
work_kkta46aprvda3kxuww62zfddua	499	1	Adams	Adams	NNP
work_kkta46aprvda3kxuww62zfddua	499	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	499	3	The	the	DT
work_kkta46aprvda3kxuww62zfddua	499	4	modular	modular	JJ
work_kkta46aprvda3kxuww62zfddua	499	5	respiratory	respiratory	JJ
work_kkta46aprvda3kxuww62zfddua	499	6	complexes	complex	NNS
work_kkta46aprvda3kxuww62zfddua	499	7	involved	involve	VBN
work_kkta46aprvda3kxuww62zfddua	499	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	499	9	hydrogen	hydrogen	NN
work_kkta46aprvda3kxuww62zfddua	499	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	499	11	sulfur	sulfur	NN
work_kkta46aprvda3kxuww62zfddua	499	12	metabolism	metabolism	NN
work_kkta46aprvda3kxuww62zfddua	499	13	by	by	IN
work_kkta46aprvda3kxuww62zfddua	499	14	heterotrophic	heterotrophic	JJ
work_kkta46aprvda3kxuww62zfddua	499	15	hyperthermophilic	hyperthermophilic	NN
work_kkta46aprvda3kxuww62zfddua	499	16	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	499	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	499	18	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	499	19	evolutionary	evolutionary	JJ
work_kkta46aprvda3kxuww62zfddua	499	20	implications	implication	NNS
work_kkta46aprvda3kxuww62zfddua	499	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	499	22	FEMS	FEMS	NNP
work_kkta46aprvda3kxuww62zfddua	499	23	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	499	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	500	1	Rev.	Rev.	NNP
work_kkta46aprvda3kxuww62zfddua	501	1	37	37	CD
work_kkta46aprvda3kxuww62zfddua	501	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	501	3	2012	2012	CD
work_kkta46aprvda3kxuww62zfddua	501	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	501	5	182–203	182–203	CD
work_kkta46aprvda3kxuww62zfddua	501	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	502	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	502	2	23	23	CD
work_kkta46aprvda3kxuww62zfddua	502	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	502	4	Y.J.	Y.J.	NNP
work_kkta46aprvda3kxuww62zfddua	503	1	Kim	Kim	NNP
work_kkta46aprvda3kxuww62zfddua	503	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	503	3	H.S.	H.S.	NNP
work_kkta46aprvda3kxuww62zfddua	504	1	Lee	Lee	NNP
work_kkta46aprvda3kxuww62zfddua	504	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	504	3	E.S.	E.S.	NNP
work_kkta46aprvda3kxuww62zfddua	505	1	Kim	Kim	NNP
work_kkta46aprvda3kxuww62zfddua	505	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	505	3	S.S.	S.S.	NNP
work_kkta46aprvda3kxuww62zfddua	505	4	Bae	Bae	NNP
work_kkta46aprvda3kxuww62zfddua	505	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	505	6	J.K.	J.K.	NNP
work_kkta46aprvda3kxuww62zfddua	505	7	Lim	Lim	NNP
work_kkta46aprvda3kxuww62zfddua	505	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	505	9	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	505	10	Matsumi	Matsumi	NNP
work_kkta46aprvda3kxuww62zfddua	505	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	505	12	A.V.	A.V.	NNP
work_kkta46aprvda3kxuww62zfddua	506	1	Lebedinsky	Lebedinsky	NNP
work_kkta46aprvda3kxuww62zfddua	506	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	506	3	T.G.	T.G.	NNP
work_kkta46aprvda3kxuww62zfddua	507	1	Sokolova	Sokolova	NNP
work_kkta46aprvda3kxuww62zfddua	507	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	507	3	D.A.	D.A.	NNP
work_kkta46aprvda3kxuww62zfddua	508	1	Kozhevnikova	Kozhevnikova	NNP
work_kkta46aprvda3kxuww62zfddua	508	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	508	3	S.S.	S.S.	NNP
work_kkta46aprvda3kxuww62zfddua	508	4	Cha	Cha	NNP
work_kkta46aprvda3kxuww62zfddua	508	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	508	6	S.J.	S.J.	NNP
work_kkta46aprvda3kxuww62zfddua	509	1	Kim	Kim	NNP
work_kkta46aprvda3kxuww62zfddua	509	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	509	3	K.K.	K.K.	NNP
work_kkta46aprvda3kxuww62zfddua	510	1	Kwon	Kwon	NNP
work_kkta46aprvda3kxuww62zfddua	510	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	510	3	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	510	4	Imanaka	Imanaka	NNP
work_kkta46aprvda3kxuww62zfddua	510	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	510	6	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	510	7	Atomi	Atomi	NNP
work_kkta46aprvda3kxuww62zfddua	510	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	510	9	E.A.	E.A.	NNP
work_kkta46aprvda3kxuww62zfddua	511	1	Bonch	Bonch	NNP
work_kkta46aprvda3kxuww62zfddua	511	2	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	511	3	Osmolovskaya	Osmolovskaya	NNP
work_kkta46aprvda3kxuww62zfddua	511	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	511	5	J.H.	J.H.	NNP
work_kkta46aprvda3kxuww62zfddua	512	1	Lee	Lee	NNP
work_kkta46aprvda3kxuww62zfddua	512	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	512	3	S.G.	S.G.	NNP
work_kkta46aprvda3kxuww62zfddua	512	4	Kang	Kang	NNP
work_kkta46aprvda3kxuww62zfddua	512	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	512	6	Formate	Formate	NNP
work_kkta46aprvda3kxuww62zfddua	512	7	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	512	8	driven	drive	VBN
work_kkta46aprvda3kxuww62zfddua	512	9	growth	growth	NN
work_kkta46aprvda3kxuww62zfddua	512	10	coupled	couple	VBN
work_kkta46aprvda3kxuww62zfddua	512	11	with	with	IN
work_kkta46aprvda3kxuww62zfddua	512	12	H2	H2	NNP
work_kkta46aprvda3kxuww62zfddua	512	13	production	production	NN
work_kkta46aprvda3kxuww62zfddua	512	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	512	15	Nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	512	16	467	467	CD
work_kkta46aprvda3kxuww62zfddua	512	17	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	512	18	2010	2010	CD
work_kkta46aprvda3kxuww62zfddua	512	19	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	512	20	352–355	352–355	CD
work_kkta46aprvda3kxuww62zfddua	512	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	513	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	513	2	24	24	CD
work_kkta46aprvda3kxuww62zfddua	513	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	513	4	J.K.	J.K.	NNP
work_kkta46aprvda3kxuww62zfddua	513	5	Lim	Lim	NNP
work_kkta46aprvda3kxuww62zfddua	513	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	513	7	S.S.	S.S.	NNP
work_kkta46aprvda3kxuww62zfddua	513	8	Bae	Bae	NNP
work_kkta46aprvda3kxuww62zfddua	513	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	513	10	T.W.	T.W.	NNP
work_kkta46aprvda3kxuww62zfddua	514	1	Kim	Kim	NNP
work_kkta46aprvda3kxuww62zfddua	514	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	514	3	J.H.	J.H.	NNP
work_kkta46aprvda3kxuww62zfddua	515	1	Lee	Lee	NNP
work_kkta46aprvda3kxuww62zfddua	515	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	515	3	H.S.	H.S.	NNP
work_kkta46aprvda3kxuww62zfddua	516	1	Lee	Lee	NNP
work_kkta46aprvda3kxuww62zfddua	516	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	516	3	S.G.	S.G.	NNP
work_kkta46aprvda3kxuww62zfddua	516	4	Kang	Kang	NNP
work_kkta46aprvda3kxuww62zfddua	516	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	516	6	Thermodynamics	Thermodynamics	NNP
work_kkta46aprvda3kxuww62zfddua	516	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	516	8	formate	formate	NN
work_kkta46aprvda3kxuww62zfddua	516	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	516	10	oxidizing	oxidize	VBG
work_kkta46aprvda3kxuww62zfddua	516	11	metabolism	metabolism	NN
work_kkta46aprvda3kxuww62zfddua	516	12	and	and	CC
work_kkta46aprvda3kxuww62zfddua	516	13	implications	implication	NNS
work_kkta46aprvda3kxuww62zfddua	516	14	for	for	IN
work_kkta46aprvda3kxuww62zfddua	516	15	H2	H2	NNP
work_kkta46aprvda3kxuww62zfddua	516	16	production	production	NN
work_kkta46aprvda3kxuww62zfddua	516	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	516	18	Appl	Appl	NNP
work_kkta46aprvda3kxuww62zfddua	516	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	517	1	Environ	Environ	NNP
work_kkta46aprvda3kxuww62zfddua	517	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	518	1	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	518	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	519	1	78	78	CD
work_kkta46aprvda3kxuww62zfddua	519	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	519	3	2012	2012	CD
work_kkta46aprvda3kxuww62zfddua	519	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	519	5	7393–7397	7393–7397	CD
work_kkta46aprvda3kxuww62zfddua	519	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	520	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	520	2	25	25	CD
work_kkta46aprvda3kxuww62zfddua	520	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	520	4	U.	U.	NNP
work_kkta46aprvda3kxuww62zfddua	520	5	Deppenmeier	Deppenmeier	NNP
work_kkta46aprvda3kxuww62zfddua	520	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	520	7	The	the	DT
work_kkta46aprvda3kxuww62zfddua	520	8	unique	unique	JJ
work_kkta46aprvda3kxuww62zfddua	520	9	biochemistry	biochemistry	NN
work_kkta46aprvda3kxuww62zfddua	520	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	520	11	methanogenesis	methanogenesis	NN
work_kkta46aprvda3kxuww62zfddua	520	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	520	13	Prog	Prog	NNP
work_kkta46aprvda3kxuww62zfddua	520	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	521	1	Nucleic	Nucleic	NNP
work_kkta46aprvda3kxuww62zfddua	521	2	Acid	Acid	NNP
work_kkta46aprvda3kxuww62zfddua	521	3	Res	Res	NNP
work_kkta46aprvda3kxuww62zfddua	521	4	.	.	.
work_kkta46aprvda3kxuww62zfddua	522	1	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	522	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	523	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	523	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	524	1	71	71	CD
work_kkta46aprvda3kxuww62zfddua	524	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	524	3	2002	2002	CD
work_kkta46aprvda3kxuww62zfddua	524	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	524	5	223–283	223–283	CD
work_kkta46aprvda3kxuww62zfddua	524	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	525	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	525	2	26	26	CD
work_kkta46aprvda3kxuww62zfddua	525	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	525	4	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	525	5	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	525	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	525	7	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	525	8	Winner	Winner	NNP
work_kkta46aprvda3kxuww62zfddua	525	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	525	10	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	525	11	Gottschalk	Gottschalk	NNP
work_kkta46aprvda3kxuww62zfddua	525	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	525	13	Electron	Electron	NNP
work_kkta46aprvda3kxuww62zfddua	525	14	transport	transport	NN
work_kkta46aprvda3kxuww62zfddua	525	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	525	16	driven	drive	VBN
work_kkta46aprvda3kxuww62zfddua	525	17	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	525	18	extrusion	extrusion	NN
work_kkta46aprvda3kxuww62zfddua	525	19	during	during	IN
work_kkta46aprvda3kxuww62zfddua	525	20	methanogenesis	methanogenesis	NN
work_kkta46aprvda3kxuww62zfddua	525	21	from	from	IN
work_kkta46aprvda3kxuww62zfddua	525	22	formaldehyde	formaldehyde	NN
work_kkta46aprvda3kxuww62zfddua	525	23	+	+	NNP
work_kkta46aprvda3kxuww62zfddua	525	24	H2	H2	NNP
work_kkta46aprvda3kxuww62zfddua	525	25	by	by	IN
work_kkta46aprvda3kxuww62zfddua	525	26	Methanosarcina	Methanosarcina	NNP
work_kkta46aprvda3kxuww62zfddua	525	27	barkeri	barkeri	NN
work_kkta46aprvda3kxuww62zfddua	525	28	,	,	,
work_kkta46aprvda3kxuww62zfddua	525	29	Eur	Eur	NNP
work_kkta46aprvda3kxuww62zfddua	525	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	526	1	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	526	2	Biochem	Biochem	NNP
work_kkta46aprvda3kxuww62zfddua	526	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	527	1	178	178	CD
work_kkta46aprvda3kxuww62zfddua	527	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	527	3	1988	1988	CD
work_kkta46aprvda3kxuww62zfddua	527	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	527	5	519–525	519–525	CD
work_kkta46aprvda3kxuww62zfddua	527	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	528	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	528	2	27	27	CD
work_kkta46aprvda3kxuww62zfddua	528	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	528	4	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	528	5	Gottschalk	Gottschalk	NNP
work_kkta46aprvda3kxuww62zfddua	528	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	528	7	R.K.	R.K.	NNP
work_kkta46aprvda3kxuww62zfddua	528	8	Thauer	Thauer	NNP
work_kkta46aprvda3kxuww62zfddua	528	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	528	10	The	the	DT
work_kkta46aprvda3kxuww62zfddua	528	11	Na+-translocating	na+-translocate	VBG
work_kkta46aprvda3kxuww62zfddua	528	12	methyltransferase	methyltransferase	NN
work_kkta46aprvda3kxuww62zfddua	528	13	complex	complex	JJ
work_kkta46aprvda3kxuww62zfddua	528	14	from	from	IN
work_kkta46aprvda3kxuww62zfddua	528	15	methanogenic	methanogenic	NNP
work_kkta46aprvda3kxuww62zfddua	528	16	archaea	archaea	VBN
work_kkta46aprvda3kxuww62zfddua	528	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	528	18	Biochim	Biochim	NNP
work_kkta46aprvda3kxuww62zfddua	528	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	529	1	Biophys	Biophys	NNP
work_kkta46aprvda3kxuww62zfddua	529	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	530	1	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	530	2	1505	1505	CD
work_kkta46aprvda3kxuww62zfddua	530	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	530	4	2001	2001	CD
work_kkta46aprvda3kxuww62zfddua	530	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	530	6	28–36	28–36	CD
work_kkta46aprvda3kxuww62zfddua	530	7	.	.	.
work_kkta46aprvda3kxuww62zfddua	531	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	531	2	28	28	CD
work_kkta46aprvda3kxuww62zfddua	531	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	531	4	U.	U.	NNP
work_kkta46aprvda3kxuww62zfddua	531	5	Deppenmeier	Deppenmeier	NNP
work_kkta46aprvda3kxuww62zfddua	531	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	531	7	Redox	Redox	NNP
work_kkta46aprvda3kxuww62zfddua	531	8	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	531	9	driven	drive	VBN
work_kkta46aprvda3kxuww62zfddua	531	10	proton	proton	NNP
work_kkta46aprvda3kxuww62zfddua	531	11	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	531	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	531	13	methanogenic	methanogenic	NNP
work_kkta46aprvda3kxuww62zfddua	531	14	archaea	archaea	VBN
work_kkta46aprvda3kxuww62zfddua	531	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	531	16	Cell	Cell	NNP
work_kkta46aprvda3kxuww62zfddua	531	17	.	.	.
work_kkta46aprvda3kxuww62zfddua	532	1	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	532	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	533	1	Life	Life	NNP
work_kkta46aprvda3kxuww62zfddua	533	2	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	533	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	534	1	59	59	CD
work_kkta46aprvda3kxuww62zfddua	534	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	534	3	2002	2002	CD
work_kkta46aprvda3kxuww62zfddua	534	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	534	5	1–21	1–21	ADD
work_kkta46aprvda3kxuww62zfddua	534	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	535	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	535	2	29	29	CD
work_kkta46aprvda3kxuww62zfddua	535	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	535	4	R.K.	R.K.	NNP
work_kkta46aprvda3kxuww62zfddua	535	5	Thauer	Thauer	NNP
work_kkta46aprvda3kxuww62zfddua	535	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	535	7	A.K.	A.K.	NNP
work_kkta46aprvda3kxuww62zfddua	536	1	Kaster	Kaster	NNP
work_kkta46aprvda3kxuww62zfddua	536	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	536	3	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	536	4	Seedorf	Seedorf	NNP
work_kkta46aprvda3kxuww62zfddua	536	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	536	6	W.	W.	NNP
work_kkta46aprvda3kxuww62zfddua	536	7	Buckel	Buckel	NNP
work_kkta46aprvda3kxuww62zfddua	536	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	536	9	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	536	10	Hedderich	Hedderich	NNP
work_kkta46aprvda3kxuww62zfddua	536	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	536	12	Methanogenic	Methanogenic	NNP
work_kkta46aprvda3kxuww62zfddua	536	13	archaea	archaea	VBD
work_kkta46aprvda3kxuww62zfddua	536	14	:	:	:
work_kkta46aprvda3kxuww62zfddua	536	15	ecologically	ecologically	RB
work_kkta46aprvda3kxuww62zfddua	536	16	relevant	relevant	JJ
work_kkta46aprvda3kxuww62zfddua	536	17	differences	difference	NNS
work_kkta46aprvda3kxuww62zfddua	536	18	in	in	IN
work_kkta46aprvda3kxuww62zfddua	536	19	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	536	20	conservation	conservation	NN
work_kkta46aprvda3kxuww62zfddua	536	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	536	22	Nat	Nat	NNP
work_kkta46aprvda3kxuww62zfddua	536	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	537	1	Rev.	Rev.	NNP
work_kkta46aprvda3kxuww62zfddua	538	1	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	538	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	539	1	6	6	CD
work_kkta46aprvda3kxuww62zfddua	539	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	539	3	2008	2008	CD
work_kkta46aprvda3kxuww62zfddua	539	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	539	5	579–591	579–591	CD
work_kkta46aprvda3kxuww62zfddua	539	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	540	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	540	2	30	30	CD
work_kkta46aprvda3kxuww62zfddua	540	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	540	4	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	540	5	Schlegel	Schlegel	NNP
work_kkta46aprvda3kxuww62zfddua	540	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	540	7	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	540	8	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	540	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	540	10	Evolution	Evolution	NNP
work_kkta46aprvda3kxuww62zfddua	540	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	540	12	Na+	Na+	NNP
work_kkta46aprvda3kxuww62zfddua	540	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	540	14	H+	H+	NNP
work_kkta46aprvda3kxuww62zfddua	540	15	bioenergetics	bioenergetic	NNS
work_kkta46aprvda3kxuww62zfddua	540	16	in	in	IN
work_kkta46aprvda3kxuww62zfddua	540	17	methanogenic	methanogenic	NNP
work_kkta46aprvda3kxuww62zfddua	540	18	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	540	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	540	20	Biochem	Biochem	NNP
work_kkta46aprvda3kxuww62zfddua	540	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	541	1	Soc	Soc	NNP
work_kkta46aprvda3kxuww62zfddua	541	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	542	1	Trans	tran	NNS
work_kkta46aprvda3kxuww62zfddua	542	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	543	1	41	41	CD
work_kkta46aprvda3kxuww62zfddua	543	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	543	3	2013	2013	CD
work_kkta46aprvda3kxuww62zfddua	543	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	543	5	421–426	421–426	CD
work_kkta46aprvda3kxuww62zfddua	543	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	544	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	544	2	31	31	CD
work_kkta46aprvda3kxuww62zfddua	544	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	544	4	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	544	5	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	544	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	544	7	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	544	8	Ruppert	Ruppert	NNP
work_kkta46aprvda3kxuww62zfddua	544	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	544	10	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	544	11	Lemker	Lemker	NNP
work_kkta46aprvda3kxuww62zfddua	544	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	544	13	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	544	14	and	and	CC
work_kkta46aprvda3kxuww62zfddua	544	15	function	function	NN
work_kkta46aprvda3kxuww62zfddua	544	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	544	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	544	18	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	544	19	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	544	20	from	from	IN
work_kkta46aprvda3kxuww62zfddua	544	21	methanogenic	methanogenic	NNP
work_kkta46aprvda3kxuww62zfddua	544	22	archaea	archaea	VBN
work_kkta46aprvda3kxuww62zfddua	544	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	544	24	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	544	25	Bioenerg	Bioenerg	NNP
work_kkta46aprvda3kxuww62zfddua	544	26	.	.	.
work_kkta46aprvda3kxuww62zfddua	545	1	Biomembr	Biomembr	NNP
work_kkta46aprvda3kxuww62zfddua	545	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	546	1	31	31	CD
work_kkta46aprvda3kxuww62zfddua	546	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	546	3	1999	1999	CD
work_kkta46aprvda3kxuww62zfddua	546	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	546	5	15–28	15–28	RB
work_kkta46aprvda3kxuww62zfddua	546	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	547	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	547	2	32	32	CD
work_kkta46aprvda3kxuww62zfddua	547	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	547	4	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	547	5	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	547	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	547	7	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	547	8	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	547	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	547	10	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	547	11	synthases	synthase	VBZ
work_kkta46aprvda3kxuww62zfddua	547	12	:	:	:
work_kkta46aprvda3kxuww62zfddua	547	13	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	547	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	547	15	function	function	NN
work_kkta46aprvda3kxuww62zfddua	547	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	547	17	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	547	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	547	19	unique	unique	JJ
work_kkta46aprvda3kxuww62zfddua	547	20	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	547	21	converters	converter	NNS
work_kkta46aprvda3kxuww62zfddua	547	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	547	23	Cell	Cell	NNP
work_kkta46aprvda3kxuww62zfddua	547	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	548	1	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	548	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	549	1	Life	Life	NNP
work_kkta46aprvda3kxuww62zfddua	549	2	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	549	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	550	1	60	60	CD
work_kkta46aprvda3kxuww62zfddua	550	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	550	3	2003	2003	CD
work_kkta46aprvda3kxuww62zfddua	550	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	550	5	474–494	474–494	CD
work_kkta46aprvda3kxuww62zfddua	550	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	551	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	551	2	33	33	CD
work_kkta46aprvda3kxuww62zfddua	551	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	551	4	K.Y.	K.Y.	NNP
work_kkta46aprvda3kxuww62zfddua	552	1	Pisa	Pisa	NNP
work_kkta46aprvda3kxuww62zfddua	552	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	552	3	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	552	4	Weidner	Weidner	NNP
work_kkta46aprvda3kxuww62zfddua	552	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	552	6	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	552	7	Maischak	Maischak	NNP
work_kkta46aprvda3kxuww62zfddua	552	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	552	9	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	552	10	Kavermann	Kavermann	NNP
work_kkta46aprvda3kxuww62zfddua	552	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	552	12	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	552	13	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	552	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	552	15	The	the	DT
work_kkta46aprvda3kxuww62zfddua	552	16	coupling	couple	VBG
work_kkta46aprvda3kxuww62zfddua	552	17	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	552	18	in	in	IN
work_kkta46aprvda3kxuww62zfddua	552	19	methanoarchaeal	methanoarchaeal	JJ
work_kkta46aprvda3kxuww62zfddua	552	20	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	552	21	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	552	22	:	:	:
work_kkta46aprvda3kxuww62zfddua	552	23	H+	h+	ADD
work_kkta46aprvda3kxuww62zfddua	552	24	versus	versus	IN
work_kkta46aprvda3kxuww62zfddua	552	25	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	552	26	in	in	IN
work_kkta46aprvda3kxuww62zfddua	552	27	the	the	DT
work_kkta46aprvda3kxuww62zfddua	552	28	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	552	29	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	552	30	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	552	31	from	from	IN
work_kkta46aprvda3kxuww62zfddua	552	32	the	the	DT
work_kkta46aprvda3kxuww62zfddua	552	33	archaeon	archaeon	NN
work_kkta46aprvda3kxuww62zfddua	552	34	Methanosarcina	Methanosarcina	NNP
work_kkta46aprvda3kxuww62zfddua	552	35	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	552	36	Gö1	Gö1	NNP
work_kkta46aprvda3kxuww62zfddua	552	37	,	,	,
work_kkta46aprvda3kxuww62zfddua	552	38	FEMS	FEMS	NNP
work_kkta46aprvda3kxuww62zfddua	552	39	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	552	40	.	.	.
work_kkta46aprvda3kxuww62zfddua	553	1	Lett	Lett	NNP
work_kkta46aprvda3kxuww62zfddua	553	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	554	1	277	277	CD
work_kkta46aprvda3kxuww62zfddua	554	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	554	3	2007	2007	CD
work_kkta46aprvda3kxuww62zfddua	554	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	554	5	56–63	56–63	CD
work_kkta46aprvda3kxuww62zfddua	554	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	555	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	555	2	34	34	CD
work_kkta46aprvda3kxuww62zfddua	555	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	555	4	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	555	5	Lewalter	Lewalter	NNP
work_kkta46aprvda3kxuww62zfddua	555	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	555	7	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	555	8	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	555	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	555	10	Bioenergetics	Bioenergetics	NNP
work_kkta46aprvda3kxuww62zfddua	555	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	555	12	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	555	13	:	:	:
work_kkta46aprvda3kxuww62zfddua	555	14	ancient	ancient	JJ
work_kkta46aprvda3kxuww62zfddua	555	15	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	555	16	conserving	conserve	VBG
work_kkta46aprvda3kxuww62zfddua	555	17	mecha-	mecha-	NNP
work_kkta46aprvda3kxuww62zfddua	555	18	nisms	nisms	NNP
work_kkta46aprvda3kxuww62zfddua	555	19	developed	develop	VBD
work_kkta46aprvda3kxuww62zfddua	555	20	in	in	IN
work_kkta46aprvda3kxuww62zfddua	555	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	555	22	early	early	JJ
work_kkta46aprvda3kxuww62zfddua	555	23	history	history	NN
work_kkta46aprvda3kxuww62zfddua	555	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	555	25	life	life	NN
work_kkta46aprvda3kxuww62zfddua	555	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	555	27	Biochim	Biochim	NNP
work_kkta46aprvda3kxuww62zfddua	555	28	.	.	.
work_kkta46aprvda3kxuww62zfddua	556	1	Biophys	Biophys	NNP
work_kkta46aprvda3kxuww62zfddua	556	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	557	1	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	557	2	1757	1757	CD
work_kkta46aprvda3kxuww62zfddua	557	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	557	4	2006	2006	CD
work_kkta46aprvda3kxuww62zfddua	557	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	557	6	437–445	437–445	CD
work_kkta46aprvda3kxuww62zfddua	557	7	.	.	.
work_kkta46aprvda3kxuww62zfddua	558	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	558	2	35	35	CD
work_kkta46aprvda3kxuww62zfddua	558	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	558	4	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	558	5	Wilms	Wilms	NNP
work_kkta46aprvda3kxuww62zfddua	558	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	558	7	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	558	8	Freiberg	Freiberg	NNP
work_kkta46aprvda3kxuww62zfddua	558	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	558	10	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	558	11	Wegerle	Wegerle	NNP
work_kkta46aprvda3kxuww62zfddua	558	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	558	13	I.	I.	NNP
work_kkta46aprvda3kxuww62zfddua	558	14	Meier	Meier	NNP
work_kkta46aprvda3kxuww62zfddua	558	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	558	16	F.	F.	NNP
work_kkta46aprvda3kxuww62zfddua	558	17	Mayer	Mayer	NNP
work_kkta46aprvda3kxuww62zfddua	558	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	558	19	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	558	20	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	558	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	558	22	Subunit	Subunit	NNP
work_kkta46aprvda3kxuww62zfddua	558	23	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	558	24	and	and	CC
work_kkta46aprvda3kxuww62zfddua	558	25	organization	organization	NN
work_kkta46aprvda3kxuww62zfddua	558	26	of	of	IN
work_kkta46aprvda3kxuww62zfddua	558	27	the	the	DT
work_kkta46aprvda3kxuww62zfddua	558	28	genes	gene	NNS
work_kkta46aprvda3kxuww62zfddua	558	29	of	of	IN
work_kkta46aprvda3kxuww62zfddua	558	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	558	31	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	558	32	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	558	33	from	from	IN
work_kkta46aprvda3kxuww62zfddua	558	34	the	the	DT
work_kkta46aprvda3kxuww62zfddua	558	35	archaeon	archaeon	NN
work_kkta46aprvda3kxuww62zfddua	558	36	Methanosarcina	Methanosarcina	NNP
work_kkta46aprvda3kxuww62zfddua	558	37	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	558	38	Gö1	Gö1	NNP
work_kkta46aprvda3kxuww62zfddua	558	39	,	,	,
work_kkta46aprvda3kxuww62zfddua	558	40	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	558	41	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	558	42	.	.	.
work_kkta46aprvda3kxuww62zfddua	559	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	559	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	560	1	271	271	CD
work_kkta46aprvda3kxuww62zfddua	560	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	560	3	1996	1996	CD
work_kkta46aprvda3kxuww62zfddua	560	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	560	5	18843–18852	18843–18852	ADD
work_kkta46aprvda3kxuww62zfddua	560	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	561	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	561	2	36	36	CD
work_kkta46aprvda3kxuww62zfddua	561	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	561	4	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	561	5	Lingl	Lingl	NNP
work_kkta46aprvda3kxuww62zfddua	561	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	561	7	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	561	8	Huber	Huber	NNP
work_kkta46aprvda3kxuww62zfddua	561	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	561	10	K.O.	K.O.	NNP
work_kkta46aprvda3kxuww62zfddua	562	1	Stetter	Stetter	NNP
work_kkta46aprvda3kxuww62zfddua	562	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	562	3	F.	F.	NNP
work_kkta46aprvda3kxuww62zfddua	562	4	Mayer	Mayer	NNP
work_kkta46aprvda3kxuww62zfddua	562	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	562	6	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	562	7	Kellermann	Kellermann	NNP
work_kkta46aprvda3kxuww62zfddua	562	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	562	9	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	562	10	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	562	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	562	12	Isolation	isolation	NN
work_kkta46aprvda3kxuww62zfddua	562	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	562	14	a	a	DT
work_kkta46aprvda3kxuww62zfddua	562	15	complete	complete	JJ
work_kkta46aprvda3kxuww62zfddua	562	16	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	562	17	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	562	18	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	562	19	comprising	comprise	VBG
work_kkta46aprvda3kxuww62zfddua	562	20	nine	nine	CD
work_kkta46aprvda3kxuww62zfddua	562	21	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	562	22	from	from	IN
work_kkta46aprvda3kxuww62zfddua	562	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	562	24	hyperthermophile	hyperthermophile	NNP
work_kkta46aprvda3kxuww62zfddua	562	25	Methanococcus	Methanococcus	NNP
work_kkta46aprvda3kxuww62zfddua	562	26	jannaschii	jannaschii	NN
work_kkta46aprvda3kxuww62zfddua	562	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	562	28	Extremophiles	Extremophiles	NNP
work_kkta46aprvda3kxuww62zfddua	562	29	7	7	CD
work_kkta46aprvda3kxuww62zfddua	562	30	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	562	31	2003	2003	CD
work_kkta46aprvda3kxuww62zfddua	562	32	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	562	33	249–257	249–257	CD
work_kkta46aprvda3kxuww62zfddua	562	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	563	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	563	2	37	37	CD
work_kkta46aprvda3kxuww62zfddua	563	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	563	4	R.L.	R.L.	NNP
work_kkta46aprvda3kxuww62zfddua	564	1	Cross	Cross	NNP
work_kkta46aprvda3kxuww62zfddua	564	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	564	3	L.	L.	NNP
work_kkta46aprvda3kxuww62zfddua	564	4	Taiz	Taiz	NNP
work_kkta46aprvda3kxuww62zfddua	564	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	564	6	Gene	Gene	NNP
work_kkta46aprvda3kxuww62zfddua	564	7	duplication	duplication	NN
work_kkta46aprvda3kxuww62zfddua	564	8	as	as	IN
work_kkta46aprvda3kxuww62zfddua	564	9	a	a	DT
work_kkta46aprvda3kxuww62zfddua	564	10	means	means	NN
work_kkta46aprvda3kxuww62zfddua	564	11	for	for	IN
work_kkta46aprvda3kxuww62zfddua	564	12	altering	alter	VBG
work_kkta46aprvda3kxuww62zfddua	564	13	H+/ATP	H+/ATP	NNP
work_kkta46aprvda3kxuww62zfddua	564	14	ratios	ratio	NNS
work_kkta46aprvda3kxuww62zfddua	564	15	dur-	dur-	VBG
work_kkta46aprvda3kxuww62zfddua	564	16	ing	e	VBG
work_kkta46aprvda3kxuww62zfddua	564	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	564	18	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	564	19	of	of	IN
work_kkta46aprvda3kxuww62zfddua	564	20	FOF1	FOF1	NNP
work_kkta46aprvda3kxuww62zfddua	564	21	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	564	22	and	and	CC
work_kkta46aprvda3kxuww62zfddua	564	23	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	564	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	564	25	FEBS	FEBS	NNP
work_kkta46aprvda3kxuww62zfddua	564	26	Lett	Lett	NNP
work_kkta46aprvda3kxuww62zfddua	564	27	.	.	.
work_kkta46aprvda3kxuww62zfddua	565	1	259	259	CD
work_kkta46aprvda3kxuww62zfddua	565	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	565	3	1990	1990	CD
work_kkta46aprvda3kxuww62zfddua	565	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	565	5	22227–22229	22227–22229	CD
work_kkta46aprvda3kxuww62zfddua	565	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	566	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	566	2	38	38	CD
work_kkta46aprvda3kxuww62zfddua	566	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	566	4	N.	N.	NNP
work_kkta46aprvda3kxuww62zfddua	566	5	Nelson	Nelson	NNP
work_kkta46aprvda3kxuww62zfddua	566	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	566	7	The	the	DT
work_kkta46aprvda3kxuww62zfddua	566	8	vacuolar	vacuolar	JJ
work_kkta46aprvda3kxuww62zfddua	566	9	H+-ATPase	h+-atpase	NN
work_kkta46aprvda3kxuww62zfddua	566	10	—	—	:
work_kkta46aprvda3kxuww62zfddua	566	11	one	one	CD
work_kkta46aprvda3kxuww62zfddua	566	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	566	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	566	14	most	most	RBS
work_kkta46aprvda3kxuww62zfddua	566	15	fundamental	fundamental	JJ
work_kkta46aprvda3kxuww62zfddua	566	16	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	566	17	pumps	pump	NNS
work_kkta46aprvda3kxuww62zfddua	566	18	in	in	IN
work_kkta46aprvda3kxuww62zfddua	566	19	nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	566	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	566	21	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	566	22	Exp	Exp	NNP
work_kkta46aprvda3kxuww62zfddua	566	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	567	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	567	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	568	1	172	172	CD
work_kkta46aprvda3kxuww62zfddua	568	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	568	3	1992	1992	CD
work_kkta46aprvda3kxuww62zfddua	568	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	568	5	19–27	19–27	CD
work_kkta46aprvda3kxuww62zfddua	568	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	569	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	569	2	39	39	CD
work_kkta46aprvda3kxuww62zfddua	569	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	569	4	R.L.	R.L.	NNP
work_kkta46aprvda3kxuww62zfddua	570	1	Cross	Cross	NNP
work_kkta46aprvda3kxuww62zfddua	570	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	570	3	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	570	4	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	570	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	570	6	The	the	DT
work_kkta46aprvda3kxuww62zfddua	570	7	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	570	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	570	9	A-	a-	NN
work_kkta46aprvda3kxuww62zfddua	570	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	570	11	F-	F-	NNP
work_kkta46aprvda3kxuww62zfddua	570	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	570	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	570	14	V	v	NN
work_kkta46aprvda3kxuww62zfddua	570	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	570	16	type	type	NN
work_kkta46aprvda3kxuww62zfddua	570	17	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	570	18	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	570	19	and	and	CC
work_kkta46aprvda3kxuww62zfddua	570	20	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	570	21	:	:	:
work_kkta46aprvda3kxuww62zfddua	570	22	reversals	reversal	NNS
work_kkta46aprvda3kxuww62zfddua	570	23	in	in	IN
work_kkta46aprvda3kxuww62zfddua	570	24	function	function	NN
work_kkta46aprvda3kxuww62zfddua	570	25	and	and	CC
work_kkta46aprvda3kxuww62zfddua	570	26	changes	change	NNS
work_kkta46aprvda3kxuww62zfddua	570	27	in	in	IN
work_kkta46aprvda3kxuww62zfddua	570	28	the	the	DT
work_kkta46aprvda3kxuww62zfddua	570	29	H+/ATP	H+/ATP	NNP
work_kkta46aprvda3kxuww62zfddua	570	30	stoichiometry	stoichiometry	NN
work_kkta46aprvda3kxuww62zfddua	570	31	,	,	,
work_kkta46aprvda3kxuww62zfddua	570	32	FEBS	FEBS	NNP
work_kkta46aprvda3kxuww62zfddua	570	33	Lett	Lett	NNP
work_kkta46aprvda3kxuww62zfddua	570	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	571	1	576	576	CD
work_kkta46aprvda3kxuww62zfddua	571	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	571	3	2004	2004	CD
work_kkta46aprvda3kxuww62zfddua	571	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	571	5	1–4	1–4	CD
work_kkta46aprvda3kxuww62zfddua	571	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	572	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	572	2	40	40	CD
work_kkta46aprvda3kxuww62zfddua	572	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	572	4	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	572	5	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	572	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	572	7	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	572	8	Wieczorek	Wieczorek	NNP
work_kkta46aprvda3kxuww62zfddua	572	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	572	10	W.R.	W.R.	NNP
work_kkta46aprvda3kxuww62zfddua	572	11	Harvey	Harvey	NNP
work_kkta46aprvda3kxuww62zfddua	572	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	572	13	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	572	14	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	572	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	572	16	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	572	17	–	–	:
work_kkta46aprvda3kxuww62zfddua	572	18	function	function	NN
work_kkta46aprvda3kxuww62zfddua	572	19	relationships	relationship	NNS
work_kkta46aprvda3kxuww62zfddua	572	20	of	of	IN
work_kkta46aprvda3kxuww62zfddua	572	21	A-	a-	NN
work_kkta46aprvda3kxuww62zfddua	572	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	572	23	F-	F-	NNP
work_kkta46aprvda3kxuww62zfddua	572	24	and	and	CC
work_kkta46aprvda3kxuww62zfddua	572	25	V	V	NNP
work_kkta46aprvda3kxuww62zfddua	572	26	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	572	27	ATPases	ATPases	NNPS
work_kkta46aprvda3kxuww62zfddua	572	28	,	,	,
work_kkta46aprvda3kxuww62zfddua	572	29	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	572	30	Exp	Exp	NNP
work_kkta46aprvda3kxuww62zfddua	572	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	573	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	573	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	574	1	204	204	CD
work_kkta46aprvda3kxuww62zfddua	574	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	574	3	2001	2001	CD
work_kkta46aprvda3kxuww62zfddua	574	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	574	5	2597–2605	2597–2605	CD
work_kkta46aprvda3kxuww62zfddua	574	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	575	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	575	2	41	41	CD
work_kkta46aprvda3kxuww62zfddua	575	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	575	4	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	575	5	Hilario	Hilario	NNP
work_kkta46aprvda3kxuww62zfddua	575	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	575	7	J.P.	J.P.	NNP
work_kkta46aprvda3kxuww62zfddua	575	8	Gogarten	Gogarten	NNP
work_kkta46aprvda3kxuww62zfddua	575	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	575	10	The	the	DT
work_kkta46aprvda3kxuww62zfddua	575	11	prokaryote	prokaryote	NN
work_kkta46aprvda3kxuww62zfddua	575	12	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	575	13	to	to	TO
work_kkta46aprvda3kxuww62zfddua	575	14	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	575	15	eukaryote	eukaryote	NN
work_kkta46aprvda3kxuww62zfddua	575	16	transition	transition	NN
work_kkta46aprvda3kxuww62zfddua	575	17	reflected	reflect	VBN
work_kkta46aprvda3kxuww62zfddua	575	18	in	in	IN
work_kkta46aprvda3kxuww62zfddua	575	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	575	20	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	575	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	575	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	575	23	V	V	NNP
work_kkta46aprvda3kxuww62zfddua	575	24	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	575	25	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	575	26	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	575	27	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	575	28	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	575	29	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	575	30	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	575	31	and	and	CC
work_kkta46aprvda3kxuww62zfddua	575	32	proteolipid	proteolipid	JJ
work_kkta46aprvda3kxuww62zfddua	575	33	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	575	34	,	,	,
work_kkta46aprvda3kxuww62zfddua	575	35	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	575	36	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	575	37	.	.	.
work_kkta46aprvda3kxuww62zfddua	576	1	Evol	Evol	NNP
work_kkta46aprvda3kxuww62zfddua	576	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	577	1	46	46	CD
work_kkta46aprvda3kxuww62zfddua	577	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	577	3	1998	1998	CD
work_kkta46aprvda3kxuww62zfddua	577	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	577	5	703–715	703–715	CD
work_kkta46aprvda3kxuww62zfddua	577	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	578	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	578	2	42	42	CD
work_kkta46aprvda3kxuww62zfddua	578	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	578	4	Y.	Y.	NNP
work_kkta46aprvda3kxuww62zfddua	578	5	Mukohata	Mukohata	NNP
work_kkta46aprvda3kxuww62zfddua	578	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	578	7	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	578	8	Ihara	Ihara	NNP
work_kkta46aprvda3kxuww62zfddua	578	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	578	10	Situation	situation	NN
work_kkta46aprvda3kxuww62zfddua	578	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	578	12	archaebacterial	archaebacterial	JJ
work_kkta46aprvda3kxuww62zfddua	578	13	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	578	14	among	among	IN
work_kkta46aprvda3kxuww62zfddua	578	15	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	578	16	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	578	17	translocating	translocating	NN
work_kkta46aprvda3kxuww62zfddua	578	18	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	578	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	578	20	in	in	IN
work_kkta46aprvda3kxuww62zfddua	578	21	:	:	:
work_kkta46aprvda3kxuww62zfddua	578	22	C.H.	C.H.	NNP
work_kkta46aprvda3kxuww62zfddua	579	1	Kim	Kim	NNP
work_kkta46aprvda3kxuww62zfddua	579	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	579	3	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	579	4	Ozawa	Ozawa	NNP
work_kkta46aprvda3kxuww62zfddua	579	5	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	579	6	Eds	Eds	NNP
work_kkta46aprvda3kxuww62zfddua	579	7	.	.	.
work_kkta46aprvda3kxuww62zfddua	580	1	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	580	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	580	3	Bioenergetics	Bioenergetics	NNP
work_kkta46aprvda3kxuww62zfddua	580	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	580	5	Plenum	Plenum	NNP
work_kkta46aprvda3kxuww62zfddua	580	6	Press	Press	NNP
work_kkta46aprvda3kxuww62zfddua	580	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	580	8	New	New	NNP
work_kkta46aprvda3kxuww62zfddua	580	9	York	York	NNP
work_kkta46aprvda3kxuww62zfddua	580	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	580	11	1990	1990	CD
work_kkta46aprvda3kxuww62zfddua	580	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	580	13	pp	pp	NNP
work_kkta46aprvda3kxuww62zfddua	580	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	581	1	205–216	205–216	CD
work_kkta46aprvda3kxuww62zfddua	581	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	582	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	582	2	43	43	CD
work_kkta46aprvda3kxuww62zfddua	582	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	582	4	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	582	5	Schäfer	Schäfer	NNP
work_kkta46aprvda3kxuww62zfddua	582	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	582	7	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	582	8	Meyering	Meyering	NNP
work_kkta46aprvda3kxuww62zfddua	582	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	582	10	Vos	Vos	NNP
work_kkta46aprvda3kxuww62zfddua	582	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	582	12	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	582	13	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	582	14	type	type	NNP
work_kkta46aprvda3kxuww62zfddua	582	15	or	or	CC
work_kkta46aprvda3kxuww62zfddua	582	16	V	v	NN
work_kkta46aprvda3kxuww62zfddua	582	17	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	582	18	type	type	NN
work_kkta46aprvda3kxuww62zfddua	582	19	?	?	.
work_kkta46aprvda3kxuww62zfddua	583	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	583	2	chimeric	chimeric	JJ
work_kkta46aprvda3kxuww62zfddua	583	3	nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	583	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	583	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	583	6	archaebacterial	archaebacterial	JJ
work_kkta46aprvda3kxuww62zfddua	583	7	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	583	8	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	583	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	583	10	Biochim	Biochim	NNP
work_kkta46aprvda3kxuww62zfddua	583	11	.	.	.
work_kkta46aprvda3kxuww62zfddua	584	1	Biophys	Biophys	NNP
work_kkta46aprvda3kxuww62zfddua	584	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	585	1	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	585	2	1101	1101	CD
work_kkta46aprvda3kxuww62zfddua	585	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	585	4	1992	1992	CD
work_kkta46aprvda3kxuww62zfddua	585	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	585	6	232–235	232–235	CD
work_kkta46aprvda3kxuww62zfddua	585	7	.	.	.
work_kkta46aprvda3kxuww62zfddua	586	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	586	2	44	44	CD
work_kkta46aprvda3kxuww62zfddua	586	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	586	4	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	586	5	Ubbink	Ubbink	NNP
work_kkta46aprvda3kxuww62zfddua	586	6	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	586	7	Kok	Kok	NNP
work_kkta46aprvda3kxuww62zfddua	586	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	586	9	E.J.	E.J.	NNP
work_kkta46aprvda3kxuww62zfddua	587	1	Boekema	Boekema	NNP
work_kkta46aprvda3kxuww62zfddua	587	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	587	3	J.F.	J.F.	NNP
work_kkta46aprvda3kxuww62zfddua	588	1	van	van	NNP
work_kkta46aprvda3kxuww62zfddua	588	2	Breemen	Breemen	NNP
work_kkta46aprvda3kxuww62zfddua	588	3	,	,	,
work_kkta46aprvda3kxuww62zfddua	588	4	A.	A.	NNP
work_kkta46aprvda3kxuww62zfddua	588	5	Brisson	Brisson	NNP
work_kkta46aprvda3kxuww62zfddua	588	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	588	7	W.N.	W.N.	NNP
work_kkta46aprvda3kxuww62zfddua	589	1	Konings	Konings	NNP
work_kkta46aprvda3kxuww62zfddua	589	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	589	3	J.S.	J.S.	NNP
work_kkta46aprvda3kxuww62zfddua	590	1	Lolkema	Lolkema	NNP
work_kkta46aprvda3kxuww62zfddua	590	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	590	3	Stator	Stator	NNP
work_kkta46aprvda3kxuww62zfddua	590	4	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	590	5	and	and	CC
work_kkta46aprvda3kxuww62zfddua	590	6	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	590	7	composition	composition	NN
work_kkta46aprvda3kxuww62zfddua	590	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	590	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	590	10	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	590	11	Na	Na	NNP
work_kkta46aprvda3kxuww62zfddua	590	12	+	+	DT
work_kkta46aprvda3kxuww62zfddua	590	13	-ATPase	-atpase	NN
work_kkta46aprvda3kxuww62zfddua	590	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	590	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	590	16	thermophilic	thermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	590	17	bacterium	bacterium	NN
work_kkta46aprvda3kxuww62zfddua	590	18	Caloramator	Caloramator	NNP
work_kkta46aprvda3kxuww62zfddua	590	19	fervidus	fervidus	NN
work_kkta46aprvda3kxuww62zfddua	590	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	590	21	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	590	22	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	590	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	591	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	591	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	592	1	296	296	CD
work_kkta46aprvda3kxuww62zfddua	592	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	592	3	2000	2000	CD
work_kkta46aprvda3kxuww62zfddua	592	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	592	5	311–321	311–321	CD
work_kkta46aprvda3kxuww62zfddua	592	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	593	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	593	2	45	45	CD
work_kkta46aprvda3kxuww62zfddua	593	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	593	4	Ü.	Ü.	NNP
work_kkta46aprvda3kxuww62zfddua	593	5	Coskun	Coskun	NNP
work_kkta46aprvda3kxuww62zfddua	593	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	593	7	Y.L.	Y.L.	NNP
work_kkta46aprvda3kxuww62zfddua	594	1	Chaban	chaban	JJ
work_kkta46aprvda3kxuww62zfddua	594	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	594	3	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	594	4	Lingl	Lingl	NNP
work_kkta46aprvda3kxuww62zfddua	594	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	594	6	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	594	7	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	594	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	594	9	W.	W.	NNP
work_kkta46aprvda3kxuww62zfddua	594	10	Keegstra	Keegstra	NNP
work_kkta46aprvda3kxuww62zfddua	594	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	594	12	E.J.	E.J.	NNP
work_kkta46aprvda3kxuww62zfddua	595	1	Boekema	Boekema	NNP
work_kkta46aprvda3kxuww62zfddua	595	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	595	3	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	595	4	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	595	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	595	6	Structure	Structure	NNP
work_kkta46aprvda3kxuww62zfddua	595	7	and	and	CC
work_kkta46aprvda3kxuww62zfddua	595	8	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	595	9	arrangement	arrangement	NN
work_kkta46aprvda3kxuww62zfddua	595	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	595	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	595	12	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	595	13	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	595	14	type	type	NN
work_kkta46aprvda3kxuww62zfddua	595	15	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	595	16	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	595	17	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	595	18	from	from	IN
work_kkta46aprvda3kxuww62zfddua	595	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	595	20	archaeon	archaeon	NNP
work_kkta46aprvda3kxuww62zfddua	595	21	Methanococcus	Methanococcus	NNP
work_kkta46aprvda3kxuww62zfddua	595	22	jannaschii	jannaschii	NN
work_kkta46aprvda3kxuww62zfddua	595	23	visualized	visualize	VBN
work_kkta46aprvda3kxuww62zfddua	595	24	by	by	IN
work_kkta46aprvda3kxuww62zfddua	595	25	electron	electron	NNP
work_kkta46aprvda3kxuww62zfddua	595	26	microscopy	microscopy	NNP
work_kkta46aprvda3kxuww62zfddua	595	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	595	28	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	595	29	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	595	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	596	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	596	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	597	1	279	279	CD
work_kkta46aprvda3kxuww62zfddua	597	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	597	3	2004	2004	CD
work_kkta46aprvda3kxuww62zfddua	597	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	597	5	38644–38648	38644–38648	CD
work_kkta46aprvda3kxuww62zfddua	597	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	598	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	598	2	46	46	CD
work_kkta46aprvda3kxuww62zfddua	598	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	598	4	R.A.	R.A.	NNP
work_kkta46aprvda3kxuww62zfddua	598	5	Bernal	Bernal	NNP
work_kkta46aprvda3kxuww62zfddua	598	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	598	7	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	598	8	Stock	Stock	NNP
work_kkta46aprvda3kxuww62zfddua	598	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	598	10	Three	Three	NNP
work_kkta46aprvda3kxuww62zfddua	598	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	598	12	dimensional	dimensional	JJ
work_kkta46aprvda3kxuww62zfddua	598	13	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	598	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	598	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	598	16	intact	intact	JJ
work_kkta46aprvda3kxuww62zfddua	598	17	Thermus	Thermus	NNP
work_kkta46aprvda3kxuww62zfddua	598	18	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	598	19	H+-ATPase	h+-atpase	PRP
work_kkta46aprvda3kxuww62zfddua	598	20	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	598	21	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	598	22	by	by	IN
work_kkta46aprvda3kxuww62zfddua	598	23	electron	electron	NNP
work_kkta46aprvda3kxuww62zfddua	598	24	microscopy	microscopy	NNP
work_kkta46aprvda3kxuww62zfddua	598	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	598	26	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	598	27	12	12	CD
work_kkta46aprvda3kxuww62zfddua	598	28	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	598	29	2004	2004	CD
work_kkta46aprvda3kxuww62zfddua	598	30	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	598	31	1789–1798	1789–1798	CD
work_kkta46aprvda3kxuww62zfddua	598	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	599	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	599	2	47	47	CD
work_kkta46aprvda3kxuww62zfddua	599	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	599	4	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	599	5	Vonck	Vonck	NNP
work_kkta46aprvda3kxuww62zfddua	599	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	599	7	K.Y.	K.Y.	NNP
work_kkta46aprvda3kxuww62zfddua	600	1	Pisa	Pisa	NNP
work_kkta46aprvda3kxuww62zfddua	600	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	600	3	N.	N.	NNP
work_kkta46aprvda3kxuww62zfddua	600	4	Morgner	Morgner	NNP
work_kkta46aprvda3kxuww62zfddua	600	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	600	6	B.	B.	NNP
work_kkta46aprvda3kxuww62zfddua	600	7	Brutschy	Brutschy	NNP
work_kkta46aprvda3kxuww62zfddua	600	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	600	9	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	600	10	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	600	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	600	12	Three	three	CD
work_kkta46aprvda3kxuww62zfddua	600	13	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	600	14	dimensional	dimensional	JJ
work_kkta46aprvda3kxuww62zfddua	600	15	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	600	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	600	17	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	600	18	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	600	19	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	600	20	from	from	IN
work_kkta46aprvda3kxuww62zfddua	600	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	600	22	hyperthermophilic	hyperthermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	600	23	archaeon	archaeon	NN
work_kkta46aprvda3kxuww62zfddua	600	24	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	600	25	furiosus	furiosus	NN
work_kkta46aprvda3kxuww62zfddua	600	26	by	by	IN
work_kkta46aprvda3kxuww62zfddua	600	27	electron	electron	NNP
work_kkta46aprvda3kxuww62zfddua	600	28	microscopy	microscopy	NNP
work_kkta46aprvda3kxuww62zfddua	600	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	600	30	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	600	31	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	600	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	601	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	601	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	602	1	284	284	CD
work_kkta46aprvda3kxuww62zfddua	602	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	602	3	2009	2009	CD
work_kkta46aprvda3kxuww62zfddua	602	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	602	5	10110–10119	10110–10119	CD
work_kkta46aprvda3kxuww62zfddua	602	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	603	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	603	2	48	48	CD
work_kkta46aprvda3kxuww62zfddua	603	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	603	4	W.C.	W.C.	NNP
work_kkta46aprvda3kxuww62zfddua	603	5	Lau	Lau	NNP
work_kkta46aprvda3kxuww62zfddua	603	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	603	7	J.L.	J.L.	NNP
work_kkta46aprvda3kxuww62zfddua	604	1	Rubinstein	Rubinstein	NNP
work_kkta46aprvda3kxuww62zfddua	604	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	604	3	Subnanometre	Subnanometre	NNP
work_kkta46aprvda3kxuww62zfddua	604	4	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	604	5	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	604	6	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	604	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	604	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	604	9	intact	intact	JJ
work_kkta46aprvda3kxuww62zfddua	604	10	Thermus	Thermus	NNP
work_kkta46aprvda3kxuww62zfddua	604	11	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	604	12	H+-driven	h+-driven	JJ
work_kkta46aprvda3kxuww62zfddua	604	13	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	604	14	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	604	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	604	16	Nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	604	17	481	481	CD
work_kkta46aprvda3kxuww62zfddua	604	18	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	604	19	2012	2012	CD
work_kkta46aprvda3kxuww62zfddua	604	20	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	604	21	214–218	214–218	CD
work_kkta46aprvda3kxuww62zfddua	604	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	605	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	605	2	49	49	CD
work_kkta46aprvda3kxuww62zfddua	605	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	605	4	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	605	5	Kumar	Kumar	NNP
work_kkta46aprvda3kxuww62zfddua	605	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	605	7	M.S.	M.S.	NNP
work_kkta46aprvda3kxuww62zfddua	606	1	Manimekalai	Manimekalai	NNP
work_kkta46aprvda3kxuww62zfddua	606	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	606	3	A.M.	A.M.	NNP
work_kkta46aprvda3kxuww62zfddua	606	4	Balakrishna	Balakrishna	NNP
work_kkta46aprvda3kxuww62zfddua	606	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	606	6	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	606	7	Jeyakanthan	Jeyakanthan	NNP
work_kkta46aprvda3kxuww62zfddua	606	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	606	9	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	606	10	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	606	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	606	12	Nucleotide	Nucleotide	NNP
work_kkta46aprvda3kxuww62zfddua	606	13	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	606	14	states	state	NNS
work_kkta46aprvda3kxuww62zfddua	606	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	606	16	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	606	17	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	606	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	606	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	606	20	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	606	21	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	606	22	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	606	23	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	606	24	and	and	CC
work_kkta46aprvda3kxuww62zfddua	606	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	606	26	implication	implication	NN
work_kkta46aprvda3kxuww62zfddua	606	27	of	of	IN
work_kkta46aprvda3kxuww62zfddua	606	28	P	p	NN
work_kkta46aprvda3kxuww62zfddua	606	29	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	606	30	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	606	31	switch	switch	NN
work_kkta46aprvda3kxuww62zfddua	606	32	in	in	IN
work_kkta46aprvda3kxuww62zfddua	606	33	evolution	evolution	NN
work_kkta46aprvda3kxuww62zfddua	606	34	,	,	,
work_kkta46aprvda3kxuww62zfddua	606	35	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	606	36	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	606	37	.	.	.
work_kkta46aprvda3kxuww62zfddua	607	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	607	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	608	1	396	396	CD
work_kkta46aprvda3kxuww62zfddua	608	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	608	3	2010	2010	CD
work_kkta46aprvda3kxuww62zfddua	608	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	608	5	301–320	301–320	CD
work_kkta46aprvda3kxuww62zfddua	608	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	609	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	609	2	50	50	CD
work_kkta46aprvda3kxuww62zfddua	609	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	609	4	I.B.	I.B.	NNP
work_kkta46aprvda3kxuww62zfddua	610	1	Schäfer	schäfer	VB
work_kkta46aprvda3kxuww62zfddua	610	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	610	3	S.M.	S.M.	NNP
work_kkta46aprvda3kxuww62zfddua	611	1	Bailer	Bailer	NNP
work_kkta46aprvda3kxuww62zfddua	611	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	611	3	M.G.	M.G.	NNP
work_kkta46aprvda3kxuww62zfddua	612	1	Düser	Düser	NNP
work_kkta46aprvda3kxuww62zfddua	612	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	612	3	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	612	4	Börsch	Börsch	NNP
work_kkta46aprvda3kxuww62zfddua	612	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	612	6	R.A.	R.A.	NNP
work_kkta46aprvda3kxuww62zfddua	612	7	Bernal	Bernal	NNP
work_kkta46aprvda3kxuww62zfddua	612	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	612	9	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	612	10	Stock	Stock	NNP
work_kkta46aprvda3kxuww62zfddua	612	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	612	12	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	612	13	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	612	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	612	15	Crystal	Crystal	NNP
work_kkta46aprvda3kxuww62zfddua	612	16	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	612	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	612	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	612	19	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	612	20	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	612	21	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	612	22	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	612	23	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	612	24	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	612	25	from	from	IN
work_kkta46aprvda3kxuww62zfddua	612	26	Methanosarcina	Methanosarcina	NNP
work_kkta46aprvda3kxuww62zfddua	612	27	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	612	28	Gö1	Gö1	NNP
work_kkta46aprvda3kxuww62zfddua	612	29	:	:	:
work_kkta46aprvda3kxuww62zfddua	612	30	implications	implication	NNS
work_kkta46aprvda3kxuww62zfddua	612	31	of	of	IN
work_kkta46aprvda3kxuww62zfddua	612	32	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	612	33	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	612	34	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	612	35	differences	difference	NNS
work_kkta46aprvda3kxuww62zfddua	612	36	in	in	IN
work_kkta46aprvda3kxuww62zfddua	612	37	the	the	DT
work_kkta46aprvda3kxuww62zfddua	612	38	major	major	JJ
work_kkta46aprvda3kxuww62zfddua	612	39	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	612	40	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	612	41	A	a	NN
work_kkta46aprvda3kxuww62zfddua	612	42	and	and	CC
work_kkta46aprvda3kxuww62zfddua	612	43	B	b	NN
work_kkta46aprvda3kxuww62zfddua	612	44	,	,	,
work_kkta46aprvda3kxuww62zfddua	612	45	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	612	46	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	612	47	.	.	.
work_kkta46aprvda3kxuww62zfddua	613	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	613	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	614	1	358	358	CD
work_kkta46aprvda3kxuww62zfddua	614	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	614	3	2006	2006	CD
work_kkta46aprvda3kxuww62zfddua	614	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	614	5	725–740	725–740	CD
work_kkta46aprvda3kxuww62zfddua	614	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	615	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	615	2	51	51	CD
work_kkta46aprvda3kxuww62zfddua	615	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	615	4	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	615	5	Iwata	Iwata	NNP
work_kkta46aprvda3kxuww62zfddua	615	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	7	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	615	8	Imamura	Imamura	NNP
work_kkta46aprvda3kxuww62zfddua	615	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	10	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	615	11	Stambouli	Stambouli	NNP
work_kkta46aprvda3kxuww62zfddua	615	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	13	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	615	14	Ikeda	Ikeda	NNP
work_kkta46aprvda3kxuww62zfddua	615	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	16	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	615	17	Tamakoshi	Tamakoshi	NNP
work_kkta46aprvda3kxuww62zfddua	615	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	19	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	615	20	Nagata	Nagata	NNP
work_kkta46aprvda3kxuww62zfddua	615	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	22	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	615	23	Makyio	Makyio	NNP
work_kkta46aprvda3kxuww62zfddua	615	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	25	B.	B.	NNP
work_kkta46aprvda3kxuww62zfddua	615	26	Hankamer	Hankamer	NNP
work_kkta46aprvda3kxuww62zfddua	615	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	28	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	615	29	Barber	Barber	NNP
work_kkta46aprvda3kxuww62zfddua	615	30	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	31	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	615	32	Yoshida	Yoshida	NNP
work_kkta46aprvda3kxuww62zfddua	615	33	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	34	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	615	35	Yokoyama	Yokoyama	NNP
work_kkta46aprvda3kxuww62zfddua	615	36	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	37	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	615	38	Iwata	Iwata	NNP
work_kkta46aprvda3kxuww62zfddua	615	39	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	40	Crystal	Crystal	NNP
work_kkta46aprvda3kxuww62zfddua	615	41	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	615	42	of	of	IN
work_kkta46aprvda3kxuww62zfddua	615	43	a	a	DT
work_kkta46aprvda3kxuww62zfddua	615	44	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	615	45	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	615	46	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	615	47	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	615	48	and	and	CC
work_kkta46aprvda3kxuww62zfddua	615	49	reversible	reversible	NNP
work_kkta46aprvda3kxuww62zfddua	615	50	association	association	NNP
work_kkta46aprvda3kxuww62zfddua	615	51	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	615	52	dissociation	dissociation	NN
work_kkta46aprvda3kxuww62zfddua	615	53	of	of	IN
work_kkta46aprvda3kxuww62zfddua	615	54	vacuole	vacuole	NN
work_kkta46aprvda3kxuww62zfddua	615	55	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	615	56	type	type	NN
work_kkta46aprvda3kxuww62zfddua	615	57	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	615	58	,	,	,
work_kkta46aprvda3kxuww62zfddua	615	59	Proc	Proc	NNP
work_kkta46aprvda3kxuww62zfddua	615	60	.	.	.
work_kkta46aprvda3kxuww62zfddua	616	1	Natl	Natl	NNP
work_kkta46aprvda3kxuww62zfddua	616	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	617	1	Acad	Acad	NNS
work_kkta46aprvda3kxuww62zfddua	617	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	618	1	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	618	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	619	1	U.	U.	NNP
work_kkta46aprvda3kxuww62zfddua	619	2	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	619	3	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	620	1	101	101	CD
work_kkta46aprvda3kxuww62zfddua	620	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	620	3	2004	2004	CD
work_kkta46aprvda3kxuww62zfddua	620	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	620	5	59–64	59–64	RB
work_kkta46aprvda3kxuww62zfddua	620	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	621	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	621	2	52	52	CD
work_kkta46aprvda3kxuww62zfddua	621	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	621	4	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	621	5	Saijo	Saijo	NNP
work_kkta46aprvda3kxuww62zfddua	621	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	621	7	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	621	8	Arai	Arai	NNP
work_kkta46aprvda3kxuww62zfddua	621	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	621	10	K.M.	K.M.	NNP
work_kkta46aprvda3kxuww62zfddua	622	1	Hossain	Hossain	NNP
work_kkta46aprvda3kxuww62zfddua	622	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	3	I.	I.	NNP
work_kkta46aprvda3kxuww62zfddua	622	4	Yamato	Yamato	NNP
work_kkta46aprvda3kxuww62zfddua	622	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	6	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	622	7	Suzuki	Suzuki	NNP
work_kkta46aprvda3kxuww62zfddua	622	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	9	Y.	Y.	NNP
work_kkta46aprvda3kxuww62zfddua	622	10	Kakinuma	Kakinuma	NNP
work_kkta46aprvda3kxuww62zfddua	622	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	12	Y.	Y.	NNP
work_kkta46aprvda3kxuww62zfddua	622	13	Ishizuka	Ishizuka	NNP
work_kkta46aprvda3kxuww62zfddua	622	14	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	622	15	Katsura	Katsura	NNP
work_kkta46aprvda3kxuww62zfddua	622	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	17	N.	N.	NNP
work_kkta46aprvda3kxuww62zfddua	622	18	Ohsawa	Ohsawa	NNP
work_kkta46aprvda3kxuww62zfddua	622	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	20	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	622	21	Terada	Terada	NNP
work_kkta46aprvda3kxuww62zfddua	622	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	23	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	622	24	Shirouzu	Shirouzu	NNP
work_kkta46aprvda3kxuww62zfddua	622	25	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	26	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	622	27	Yokoyama	Yokoyama	NNP
work_kkta46aprvda3kxuww62zfddua	622	28	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	29	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	622	30	Iwata	Iwata	NNP
work_kkta46aprvda3kxuww62zfddua	622	31	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	32	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	622	33	Murata	Murata	NNP
work_kkta46aprvda3kxuww62zfddua	622	34	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	35	Crystal	Crystal	NNP
work_kkta46aprvda3kxuww62zfddua	622	36	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	622	37	of	of	IN
work_kkta46aprvda3kxuww62zfddua	622	38	the	the	DT
work_kkta46aprvda3kxuww62zfddua	622	39	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	622	40	axis	axis	NN
work_kkta46aprvda3kxuww62zfddua	622	41	DF	DF	NNP
work_kkta46aprvda3kxuww62zfddua	622	42	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	622	43	of	of	IN
work_kkta46aprvda3kxuww62zfddua	622	44	the	the	DT
work_kkta46aprvda3kxuww62zfddua	622	45	prokaryotic	prokaryotic	JJ
work_kkta46aprvda3kxuww62zfddua	622	46	V	V	NNP
work_kkta46aprvda3kxuww62zfddua	622	47	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	622	48	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	622	49	,	,	,
work_kkta46aprvda3kxuww62zfddua	622	50	Proc	Proc	NNP
work_kkta46aprvda3kxuww62zfddua	622	51	.	.	.
work_kkta46aprvda3kxuww62zfddua	623	1	Natl	Natl	NNP
work_kkta46aprvda3kxuww62zfddua	623	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	624	1	Acad	Acad	NNS
work_kkta46aprvda3kxuww62zfddua	624	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	625	1	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	625	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	626	1	U.	U.	NNP
work_kkta46aprvda3kxuww62zfddua	626	2	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	626	3	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	627	1	108	108	CD
work_kkta46aprvda3kxuww62zfddua	627	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	627	3	2011	2011	CD
work_kkta46aprvda3kxuww62zfddua	627	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	627	5	19955–19960	19955–19960	CD
work_kkta46aprvda3kxuww62zfddua	627	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	628	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	628	2	53	53	CD
work_kkta46aprvda3kxuww62zfddua	628	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	628	4	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	628	5	Gayen	Gayen	NNP
work_kkta46aprvda3kxuww62zfddua	628	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	628	7	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	628	8	Vivekanandan	Vivekanandan	NNP
work_kkta46aprvda3kxuww62zfddua	628	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	628	10	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	628	11	Biukovic	Biukovic	NNP
work_kkta46aprvda3kxuww62zfddua	628	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	628	13	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	628	14	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	628	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	628	16	H.S.	H.S.	NNP
work_kkta46aprvda3kxuww62zfddua	629	1	Yoon	Yoon	NNP
work_kkta46aprvda3kxuww62zfddua	629	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	629	3	NMR	NMR	NNP
work_kkta46aprvda3kxuww62zfddua	629	4	solution	solution	NN
work_kkta46aprvda3kxuww62zfddua	629	5	struc-	struc-	NN
work_kkta46aprvda3kxuww62zfddua	629	6	ture	ture	NN
work_kkta46aprvda3kxuww62zfddua	629	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	629	8	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	629	9	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	629	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	629	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	629	12	methanogenic	methanogenic	JJ
work_kkta46aprvda3kxuww62zfddua	629	13	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	629	14	adenosine	adenosine	NN
work_kkta46aprvda3kxuww62zfddua	629	15	triphosphate	triphosphate	NN
work_kkta46aprvda3kxuww62zfddua	629	16	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	629	17	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0005	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0005	NNP
work_kkta46aprvda3kxuww62zfddua	629	18	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0005	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0005	NNP
work_kkta46aprvda3kxuww62zfddua	629	19	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010	NNP
work_kkta46aprvda3kxuww62zfddua	629	20	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010	NNP
work_kkta46aprvda3kxuww62zfddua	629	21	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0010	NNP
work_kkta46aprvda3kxuww62zfddua	629	22	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015	NNP
work_kkta46aprvda3kxuww62zfddua	629	23	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015	NNP
work_kkta46aprvda3kxuww62zfddua	629	24	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0015	NNP
work_kkta46aprvda3kxuww62zfddua	629	25	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020	NNP
work_kkta46aprvda3kxuww62zfddua	629	26	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020	NNP
work_kkta46aprvda3kxuww62zfddua	629	27	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0020	NNP
work_kkta46aprvda3kxuww62zfddua	629	28	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025	NNP
work_kkta46aprvda3kxuww62zfddua	629	29	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025	NNP
work_kkta46aprvda3kxuww62zfddua	629	30	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025	NNP
work_kkta46aprvda3kxuww62zfddua	629	31	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0025	NNP
work_kkta46aprvda3kxuww62zfddua	629	32	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030	NNP
work_kkta46aprvda3kxuww62zfddua	629	33	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030	http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0030	NN
work_kkta46aprvda3kxuww62zfddua	629	34	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030	NNP
work_kkta46aprvda3kxuww62zfddua	629	35	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0030	NNP
work_kkta46aprvda3kxuww62zfddua	629	36	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0035	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0035	NNP
work_kkta46aprvda3kxuww62zfddua	629	37	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0035	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0035	NNP
work_kkta46aprvda3kxuww62zfddua	629	38	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0040	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0040	NNP
work_kkta46aprvda3kxuww62zfddua	629	39	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0040	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0040	NNP
work_kkta46aprvda3kxuww62zfddua	629	40	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0045	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0045	NNP
work_kkta46aprvda3kxuww62zfddua	629	41	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0045	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0045	NNP
work_kkta46aprvda3kxuww62zfddua	629	42	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0050	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0050	NNP
work_kkta46aprvda3kxuww62zfddua	629	43	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0050	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0050	NNP
work_kkta46aprvda3kxuww62zfddua	629	44	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055	NNP
work_kkta46aprvda3kxuww62zfddua	629	45	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055	NNP
work_kkta46aprvda3kxuww62zfddua	629	46	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0055	NNP
work_kkta46aprvda3kxuww62zfddua	629	47	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0060	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0060	NNP
work_kkta46aprvda3kxuww62zfddua	629	48	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0060	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0060	NNP
work_kkta46aprvda3kxuww62zfddua	629	49	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0065	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0065	NNP
work_kkta46aprvda3kxuww62zfddua	629	50	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0065	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0065	NNP
work_kkta46aprvda3kxuww62zfddua	629	51	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0065	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0065	NNP
work_kkta46aprvda3kxuww62zfddua	629	52	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0065	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0065	NNP
work_kkta46aprvda3kxuww62zfddua	629	53	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0065	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0065	NNP
work_kkta46aprvda3kxuww62zfddua	629	54	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0070	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0070	NNP
work_kkta46aprvda3kxuww62zfddua	629	55	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0070	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0070	NNP
work_kkta46aprvda3kxuww62zfddua	629	56	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0075	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0075	NNP
work_kkta46aprvda3kxuww62zfddua	629	57	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0075	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0075	NNP
work_kkta46aprvda3kxuww62zfddua	629	58	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0080	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0080	NNP
work_kkta46aprvda3kxuww62zfddua	629	59	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0080	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0080	VBN
work_kkta46aprvda3kxuww62zfddua	629	60	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0085	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0085	NNP
work_kkta46aprvda3kxuww62zfddua	629	61	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0085	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0085	NNP
work_kkta46aprvda3kxuww62zfddua	629	62	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0090	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0090	NNP
work_kkta46aprvda3kxuww62zfddua	629	63	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0090	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0090	NNP
work_kkta46aprvda3kxuww62zfddua	629	64	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0095	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0095	NNP
work_kkta46aprvda3kxuww62zfddua	629	65	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0095	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0095	NNP
work_kkta46aprvda3kxuww62zfddua	629	66	http://dx.doi.org/10.1111/1574-6976.12043	http://dx.doi.org/10.1111/1574-6976.12043	NNP
work_kkta46aprvda3kxuww62zfddua	629	67	http://dx.doi.org/10.1111/1574-6976.12043	http://dx.doi.org/10.1111/1574-6976.12043	NNP
work_kkta46aprvda3kxuww62zfddua	629	68	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0105	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0105	NNP
work_kkta46aprvda3kxuww62zfddua	629	69	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0105	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0105	NNP
work_kkta46aprvda3kxuww62zfddua	629	70	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0105	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0105	NNP
work_kkta46aprvda3kxuww62zfddua	629	71	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0110	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0110	NNP
work_kkta46aprvda3kxuww62zfddua	629	72	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0110	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0110	NNP
work_kkta46aprvda3kxuww62zfddua	629	73	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0110	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0110	NNP
work_kkta46aprvda3kxuww62zfddua	629	74	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0110	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0110	NNP
work_kkta46aprvda3kxuww62zfddua	629	75	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0115	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0115	NNP
work_kkta46aprvda3kxuww62zfddua	629	76	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0115	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0115	NNP
work_kkta46aprvda3kxuww62zfddua	629	77	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0115	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0115	NNP
work_kkta46aprvda3kxuww62zfddua	629	78	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0115	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0115	NNP
work_kkta46aprvda3kxuww62zfddua	629	79	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0115	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0115	NNP
work_kkta46aprvda3kxuww62zfddua	629	80	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0120	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0120	NNP
work_kkta46aprvda3kxuww62zfddua	629	81	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0120	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0120	NNP
work_kkta46aprvda3kxuww62zfddua	629	82	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0120	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0120	NNP
work_kkta46aprvda3kxuww62zfddua	629	83	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0120	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0120	NNP
work_kkta46aprvda3kxuww62zfddua	629	84	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0125	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0125	NNP
work_kkta46aprvda3kxuww62zfddua	629	85	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0125	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0125	NNP
work_kkta46aprvda3kxuww62zfddua	629	86	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0130	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0130	NNP
work_kkta46aprvda3kxuww62zfddua	629	87	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0130	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0130	NNP
work_kkta46aprvda3kxuww62zfddua	629	88	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0130	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0130	NNP
work_kkta46aprvda3kxuww62zfddua	629	89	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0130	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0130	NNP
work_kkta46aprvda3kxuww62zfddua	629	90	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0135	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0135	NNP
work_kkta46aprvda3kxuww62zfddua	629	91	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0135	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0135	NNP
work_kkta46aprvda3kxuww62zfddua	629	92	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0135	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0135	NNP
work_kkta46aprvda3kxuww62zfddua	629	93	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0140	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0140	NNP
work_kkta46aprvda3kxuww62zfddua	629	94	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0140	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0140	NNP
work_kkta46aprvda3kxuww62zfddua	629	95	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0145	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0145	NNP
work_kkta46aprvda3kxuww62zfddua	629	96	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0145	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0145	NNP
work_kkta46aprvda3kxuww62zfddua	629	97	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0145	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0145	NNP
work_kkta46aprvda3kxuww62zfddua	629	98	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0150	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0150	NNP
work_kkta46aprvda3kxuww62zfddua	629	99	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0150	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0150	NNP
work_kkta46aprvda3kxuww62zfddua	629	100	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0150	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0150	NNP
work_kkta46aprvda3kxuww62zfddua	629	101	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0150	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0150	NNP
work_kkta46aprvda3kxuww62zfddua	629	102	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0155	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0155	NNP
work_kkta46aprvda3kxuww62zfddua	629	103	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0155	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0155	NNP
work_kkta46aprvda3kxuww62zfddua	629	104	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0155	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0155	NNP
work_kkta46aprvda3kxuww62zfddua	629	105	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0155	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0155	NNP
work_kkta46aprvda3kxuww62zfddua	629	106	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0160	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0160	NNP
work_kkta46aprvda3kxuww62zfddua	629	107	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0160	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0160	NNP
work_kkta46aprvda3kxuww62zfddua	629	108	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	NNP
work_kkta46aprvda3kxuww62zfddua	629	109	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	NNP
work_kkta46aprvda3kxuww62zfddua	629	110	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	NNP
work_kkta46aprvda3kxuww62zfddua	629	111	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	NNP
work_kkta46aprvda3kxuww62zfddua	629	112	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	NNP
work_kkta46aprvda3kxuww62zfddua	629	113	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	NNP
work_kkta46aprvda3kxuww62zfddua	629	114	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	NNP
work_kkta46aprvda3kxuww62zfddua	629	115	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0165	NNP
work_kkta46aprvda3kxuww62zfddua	629	116	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0170	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0170	NNP
work_kkta46aprvda3kxuww62zfddua	629	117	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0170	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0170	NNP
work_kkta46aprvda3kxuww62zfddua	629	118	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0170	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0170	NNP
work_kkta46aprvda3kxuww62zfddua	629	119	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0175	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0175	NNP
work_kkta46aprvda3kxuww62zfddua	629	120	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0175	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0175	NNP
work_kkta46aprvda3kxuww62zfddua	629	121	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0175	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0175	NNP
work_kkta46aprvda3kxuww62zfddua	629	122	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0175	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0175	NNP
work_kkta46aprvda3kxuww62zfddua	629	123	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0175	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0175	NNP
work_kkta46aprvda3kxuww62zfddua	629	124	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0180	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0180	NNP
work_kkta46aprvda3kxuww62zfddua	629	125	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0180	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0180	NNP
work_kkta46aprvda3kxuww62zfddua	629	126	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0180	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0180	NNP
work_kkta46aprvda3kxuww62zfddua	629	127	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0180	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0180	NNP
work_kkta46aprvda3kxuww62zfddua	629	128	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0180	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0180	NNP
work_kkta46aprvda3kxuww62zfddua	629	129	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	NNP
work_kkta46aprvda3kxuww62zfddua	629	130	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	NNP
work_kkta46aprvda3kxuww62zfddua	629	131	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	NNP
work_kkta46aprvda3kxuww62zfddua	629	132	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	NNP
work_kkta46aprvda3kxuww62zfddua	629	133	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	NNP
work_kkta46aprvda3kxuww62zfddua	629	134	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0185	NNP
work_kkta46aprvda3kxuww62zfddua	629	135	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190	NNP
work_kkta46aprvda3kxuww62zfddua	629	136	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190	NNP
work_kkta46aprvda3kxuww62zfddua	629	137	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0190	NNP
work_kkta46aprvda3kxuww62zfddua	629	138	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195	NNP
work_kkta46aprvda3kxuww62zfddua	629	139	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195	NNP
work_kkta46aprvda3kxuww62zfddua	629	140	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195	NNP
work_kkta46aprvda3kxuww62zfddua	629	141	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0195	NNP
work_kkta46aprvda3kxuww62zfddua	629	142	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0200	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0200	NNP
work_kkta46aprvda3kxuww62zfddua	629	143	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0200	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0200	NNP
work_kkta46aprvda3kxuww62zfddua	629	144	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205	NNP
work_kkta46aprvda3kxuww62zfddua	629	145	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205	NNP
work_kkta46aprvda3kxuww62zfddua	629	146	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0205	NNP
work_kkta46aprvda3kxuww62zfddua	629	147	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210	NNP
work_kkta46aprvda3kxuww62zfddua	629	148	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210	NNP
work_kkta46aprvda3kxuww62zfddua	629	149	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0210	NNP
work_kkta46aprvda3kxuww62zfddua	629	150	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0215	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0215	NNP
work_kkta46aprvda3kxuww62zfddua	629	151	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0215	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0215	NNP
work_kkta46aprvda3kxuww62zfddua	629	152	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	NNP
work_kkta46aprvda3kxuww62zfddua	629	153	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	NNP
work_kkta46aprvda3kxuww62zfddua	629	154	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	NNP
work_kkta46aprvda3kxuww62zfddua	629	155	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	NNP
work_kkta46aprvda3kxuww62zfddua	629	156	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	NNP
work_kkta46aprvda3kxuww62zfddua	629	157	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0220	NNP
work_kkta46aprvda3kxuww62zfddua	629	158	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225	NNP
work_kkta46aprvda3kxuww62zfddua	629	159	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225	NNP
work_kkta46aprvda3kxuww62zfddua	629	160	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225	NNP
work_kkta46aprvda3kxuww62zfddua	629	161	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0225	NNP
work_kkta46aprvda3kxuww62zfddua	629	162	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230	NNP
work_kkta46aprvda3kxuww62zfddua	629	163	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230	http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0230	NN
work_kkta46aprvda3kxuww62zfddua	629	164	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230	NNP
work_kkta46aprvda3kxuww62zfddua	629	165	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0230	NNP
work_kkta46aprvda3kxuww62zfddua	629	166	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235	NNP
work_kkta46aprvda3kxuww62zfddua	629	167	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235	NNP
work_kkta46aprvda3kxuww62zfddua	629	168	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235	NNP
work_kkta46aprvda3kxuww62zfddua	629	169	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235	NNP
work_kkta46aprvda3kxuww62zfddua	629	170	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0235	NNP
work_kkta46aprvda3kxuww62zfddua	629	171	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240	NNPS
work_kkta46aprvda3kxuww62zfddua	629	172	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240	NNP
work_kkta46aprvda3kxuww62zfddua	629	173	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0240	NNP
work_kkta46aprvda3kxuww62zfddua	629	174	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245	NNP
work_kkta46aprvda3kxuww62zfddua	629	175	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245	NNP
work_kkta46aprvda3kxuww62zfddua	629	176	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0245	NNP
work_kkta46aprvda3kxuww62zfddua	629	177	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	NNP
work_kkta46aprvda3kxuww62zfddua	629	178	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	NNP
work_kkta46aprvda3kxuww62zfddua	629	179	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	NNP
work_kkta46aprvda3kxuww62zfddua	629	180	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	NNP
work_kkta46aprvda3kxuww62zfddua	629	181	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	NNP
work_kkta46aprvda3kxuww62zfddua	629	182	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	NNP
work_kkta46aprvda3kxuww62zfddua	629	183	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	NNP
work_kkta46aprvda3kxuww62zfddua	629	184	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0250	NNP
work_kkta46aprvda3kxuww62zfddua	629	185	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255	NNP
work_kkta46aprvda3kxuww62zfddua	629	186	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255	NNP
work_kkta46aprvda3kxuww62zfddua	629	187	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255	NNP
work_kkta46aprvda3kxuww62zfddua	629	188	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0255	NNP
work_kkta46aprvda3kxuww62zfddua	629	189	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260	NNP
work_kkta46aprvda3kxuww62zfddua	629	190	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260	NNP
work_kkta46aprvda3kxuww62zfddua	629	191	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260	http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0260	NN
work_kkta46aprvda3kxuww62zfddua	629	192	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0260	http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0260	NN
work_kkta46aprvda3kxuww62zfddua	629	193	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0265	VB
work_kkta46aprvda3kxuww62zfddua	629	194	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	NNP
work_kkta46aprvda3kxuww62zfddua	629	195	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	NNP
work_kkta46aprvda3kxuww62zfddua	629	196	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	NNP
work_kkta46aprvda3kxuww62zfddua	629	197	952	952	CD
work_kkta46aprvda3kxuww62zfddua	629	198	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	629	199	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	629	200	et	et	FW
work_kkta46aprvda3kxuww62zfddua	629	201	al	al	NNP
work_kkta46aprvda3kxuww62zfddua	629	202	.	.	.
work_kkta46aprvda3kxuww62zfddua	630	1	/	/	NFP
work_kkta46aprvda3kxuww62zfddua	630	2	Biochimica	Biochimica	NNP
work_kkta46aprvda3kxuww62zfddua	630	3	et	et	NN
work_kkta46aprvda3kxuww62zfddua	630	4	Biophysica	Biophysica	NNP
work_kkta46aprvda3kxuww62zfddua	630	5	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	630	6	1837	1837	CD
work_kkta46aprvda3kxuww62zfddua	630	7	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	630	8	2014	2014	CD
work_kkta46aprvda3kxuww62zfddua	630	9	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	630	10	940–952	940–952	CD
work_kkta46aprvda3kxuww62zfddua	630	11	and	and	CC
work_kkta46aprvda3kxuww62zfddua	630	12	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	630	13	interaction	interaction	NN
work_kkta46aprvda3kxuww62zfddua	630	14	with	with	IN
work_kkta46aprvda3kxuww62zfddua	630	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	630	16	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	630	17	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	630	18	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	630	19	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	630	20	B	b	NN
work_kkta46aprvda3kxuww62zfddua	630	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	630	22	Biochemistry	Biochemistry	NNP
work_kkta46aprvda3kxuww62zfddua	630	23	46	46	CD
work_kkta46aprvda3kxuww62zfddua	630	24	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	630	25	2007	2007	CD
work_kkta46aprvda3kxuww62zfddua	630	26	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	630	27	11684–11694	11684–11694	CD
work_kkta46aprvda3kxuww62zfddua	630	28	.	.	.
work_kkta46aprvda3kxuww62zfddua	631	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	631	2	54	54	CD
work_kkta46aprvda3kxuww62zfddua	631	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	631	4	M.J.	M.J.	NNP
work_kkta46aprvda3kxuww62zfddua	631	5	Maher	Maher	NNP
work_kkta46aprvda3kxuww62zfddua	631	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	631	7	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	631	8	Akimoto	Akimoto	NNP
work_kkta46aprvda3kxuww62zfddua	631	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	631	10	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	631	11	Iwata	Iwata	NNP
work_kkta46aprvda3kxuww62zfddua	631	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	631	13	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	631	14	Nagata	Nagata	NNP
work_kkta46aprvda3kxuww62zfddua	631	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	631	16	Y.	Y.	NNP
work_kkta46aprvda3kxuww62zfddua	631	17	Hori	Hori	NNP
work_kkta46aprvda3kxuww62zfddua	631	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	631	19	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	631	20	Yoshida	Yoshida	NNP
work_kkta46aprvda3kxuww62zfddua	631	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	631	22	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	631	23	Yokoyama	Yokoyama	NNP
work_kkta46aprvda3kxuww62zfddua	631	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	631	25	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	631	26	Iwata	Iwata	NNP
work_kkta46aprvda3kxuww62zfddua	631	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	631	28	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	631	29	Yokoyama	Yokoyama	NNP
work_kkta46aprvda3kxuww62zfddua	631	30	,	,	,
work_kkta46aprvda3kxuww62zfddua	631	31	Crystal	crystal	NN
work_kkta46aprvda3kxuww62zfddua	631	32	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	631	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	631	34	A3B3	A3B3	NNP
work_kkta46aprvda3kxuww62zfddua	631	35	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	631	36	of	of	IN
work_kkta46aprvda3kxuww62zfddua	631	37	V	V	NNP
work_kkta46aprvda3kxuww62zfddua	631	38	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	631	39	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	631	40	from	from	IN
work_kkta46aprvda3kxuww62zfddua	631	41	Thermus	Thermus	NNP
work_kkta46aprvda3kxuww62zfddua	631	42	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	631	43	,	,	,
work_kkta46aprvda3kxuww62zfddua	631	44	EMBO	EMBO	NNP
work_kkta46aprvda3kxuww62zfddua	631	45	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	632	1	28	28	CD
work_kkta46aprvda3kxuww62zfddua	632	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	632	3	2009	2009	CD
work_kkta46aprvda3kxuww62zfddua	632	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	632	5	3771–3779	3771–3779	CD
work_kkta46aprvda3kxuww62zfddua	632	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	633	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	633	2	55	55	CD
work_kkta46aprvda3kxuww62zfddua	633	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	633	4	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	633	5	Arai	Arai	NNP
work_kkta46aprvda3kxuww62zfddua	633	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	7	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	633	8	Saijo	Saijo	NNP
work_kkta46aprvda3kxuww62zfddua	633	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	10	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	633	11	Suzuki	Suzuki	NNP
work_kkta46aprvda3kxuww62zfddua	633	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	13	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	633	14	Mizutani	Mizutani	NNP
work_kkta46aprvda3kxuww62zfddua	633	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	16	Y.	Y.	NNP
work_kkta46aprvda3kxuww62zfddua	633	17	Kakinuma	Kakinuma	NNP
work_kkta46aprvda3kxuww62zfddua	633	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	19	Y.	Y.	NNP
work_kkta46aprvda3kxuww62zfddua	633	20	Ishizuka	Ishizuka	NNP
work_kkta46aprvda3kxuww62zfddua	633	21	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	633	22	Katsura	Katsura	NNP
work_kkta46aprvda3kxuww62zfddua	633	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	24	N.	N.	NNP
work_kkta46aprvda3kxuww62zfddua	633	25	Ohsawa	Ohsawa	NNP
work_kkta46aprvda3kxuww62zfddua	633	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	27	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	633	28	Terada	Terada	NNP
work_kkta46aprvda3kxuww62zfddua	633	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	30	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	633	31	Shirouzu	Shirouzu	NNP
work_kkta46aprvda3kxuww62zfddua	633	32	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	33	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	633	34	Yokoyama	Yokoyama	NNP
work_kkta46aprvda3kxuww62zfddua	633	35	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	36	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	633	37	Iwata	Iwata	NNP
work_kkta46aprvda3kxuww62zfddua	633	38	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	39	I.	I.	NNP
work_kkta46aprvda3kxuww62zfddua	633	40	Yamato	Yamato	NNP
work_kkta46aprvda3kxuww62zfddua	633	41	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	42	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	633	43	Murata	Murata	NNP
work_kkta46aprvda3kxuww62zfddua	633	44	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	45	Rotation	rotation	NN
work_kkta46aprvda3kxuww62zfddua	633	46	mech-	mech-	JJ
work_kkta46aprvda3kxuww62zfddua	633	47	anism	anism	NN
work_kkta46aprvda3kxuww62zfddua	633	48	of	of	IN
work_kkta46aprvda3kxuww62zfddua	633	49	Enterococcus	Enterococcus	NNP
work_kkta46aprvda3kxuww62zfddua	633	50	hirae	hirae	NN
work_kkta46aprvda3kxuww62zfddua	633	51	V1-ATPase	V1-ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	633	52	based	base	VBN
work_kkta46aprvda3kxuww62zfddua	633	53	on	on	IN
work_kkta46aprvda3kxuww62zfddua	633	54	asymmetric	asymmetric	JJ
work_kkta46aprvda3kxuww62zfddua	633	55	crystal	crystal	NN
work_kkta46aprvda3kxuww62zfddua	633	56	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	633	57	,	,	,
work_kkta46aprvda3kxuww62zfddua	633	58	Nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	633	59	493	493	CD
work_kkta46aprvda3kxuww62zfddua	633	60	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	633	61	2013	2013	CD
work_kkta46aprvda3kxuww62zfddua	633	62	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	633	63	703–707	703–707	CD
work_kkta46aprvda3kxuww62zfddua	633	64	.	.	.
work_kkta46aprvda3kxuww62zfddua	634	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	634	2	56	56	CD
work_kkta46aprvda3kxuww62zfddua	634	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	634	4	Ü.	Ü.	NNP
work_kkta46aprvda3kxuww62zfddua	634	5	Coskun	Coskun	NNP
work_kkta46aprvda3kxuww62zfddua	634	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	634	7	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	634	8	Radermacher	Radermacher	NNP
work_kkta46aprvda3kxuww62zfddua	634	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	634	10	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	634	11	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	634	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	634	13	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	634	14	Ruiz	Ruiz	NNP
work_kkta46aprvda3kxuww62zfddua	634	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	634	16	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	634	17	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	634	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	634	19	Three	Three	NNP
work_kkta46aprvda3kxuww62zfddua	634	20	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	634	21	dimensional	dimensional	JJ
work_kkta46aprvda3kxuww62zfddua	634	22	orga-	orga-	JJ
work_kkta46aprvda3kxuww62zfddua	634	23	nization	nization	NN
work_kkta46aprvda3kxuww62zfddua	634	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	634	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	634	26	archaeal	archaeal	NN
work_kkta46aprvda3kxuww62zfddua	634	27	A1-ATPase	A1-ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	634	28	from	from	IN
work_kkta46aprvda3kxuww62zfddua	634	29	Methanosarcina	Methanosarcina	NNP
work_kkta46aprvda3kxuww62zfddua	634	30	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	634	31	Gö1	Gö1	NNP
work_kkta46aprvda3kxuww62zfddua	634	32	,	,	,
work_kkta46aprvda3kxuww62zfddua	634	33	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	634	34	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	634	35	.	.	.
work_kkta46aprvda3kxuww62zfddua	635	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	635	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	636	1	279	279	CD
work_kkta46aprvda3kxuww62zfddua	636	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	636	3	2004	2004	CD
work_kkta46aprvda3kxuww62zfddua	636	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	636	5	22759–22764	22759–22764	CD
work_kkta46aprvda3kxuww62zfddua	636	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	637	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	637	2	57	57	CD
work_kkta46aprvda3kxuww62zfddua	637	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	637	4	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	637	5	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	637	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	637	7	D.I.	D.I.	NNP
work_kkta46aprvda3kxuww62zfddua	638	1	Svergun	Svergun	NNP
work_kkta46aprvda3kxuww62zfddua	638	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	638	3	Ü.	Ü.	NNP
work_kkta46aprvda3kxuww62zfddua	638	4	Coskun	Coskun	NNP
work_kkta46aprvda3kxuww62zfddua	638	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	638	6	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	638	7	Lemker	Lemker	NNP
work_kkta46aprvda3kxuww62zfddua	638	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	638	9	M.H.	M.H.	NNP
work_kkta46aprvda3kxuww62zfddua	639	1	Koch	Koch	NNP
work_kkta46aprvda3kxuww62zfddua	639	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	639	3	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	639	4	Schägger	Schägger	NNP
work_kkta46aprvda3kxuww62zfddua	639	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	639	6	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	639	7	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	639	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	639	9	Structural	Structural	NNP
work_kkta46aprvda3kxuww62zfddua	639	10	insights	insight	NNS
work_kkta46aprvda3kxuww62zfddua	639	11	into	into	IN
work_kkta46aprvda3kxuww62zfddua	639	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	639	13	A1	A1	NNP
work_kkta46aprvda3kxuww62zfddua	639	14	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	639	15	from	from	IN
work_kkta46aprvda3kxuww62zfddua	639	16	the	the	DT
work_kkta46aprvda3kxuww62zfddua	639	17	archaeon	archaeon	NN
work_kkta46aprvda3kxuww62zfddua	639	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	639	19	Methanosarcina	Methanosarcina	NNP
work_kkta46aprvda3kxuww62zfddua	639	20	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	639	21	Gö1	Gö1	NNS
work_kkta46aprvda3kxuww62zfddua	639	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	639	23	Biochemistry	Biochemistry	NNP
work_kkta46aprvda3kxuww62zfddua	639	24	40	40	CD
work_kkta46aprvda3kxuww62zfddua	639	25	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	639	26	2001	2001	CD
work_kkta46aprvda3kxuww62zfddua	639	27	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	639	28	1890–1896	1890–1896	CD
work_kkta46aprvda3kxuww62zfddua	639	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	640	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	640	2	58	58	CD
work_kkta46aprvda3kxuww62zfddua	640	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	640	4	Ü.	Ü.	NNP
work_kkta46aprvda3kxuww62zfddua	640	5	Coskun	Coskun	NNP
work_kkta46aprvda3kxuww62zfddua	640	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	640	7	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	640	8	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	640	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	640	10	M.H.	M.H.	NNP
work_kkta46aprvda3kxuww62zfddua	641	1	Koch	Koch	NNP
work_kkta46aprvda3kxuww62zfddua	641	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	641	3	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	641	4	Godovac	Godovac	NNP
work_kkta46aprvda3kxuww62zfddua	641	5	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	641	6	Zimmermann	Zimmermann	NNP
work_kkta46aprvda3kxuww62zfddua	641	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	641	8	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	641	9	Lemker	Lemker	NNP
work_kkta46aprvda3kxuww62zfddua	641	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	641	11	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	641	12	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	641	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	641	14	Cross	cross	NN
work_kkta46aprvda3kxuww62zfddua	641	15	-	-	NN
work_kkta46aprvda3kxuww62zfddua	641	16	talk	talk	NN
work_kkta46aprvda3kxuww62zfddua	641	17	in	in	IN
work_kkta46aprvda3kxuww62zfddua	641	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	641	19	A1-ATPase	A1-ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	641	20	from	from	IN
work_kkta46aprvda3kxuww62zfddua	641	21	Methanosarcina	Methanosarcina	NNP
work_kkta46aprvda3kxuww62zfddua	641	22	mazei	mazei	NNP
work_kkta46aprvda3kxuww62zfddua	641	23	Gö1	Gö1	NNP
work_kkta46aprvda3kxuww62zfddua	641	24	due	due	IN
work_kkta46aprvda3kxuww62zfddua	641	25	to	to	IN
work_kkta46aprvda3kxuww62zfddua	641	26	nucleotide-	nucleotide-	RB
work_kkta46aprvda3kxuww62zfddua	641	27	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	641	28	,	,	,
work_kkta46aprvda3kxuww62zfddua	641	29	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	641	30	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	641	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	642	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	642	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	643	1	277	277	CD
work_kkta46aprvda3kxuww62zfddua	643	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	643	3	2002	2002	CD
work_kkta46aprvda3kxuww62zfddua	643	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	643	5	17327–17333	17327–17333	CD
work_kkta46aprvda3kxuww62zfddua	643	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	644	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	644	2	59	59	CD
work_kkta46aprvda3kxuww62zfddua	644	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	644	4	I.	I.	NNP
work_kkta46aprvda3kxuww62zfddua	644	5	Schäfer	Schäfer	NNP
work_kkta46aprvda3kxuww62zfddua	644	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	644	7	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	644	8	Rössle	Rössle	NNP
work_kkta46aprvda3kxuww62zfddua	644	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	644	10	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	644	11	Biukovic	Biukovic	NNP
work_kkta46aprvda3kxuww62zfddua	644	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	644	13	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	644	14	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	644	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	644	16	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	644	17	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	644	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	644	19	Structural	Structural	NNP
work_kkta46aprvda3kxuww62zfddua	644	20	and	and	CC
work_kkta46aprvda3kxuww62zfddua	644	21	functional	functional	JJ
work_kkta46aprvda3kxuww62zfddua	644	22	analysis	analysis	NN
work_kkta46aprvda3kxuww62zfddua	644	23	of	of	IN
work_kkta46aprvda3kxuww62zfddua	644	24	the	the	DT
work_kkta46aprvda3kxuww62zfddua	644	25	coupling	couple	VBG
work_kkta46aprvda3kxuww62zfddua	644	26	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	644	27	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	644	28	in	in	IN
work_kkta46aprvda3kxuww62zfddua	644	29	solution	solution	NN
work_kkta46aprvda3kxuww62zfddua	644	30	and	and	CC
work_kkta46aprvda3kxuww62zfddua	644	31	topological	topological	JJ
work_kkta46aprvda3kxuww62zfddua	644	32	arrangement	arrangement	NN
work_kkta46aprvda3kxuww62zfddua	644	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	644	34	the	the	DT
work_kkta46aprvda3kxuww62zfddua	644	35	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	644	36	domains	domain	NNS
work_kkta46aprvda3kxuww62zfddua	644	37	of	of	IN
work_kkta46aprvda3kxuww62zfddua	644	38	the	the	DT
work_kkta46aprvda3kxuww62zfddua	644	39	methanogenic	methanogenic	JJ
work_kkta46aprvda3kxuww62zfddua	644	40	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	644	41	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	644	42	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	644	43	,	,	,
work_kkta46aprvda3kxuww62zfddua	644	44	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	644	45	Bioenerg	Bioenerg	NNP
work_kkta46aprvda3kxuww62zfddua	644	46	.	.	.
work_kkta46aprvda3kxuww62zfddua	645	1	Biomembr	Biomembr	NNP
work_kkta46aprvda3kxuww62zfddua	645	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	646	1	38	38	CD
work_kkta46aprvda3kxuww62zfddua	646	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	646	3	2006	2006	CD
work_kkta46aprvda3kxuww62zfddua	646	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	646	5	83–92	83–92	NN
work_kkta46aprvda3kxuww62zfddua	646	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	647	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	647	2	60	60	CD
work_kkta46aprvda3kxuww62zfddua	647	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	647	4	J.P.	J.P.	NNP
work_kkta46aprvda3kxuww62zfddua	647	5	Abrahams	Abrahams	NNP
work_kkta46aprvda3kxuww62zfddua	647	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	647	7	A.G.W.	A.G.W.	NNP
work_kkta46aprvda3kxuww62zfddua	648	1	Leslie	Leslie	NNP
work_kkta46aprvda3kxuww62zfddua	648	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	648	3	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	648	4	Lutter	Lutter	NNP
work_kkta46aprvda3kxuww62zfddua	648	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	648	6	J.E.	J.E.	NNP
work_kkta46aprvda3kxuww62zfddua	649	1	Walker	Walker	NNP
work_kkta46aprvda3kxuww62zfddua	649	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	649	3	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	649	4	at	at	IN
work_kkta46aprvda3kxuww62zfddua	649	5	2.8	2.8	CD
work_kkta46aprvda3kxuww62zfddua	649	6	Å	å	NN
work_kkta46aprvda3kxuww62zfddua	649	7	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	649	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	649	9	F1-ATPase	F1-ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	649	10	from	from	IN
work_kkta46aprvda3kxuww62zfddua	649	11	bovine	bovine	JJ
work_kkta46aprvda3kxuww62zfddua	649	12	heart	heart	NN
work_kkta46aprvda3kxuww62zfddua	649	13	mitochondria	mitochondrion	NNS
work_kkta46aprvda3kxuww62zfddua	649	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	649	15	Nature	nature	NN
work_kkta46aprvda3kxuww62zfddua	649	16	370	370	CD
work_kkta46aprvda3kxuww62zfddua	649	17	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	649	18	1994	1994	CD
work_kkta46aprvda3kxuww62zfddua	649	19	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	649	20	621–628	621–628	CD
work_kkta46aprvda3kxuww62zfddua	649	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	650	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	650	2	61	61	CD
work_kkta46aprvda3kxuww62zfddua	650	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	650	4	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	650	5	Wilkens	Wilkens	NNP
work_kkta46aprvda3kxuww62zfddua	650	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	650	7	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	650	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	650	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	650	10	vacuolar	vacuolar	JJ
work_kkta46aprvda3kxuww62zfddua	650	11	adenosine	adenosine	NN
work_kkta46aprvda3kxuww62zfddua	650	12	triphosphatases	triphosphatase	NNS
work_kkta46aprvda3kxuww62zfddua	650	13	,	,	,
work_kkta46aprvda3kxuww62zfddua	650	14	Cell	Cell	NNP
work_kkta46aprvda3kxuww62zfddua	650	15	Biochem	Biochem	NNP
work_kkta46aprvda3kxuww62zfddua	650	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	651	1	Biophys	Biophys	NNP
work_kkta46aprvda3kxuww62zfddua	651	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	652	1	34	34	CD
work_kkta46aprvda3kxuww62zfddua	652	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	652	3	2001	2001	CD
work_kkta46aprvda3kxuww62zfddua	652	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	652	5	191–208	191–208	CD
work_kkta46aprvda3kxuww62zfddua	652	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	653	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	653	2	62	62	CD
work_kkta46aprvda3kxuww62zfddua	653	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	653	4	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	653	5	Radermacher	Radermacher	NNP
work_kkta46aprvda3kxuww62zfddua	653	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	653	7	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	653	8	Ruiz	Ruiz	NNP
work_kkta46aprvda3kxuww62zfddua	653	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	653	10	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	653	11	Wieczorek	Wieczorek	NNP
work_kkta46aprvda3kxuww62zfddua	653	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	653	13	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	653	14	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	653	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	653	16	The	the	DT
work_kkta46aprvda3kxuww62zfddua	653	17	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	653	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	653	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	653	20	V1-ATPase	v1-atpase	NN
work_kkta46aprvda3kxuww62zfddua	653	21	determined	determine	VBN
work_kkta46aprvda3kxuww62zfddua	653	22	by	by	IN
work_kkta46aprvda3kxuww62zfddua	653	23	three	three	CD
work_kkta46aprvda3kxuww62zfddua	653	24	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	653	25	dimensional	dimensional	JJ
work_kkta46aprvda3kxuww62zfddua	653	26	electron	electron	NN
work_kkta46aprvda3kxuww62zfddua	653	27	microscopy	microscopy	JJ
work_kkta46aprvda3kxuww62zfddua	653	28	of	of	IN
work_kkta46aprvda3kxuww62zfddua	653	29	single	single	JJ
work_kkta46aprvda3kxuww62zfddua	653	30	particles	particle	NNS
work_kkta46aprvda3kxuww62zfddua	653	31	,	,	,
work_kkta46aprvda3kxuww62zfddua	653	32	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	653	33	Struct	Struct	NNP
work_kkta46aprvda3kxuww62zfddua	653	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	654	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	654	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	655	1	135	135	CD
work_kkta46aprvda3kxuww62zfddua	655	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	655	3	2001	2001	CD
work_kkta46aprvda3kxuww62zfddua	655	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	655	5	26–37	26–37	CD
work_kkta46aprvda3kxuww62zfddua	655	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	656	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	656	2	63	63	CD
work_kkta46aprvda3kxuww62zfddua	656	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	656	4	L.S.	L.S.	NNP
work_kkta46aprvda3kxuww62zfddua	657	1	Holliday	Holliday	NNP
work_kkta46aprvda3kxuww62zfddua	657	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	657	3	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	657	4	Lu	Lu	NNP
work_kkta46aprvda3kxuww62zfddua	657	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	657	6	B.S.	B.S.	NNP
work_kkta46aprvda3kxuww62zfddua	658	1	Lee	Lee	NNP
work_kkta46aprvda3kxuww62zfddua	658	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	658	3	R.D.	R.D.	NNP
work_kkta46aprvda3kxuww62zfddua	659	1	Nelson	Nelson	NNP
work_kkta46aprvda3kxuww62zfddua	659	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	659	3	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	659	4	Solivan	Solivan	NNP
work_kkta46aprvda3kxuww62zfddua	659	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	659	6	L.	L.	NNP
work_kkta46aprvda3kxuww62zfddua	659	7	Zhang	Zhang	NNP
work_kkta46aprvda3kxuww62zfddua	659	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	659	9	S.L.	S.L.	NNP
work_kkta46aprvda3kxuww62zfddua	660	1	Gluck	Gluck	NNP
work_kkta46aprvda3kxuww62zfddua	660	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	660	3	The	the	DT
work_kkta46aprvda3kxuww62zfddua	660	4	amino-	amino-	NN
work_kkta46aprvda3kxuww62zfddua	660	5	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	660	6	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	660	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	660	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	660	9	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	660	10	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	660	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	660	12	vacuolar	vacuolar	JJ
work_kkta46aprvda3kxuww62zfddua	660	13	H+-ATPase	h+-atpase	PRP
work_kkta46aprvda3kxuww62zfddua	660	14	contains	contain	VBZ
work_kkta46aprvda3kxuww62zfddua	660	15	a	a	DT
work_kkta46aprvda3kxuww62zfddua	660	16	filamentous	filamentous	JJ
work_kkta46aprvda3kxuww62zfddua	660	17	actin	actin	JJ
work_kkta46aprvda3kxuww62zfddua	660	18	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	660	19	site	site	NN
work_kkta46aprvda3kxuww62zfddua	660	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	660	21	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	660	22	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	660	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	661	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	661	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	662	1	275	275	CD
work_kkta46aprvda3kxuww62zfddua	662	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	662	3	2000	2000	CD
work_kkta46aprvda3kxuww62zfddua	662	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	662	5	32331–32337	32331–32337	CD
work_kkta46aprvda3kxuww62zfddua	662	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	663	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	663	2	64	64	CD
work_kkta46aprvda3kxuww62zfddua	663	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	663	4	M.S.	M.S.	NNP
work_kkta46aprvda3kxuww62zfddua	664	1	Manimekalai	Manimekalai	NNP
work_kkta46aprvda3kxuww62zfddua	664	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	664	3	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	664	4	Kumar	Kumar	NNP
work_kkta46aprvda3kxuww62zfddua	664	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	664	6	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	664	7	Jeyakanthan	Jeyakanthan	NNP
work_kkta46aprvda3kxuww62zfddua	664	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	664	9	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	664	10	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	664	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	664	12	The	the	DT
work_kkta46aprvda3kxuww62zfddua	664	13	transition	transition	NN
work_kkta46aprvda3kxuww62zfddua	664	14	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	664	15	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	664	16	state	state	NN
work_kkta46aprvda3kxuww62zfddua	664	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	664	18	Pi	pi	IN
work_kkta46aprvda3kxuww62zfddua	664	19	entrance	entrance	NN
work_kkta46aprvda3kxuww62zfddua	664	20	into	into	IN
work_kkta46aprvda3kxuww62zfddua	664	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	664	22	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	664	23	A	a	DT
work_kkta46aprvda3kxuww62zfddua	664	24	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	664	25	of	of	IN
work_kkta46aprvda3kxuww62zfddua	664	26	the	the	DT
work_kkta46aprvda3kxuww62zfddua	664	27	biological	biological	JJ
work_kkta46aprvda3kxuww62zfddua	664	28	engine	engine	NN
work_kkta46aprvda3kxuww62zfddua	664	29	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	664	30	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	664	31	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	664	32	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	664	33	,	,	,
work_kkta46aprvda3kxuww62zfddua	664	34	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	664	35	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	664	36	.	.	.
work_kkta46aprvda3kxuww62zfddua	665	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	665	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	666	1	408	408	CD
work_kkta46aprvda3kxuww62zfddua	666	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	666	3	2011	2011	CD
work_kkta46aprvda3kxuww62zfddua	666	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	666	5	736–754	736–754	CD
work_kkta46aprvda3kxuww62zfddua	666	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	667	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	667	2	65	65	CD
work_kkta46aprvda3kxuww62zfddua	667	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	667	4	K.Y.	K.Y.	NNP
work_kkta46aprvda3kxuww62zfddua	668	1	Pisa	Pisa	NNP
work_kkta46aprvda3kxuww62zfddua	668	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	668	3	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	668	4	Huber	Huber	NNP
work_kkta46aprvda3kxuww62zfddua	668	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	668	6	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	668	7	Thomm	Thomm	NNP
work_kkta46aprvda3kxuww62zfddua	668	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	668	9	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	668	10	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	668	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	668	12	A	a	DT
work_kkta46aprvda3kxuww62zfddua	668	13	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	668	14	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	668	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	668	16	dependent	dependent	JJ
work_kkta46aprvda3kxuww62zfddua	668	17	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	668	18	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	668	19	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	668	20	from	from	IN
work_kkta46aprvda3kxuww62zfddua	668	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	668	22	hyperthermophilic	hyperthermophilic	JJ
work_kkta46aprvda3kxuww62zfddua	668	23	archaeon	archaeon	NN
work_kkta46aprvda3kxuww62zfddua	668	24	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	668	25	furiosus	furiosus	NN
work_kkta46aprvda3kxuww62zfddua	668	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	668	27	FEBS	FEBS	NNP
work_kkta46aprvda3kxuww62zfddua	668	28	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	669	1	274	274	CD
work_kkta46aprvda3kxuww62zfddua	669	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	669	3	2007	2007	CD
work_kkta46aprvda3kxuww62zfddua	669	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	669	5	3928–3938	3928–3938	CD
work_kkta46aprvda3kxuww62zfddua	669	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	670	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	670	2	66	66	CD
work_kkta46aprvda3kxuww62zfddua	670	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	670	4	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	670	5	Chen	Chen	NNP
work_kkta46aprvda3kxuww62zfddua	670	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	670	7	A.K.	A.K.	NNP
work_kkta46aprvda3kxuww62zfddua	671	1	Saxena	Saxena	NNP
work_kkta46aprvda3kxuww62zfddua	671	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	671	3	W.N.	W.N.	NNP
work_kkta46aprvda3kxuww62zfddua	672	1	Simcoke	Simcoke	NNP
work_kkta46aprvda3kxuww62zfddua	672	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	672	3	D.N.	D.N.	NNP
work_kkta46aprvda3kxuww62zfddua	673	1	Garboczi	Garboczi	NNP
work_kkta46aprvda3kxuww62zfddua	673	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	673	3	P.L.	P.L.	NNP
work_kkta46aprvda3kxuww62zfddua	674	1	Pedersen	Pedersen	NNP
work_kkta46aprvda3kxuww62zfddua	674	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	674	3	Y.H.	Y.H.	NNP
work_kkta46aprvda3kxuww62zfddua	675	1	Ko	Ko	NNP
work_kkta46aprvda3kxuww62zfddua	675	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	675	3	Mitochondrial	Mitochondrial	NNP
work_kkta46aprvda3kxuww62zfddua	675	4	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	675	5	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	675	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	676	1	Crystal	crystal	JJ
work_kkta46aprvda3kxuww62zfddua	676	2	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	676	3	of	of	IN
work_kkta46aprvda3kxuww62zfddua	676	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	676	5	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	676	6	F1	F1	NNP
work_kkta46aprvda3kxuww62zfddua	676	7	unit	unit	NN
work_kkta46aprvda3kxuww62zfddua	676	8	in	in	IN
work_kkta46aprvda3kxuww62zfddua	676	9	a	a	DT
work_kkta46aprvda3kxuww62zfddua	676	10	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	676	11	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	676	12	induced	induce	VBN
work_kkta46aprvda3kxuww62zfddua	676	13	transition	transition	NN
work_kkta46aprvda3kxuww62zfddua	676	14	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	676	15	like	like	JJ
work_kkta46aprvda3kxuww62zfddua	676	16	state	state	NN
work_kkta46aprvda3kxuww62zfddua	676	17	and	and	CC
work_kkta46aprvda3kxuww62zfddua	676	18	implications	implication	NNS
work_kkta46aprvda3kxuww62zfddua	676	19	for	for	IN
work_kkta46aprvda3kxuww62zfddua	676	20	mechanism	mechanism	NN
work_kkta46aprvda3kxuww62zfddua	676	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	676	22	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	676	23	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	676	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	677	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	677	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	678	1	281	281	CD
work_kkta46aprvda3kxuww62zfddua	678	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	678	3	2006	2006	CD
work_kkta46aprvda3kxuww62zfddua	678	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	678	5	13777–13783	13777–13783	CD
work_kkta46aprvda3kxuww62zfddua	678	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	679	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	679	2	67	67	CD
work_kkta46aprvda3kxuww62zfddua	679	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	679	4	C.A.	C.A.	NNP
work_kkta46aprvda3kxuww62zfddua	680	1	Smith	Smith	NNP
work_kkta46aprvda3kxuww62zfddua	680	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	680	3	I.	I.	NNP
work_kkta46aprvda3kxuww62zfddua	680	4	Rayment	Rayment	NNP
work_kkta46aprvda3kxuww62zfddua	680	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	680	6	X	x	NN
work_kkta46aprvda3kxuww62zfddua	680	7	-	-	NN
work_kkta46aprvda3kxuww62zfddua	680	8	ray	ray	NN
work_kkta46aprvda3kxuww62zfddua	680	9	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	680	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	680	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	680	12	magnesium(II)-ADP	magnesium(ii)-adp	CD
work_kkta46aprvda3kxuww62zfddua	680	13	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	680	14	vanadate	vanadate	NN
work_kkta46aprvda3kxuww62zfddua	680	15	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	680	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	680	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	680	18	Dictyostelium	Dictyostelium	NNP
work_kkta46aprvda3kxuww62zfddua	680	19	discoideum	discoideum	NN
work_kkta46aprvda3kxuww62zfddua	680	20	myosin	myosin	NN
work_kkta46aprvda3kxuww62zfddua	680	21	motor	motor	NN
work_kkta46aprvda3kxuww62zfddua	680	22	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	680	23	to	to	IN
work_kkta46aprvda3kxuww62zfddua	680	24	1.9	1.9	CD
work_kkta46aprvda3kxuww62zfddua	680	25	Å	å	NN
work_kkta46aprvda3kxuww62zfddua	680	26	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	680	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	680	28	Biochemistry	Biochemistry	NNP
work_kkta46aprvda3kxuww62zfddua	680	29	35	35	CD
work_kkta46aprvda3kxuww62zfddua	680	30	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	680	31	1996	1996	CD
work_kkta46aprvda3kxuww62zfddua	680	32	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	680	33	5404–5417	5404–5417	CD
work_kkta46aprvda3kxuww62zfddua	680	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	681	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	681	2	68	68	CD
work_kkta46aprvda3kxuww62zfddua	681	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	681	4	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	681	5	Kumar	Kumar	NNP
work_kkta46aprvda3kxuww62zfddua	681	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	681	7	M.S.	M.S.	NNP
work_kkta46aprvda3kxuww62zfddua	682	1	Manimekalai	Manimekalai	NNP
work_kkta46aprvda3kxuww62zfddua	682	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	682	3	A.M.	A.M.	NNP
work_kkta46aprvda3kxuww62zfddua	682	4	Balakrishna	Balakrishna	NNP
work_kkta46aprvda3kxuww62zfddua	682	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	682	6	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	682	7	Hunke	Hunke	NNP
work_kkta46aprvda3kxuww62zfddua	682	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	682	9	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	682	10	Weigelt	Weigelt	NNP
work_kkta46aprvda3kxuww62zfddua	682	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	682	12	N.	N.	NNP
work_kkta46aprvda3kxuww62zfddua	682	13	Sewald	Sewald	NNP
work_kkta46aprvda3kxuww62zfddua	682	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	682	15	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	682	16	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	682	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	682	18	Spectroscopic	Spectroscopic	NNP
work_kkta46aprvda3kxuww62zfddua	682	19	and	and	CC
work_kkta46aprvda3kxuww62zfddua	682	20	crystallographic	crystallographic	JJ
work_kkta46aprvda3kxuww62zfddua	682	21	studies	study	NNS
work_kkta46aprvda3kxuww62zfddua	682	22	of	of	IN
work_kkta46aprvda3kxuww62zfddua	682	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	682	24	mutant	mutant	NN
work_kkta46aprvda3kxuww62zfddua	682	25	R416W	r416w	CD
work_kkta46aprvda3kxuww62zfddua	682	26	give	give	VBP
work_kkta46aprvda3kxuww62zfddua	682	27	insight	insight	NN
work_kkta46aprvda3kxuww62zfddua	682	28	into	into	IN
work_kkta46aprvda3kxuww62zfddua	682	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	682	30	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	682	31	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	682	32	traits	trait	NNS
work_kkta46aprvda3kxuww62zfddua	682	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	682	34	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	682	35	B	b	NN
work_kkta46aprvda3kxuww62zfddua	682	36	of	of	IN
work_kkta46aprvda3kxuww62zfddua	682	37	the	the	DT
work_kkta46aprvda3kxuww62zfddua	682	38	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	682	39	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	682	40	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	682	41	,	,	,
work_kkta46aprvda3kxuww62zfddua	682	42	Proteins	Proteins	NNP
work_kkta46aprvda3kxuww62zfddua	682	43	75	75	CD
work_kkta46aprvda3kxuww62zfddua	682	44	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	682	45	2009	2009	CD
work_kkta46aprvda3kxuww62zfddua	682	46	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	682	47	807–819	807–819	CD
work_kkta46aprvda3kxuww62zfddua	682	48	.	.	.
work_kkta46aprvda3kxuww62zfddua	683	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	683	2	69	69	CD
work_kkta46aprvda3kxuww62zfddua	683	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	683	4	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	683	5	Watanabe	Watanabe	NNP
work_kkta46aprvda3kxuww62zfddua	683	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	683	7	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	683	8	Iino	Iino	NNP
work_kkta46aprvda3kxuww62zfddua	683	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	683	10	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	683	11	Noji	Noji	NNP
work_kkta46aprvda3kxuww62zfddua	683	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	683	13	Phosphate	Phosphate	NNP
work_kkta46aprvda3kxuww62zfddua	683	14	release	release	NN
work_kkta46aprvda3kxuww62zfddua	683	15	in	in	IN
work_kkta46aprvda3kxuww62zfddua	683	16	F1-ATPase	F1-ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	683	17	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	683	18	cycle	cycle	NN
work_kkta46aprvda3kxuww62zfddua	683	19	follows	follow	VBZ
work_kkta46aprvda3kxuww62zfddua	683	20	ADP	adp	NN
work_kkta46aprvda3kxuww62zfddua	683	21	release	release	NN
work_kkta46aprvda3kxuww62zfddua	683	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	683	23	Nat	Nat	NNP
work_kkta46aprvda3kxuww62zfddua	683	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	684	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	684	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	685	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	685	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	686	1	6	6	CD
work_kkta46aprvda3kxuww62zfddua	686	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	686	3	2010	2010	CD
work_kkta46aprvda3kxuww62zfddua	686	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	686	5	814–820	814–820	CD
work_kkta46aprvda3kxuww62zfddua	686	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	687	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	687	2	70	70	CD
work_kkta46aprvda3kxuww62zfddua	687	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	687	4	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	687	5	Kumar	Kumar	NNP
work_kkta46aprvda3kxuww62zfddua	687	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	687	7	M.S.	M.S.	NNP
work_kkta46aprvda3kxuww62zfddua	688	1	Manimekalai	Manimekalai	NNP
work_kkta46aprvda3kxuww62zfddua	688	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	688	3	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	688	4	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	688	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	688	6	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	688	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	688	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	688	9	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	688	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	688	11	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	688	12	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	688	13	B	b	NN
work_kkta46aprvda3kxuww62zfddua	688	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	688	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	688	16	energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	688	17	producer	producer	NN
work_kkta46aprvda3kxuww62zfddua	688	18	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	688	19	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	688	20	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	688	21	in	in	IN
work_kkta46aprvda3kxuww62zfddua	688	22	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	688	23	with	with	IN
work_kkta46aprvda3kxuww62zfddua	688	24	adeno-	adeno-	XX
work_kkta46aprvda3kxuww62zfddua	688	25	sine	sine	JJ
work_kkta46aprvda3kxuww62zfddua	688	26	diphosphate	diphosphate	NN
work_kkta46aprvda3kxuww62zfddua	688	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	688	28	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	688	29	Crystallogr	Crystallogr	NNP
work_kkta46aprvda3kxuww62zfddua	688	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	689	1	D	D	NNP
work_kkta46aprvda3kxuww62zfddua	689	2	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	689	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	690	1	Crystallogr	Crystallogr	NNP
work_kkta46aprvda3kxuww62zfddua	690	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	691	1	64	64	CD
work_kkta46aprvda3kxuww62zfddua	691	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	691	3	2008	2008	CD
work_kkta46aprvda3kxuww62zfddua	691	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	691	5	1110–1115	1110–1115	CD
work_kkta46aprvda3kxuww62zfddua	691	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	692	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	692	2	71	71	CD
work_kkta46aprvda3kxuww62zfddua	692	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	692	4	M.S.	M.S.	NNP
work_kkta46aprvda3kxuww62zfddua	693	1	Manimekalai	Manimekalai	NNP
work_kkta46aprvda3kxuww62zfddua	693	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	693	3	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	693	4	Kumar	Kumar	NNP
work_kkta46aprvda3kxuww62zfddua	693	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	693	6	A.M.	A.M.	NNP
work_kkta46aprvda3kxuww62zfddua	693	7	Balakrishna	Balakrishna	NNP
work_kkta46aprvda3kxuww62zfddua	693	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	693	9	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	693	10	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	693	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	693	12	A	a	DT
work_kkta46aprvda3kxuww62zfddua	693	13	second	second	JJ
work_kkta46aprvda3kxuww62zfddua	693	14	transient	transient	JJ
work_kkta46aprvda3kxuww62zfddua	693	15	position	position	NN
work_kkta46aprvda3kxuww62zfddua	693	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	693	17	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	693	18	on	on	IN
work_kkta46aprvda3kxuww62zfddua	693	19	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	693	20	trail	trail	NN
work_kkta46aprvda3kxuww62zfddua	693	21	to	to	IN
work_kkta46aprvda3kxuww62zfddua	693	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	693	23	nucleotide	nucleotide	RB
work_kkta46aprvda3kxuww62zfddua	693	24	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	693	25	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	693	26	site	site	NN
work_kkta46aprvda3kxuww62zfddua	693	27	of	of	IN
work_kkta46aprvda3kxuww62zfddua	693	28	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	693	29	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	693	30	of	of	IN
work_kkta46aprvda3kxuww62zfddua	693	31	the	the	DT
work_kkta46aprvda3kxuww62zfddua	693	32	motor	motor	NN
work_kkta46aprvda3kxuww62zfddua	693	33	protein	protein	NN
work_kkta46aprvda3kxuww62zfddua	693	34	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	693	35	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	693	36	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	693	37	,	,	,
work_kkta46aprvda3kxuww62zfddua	693	38	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	693	39	Struct	Struct	NNP
work_kkta46aprvda3kxuww62zfddua	693	40	.	.	.
work_kkta46aprvda3kxuww62zfddua	694	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	694	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	695	1	166	166	CD
work_kkta46aprvda3kxuww62zfddua	695	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	695	3	2009	2009	CD
work_kkta46aprvda3kxuww62zfddua	695	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	695	5	38–45	38–45	CD
work_kkta46aprvda3kxuww62zfddua	695	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	696	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	696	2	72	72	CD
work_kkta46aprvda3kxuww62zfddua	696	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	696	4	J.P.	J.P.	NNP
work_kkta46aprvda3kxuww62zfddua	696	5	Abrahams	Abrahams	NNP
work_kkta46aprvda3kxuww62zfddua	696	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	696	7	S.K.	S.K.	NNP
work_kkta46aprvda3kxuww62zfddua	697	1	Buchanan	Buchanan	NNP
work_kkta46aprvda3kxuww62zfddua	697	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	697	3	M.J.	M.J.	NNP
work_kkta46aprvda3kxuww62zfddua	697	4	Vanraaij	Vanraaij	NNP
work_kkta46aprvda3kxuww62zfddua	697	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	697	6	I.M.	I.M.	NNP
work_kkta46aprvda3kxuww62zfddua	698	1	Fearnley	Fearnley	NNP
work_kkta46aprvda3kxuww62zfddua	698	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	698	3	A.G.W.	A.G.W.	NNP
work_kkta46aprvda3kxuww62zfddua	699	1	Leslie	Leslie	NNP
work_kkta46aprvda3kxuww62zfddua	699	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	699	3	J.E.	J.E.	NNP
work_kkta46aprvda3kxuww62zfddua	700	1	Walker	Walker	NNP
work_kkta46aprvda3kxuww62zfddua	700	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	700	3	The	the	DT
work_kkta46aprvda3kxuww62zfddua	700	4	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	700	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	700	6	bovine	bovine	JJ
work_kkta46aprvda3kxuww62zfddua	700	7	F1-ATPase	f1-atpase	NN
work_kkta46aprvda3kxuww62zfddua	700	8	complexed	complexe	VBN
work_kkta46aprvda3kxuww62zfddua	700	9	with	with	IN
work_kkta46aprvda3kxuww62zfddua	700	10	the	the	DT
work_kkta46aprvda3kxuww62zfddua	700	11	peptide	peptide	JJ
work_kkta46aprvda3kxuww62zfddua	700	12	antibiotic	antibiotic	JJ
work_kkta46aprvda3kxuww62zfddua	700	13	efrapeptin	efrapeptin	NN
work_kkta46aprvda3kxuww62zfddua	700	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	700	15	Proc	Proc	NNP
work_kkta46aprvda3kxuww62zfddua	700	16	.	.	.
work_kkta46aprvda3kxuww62zfddua	701	1	Natl	Natl	NNP
work_kkta46aprvda3kxuww62zfddua	701	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	702	1	Acad	Acad	NNS
work_kkta46aprvda3kxuww62zfddua	702	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	703	1	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	703	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	704	1	U.	U.	NNP
work_kkta46aprvda3kxuww62zfddua	704	2	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	704	3	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	705	1	93	93	CD
work_kkta46aprvda3kxuww62zfddua	705	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	705	3	1996	1996	CD
work_kkta46aprvda3kxuww62zfddua	705	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	705	5	9420–9424	9420–9424	CD
work_kkta46aprvda3kxuww62zfddua	705	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	706	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	706	2	73	73	CD
work_kkta46aprvda3kxuww62zfddua	706	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	706	4	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	706	5	Ibuki	Ibuki	NNP
work_kkta46aprvda3kxuww62zfddua	706	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	706	7	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	706	8	Imada	Imada	NNP
work_kkta46aprvda3kxuww62zfddua	706	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	706	10	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	706	11	Minamino	Minamino	NNP
work_kkta46aprvda3kxuww62zfddua	706	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	706	13	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	706	14	Kato	Kato	NNP
work_kkta46aprvda3kxuww62zfddua	706	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	706	16	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	706	17	Miyata	Miyata	NNP
work_kkta46aprvda3kxuww62zfddua	706	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	706	19	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	706	20	Namba	Namba	NNP
work_kkta46aprvda3kxuww62zfddua	706	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	706	22	Common	common	JJ
work_kkta46aprvda3kxuww62zfddua	706	23	architecture	architecture	NN
work_kkta46aprvda3kxuww62zfddua	706	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	706	25	the	the	DT
work_kkta46aprvda3kxuww62zfddua	706	26	flagellar	flagellar	JJ
work_kkta46aprvda3kxuww62zfddua	706	27	type	type	NN
work_kkta46aprvda3kxuww62zfddua	706	28	III	III	NNP
work_kkta46aprvda3kxuww62zfddua	706	29	protein	protein	NN
work_kkta46aprvda3kxuww62zfddua	706	30	export	export	NN
work_kkta46aprvda3kxuww62zfddua	706	31	apparatus	apparatus	NN
work_kkta46aprvda3kxuww62zfddua	706	32	and	and	CC
work_kkta46aprvda3kxuww62zfddua	706	33	F-	F-	NNP
work_kkta46aprvda3kxuww62zfddua	706	34	and	and	CC
work_kkta46aprvda3kxuww62zfddua	706	35	V	v	NN
work_kkta46aprvda3kxuww62zfddua	706	36	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	706	37	type	type	NN
work_kkta46aprvda3kxuww62zfddua	706	38	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	706	39	,	,	,
work_kkta46aprvda3kxuww62zfddua	706	40	Nat	Nat	NNP
work_kkta46aprvda3kxuww62zfddua	706	41	.	.	.
work_kkta46aprvda3kxuww62zfddua	707	1	Struct	struct	NN
work_kkta46aprvda3kxuww62zfddua	707	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	708	1	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	708	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	709	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	709	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	710	1	18	18	CD
work_kkta46aprvda3kxuww62zfddua	710	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	710	3	2011	2011	CD
work_kkta46aprvda3kxuww62zfddua	710	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	710	5	277–282	277–282	CD
work_kkta46aprvda3kxuww62zfddua	710	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	711	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	711	2	74	74	CD
work_kkta46aprvda3kxuww62zfddua	711	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	711	4	Y.	Y.	NNP
work_kkta46aprvda3kxuww62zfddua	711	5	Minagawa	Minagawa	NNP
work_kkta46aprvda3kxuww62zfddua	711	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	7	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	711	8	Ueno	Ueno	NNP
work_kkta46aprvda3kxuww62zfddua	711	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	10	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	711	11	Hara	Hara	NNP
work_kkta46aprvda3kxuww62zfddua	711	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	13	Y.	Y.	NNP
work_kkta46aprvda3kxuww62zfddua	711	14	Ishizuka	Ishizuka	NNP
work_kkta46aprvda3kxuww62zfddua	711	15	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	711	16	Katsura	Katsura	NNP
work_kkta46aprvda3kxuww62zfddua	711	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	18	N.	N.	NNP
work_kkta46aprvda3kxuww62zfddua	711	19	Ohsawa	Ohsawa	NNP
work_kkta46aprvda3kxuww62zfddua	711	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	21	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	711	22	Terada	Terada	NNP
work_kkta46aprvda3kxuww62zfddua	711	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	24	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	711	25	Shirouzu	Shirouzu	NNP
work_kkta46aprvda3kxuww62zfddua	711	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	27	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	711	28	Yokoyama	Yokoyama	NNP
work_kkta46aprvda3kxuww62zfddua	711	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	30	I.	I.	NNP
work_kkta46aprvda3kxuww62zfddua	711	31	Yamato	Yamato	NNP
work_kkta46aprvda3kxuww62zfddua	711	32	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	33	E.	E.	NNP
work_kkta46aprvda3kxuww62zfddua	711	34	Muneyuki	Muneyuki	NNP
work_kkta46aprvda3kxuww62zfddua	711	35	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	36	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	711	37	Noji	Noji	NNP
work_kkta46aprvda3kxuww62zfddua	711	38	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	39	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	711	40	Murata	Murata	NNP
work_kkta46aprvda3kxuww62zfddua	711	41	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	42	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	711	43	Iino	Iino	NNP
work_kkta46aprvda3kxuww62zfddua	711	44	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	45	Basic	basic	JJ
work_kkta46aprvda3kxuww62zfddua	711	46	properties	property	NNS
work_kkta46aprvda3kxuww62zfddua	711	47	of	of	IN
work_kkta46aprvda3kxuww62zfddua	711	48	rotary	rotary	JJ
work_kkta46aprvda3kxuww62zfddua	711	49	dynamics	dynamic	NNS
work_kkta46aprvda3kxuww62zfddua	711	50	of	of	IN
work_kkta46aprvda3kxuww62zfddua	711	51	the	the	DT
work_kkta46aprvda3kxuww62zfddua	711	52	molecular	molecular	JJ
work_kkta46aprvda3kxuww62zfddua	711	53	motor	motor	NN
work_kkta46aprvda3kxuww62zfddua	711	54	Enterococcus	Enterococcus	NNP
work_kkta46aprvda3kxuww62zfddua	711	55	hirae	hirae	NN
work_kkta46aprvda3kxuww62zfddua	711	56	V1-ATPase	V1-ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	711	57	,	,	,
work_kkta46aprvda3kxuww62zfddua	711	58	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	711	59	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	711	60	.	.	.
work_kkta46aprvda3kxuww62zfddua	712	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	712	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	713	1	288	288	CD
work_kkta46aprvda3kxuww62zfddua	713	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	713	3	2013	2013	CD
work_kkta46aprvda3kxuww62zfddua	713	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	713	5	32700–32707	32700–32707	ADD
work_kkta46aprvda3kxuww62zfddua	713	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	714	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	714	2	75	75	CD
work_kkta46aprvda3kxuww62zfddua	714	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	714	4	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	714	5	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	714	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	714	7	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	714	8	Marshansky	Marshansky	NNP
work_kkta46aprvda3kxuww62zfddua	714	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	714	10	New	New	NNP
work_kkta46aprvda3kxuww62zfddua	714	11	insights	insight	NNS
work_kkta46aprvda3kxuww62zfddua	714	12	into	into	IN
work_kkta46aprvda3kxuww62zfddua	714	13	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	714	14	–	–	:
work_kkta46aprvda3kxuww62zfddua	714	15	function	function	NN
work_kkta46aprvda3kxuww62zfddua	714	16	relationships	relationship	NNS
work_kkta46aprvda3kxuww62zfddua	714	17	be-	be-	VBD
work_kkta46aprvda3kxuww62zfddua	714	18	tween	tween	NN
work_kkta46aprvda3kxuww62zfddua	714	19	archeal	archeal	NN
work_kkta46aprvda3kxuww62zfddua	714	20	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	714	21	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	714	22	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	714	23	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	714	24	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	714	25	and	and	CC
work_kkta46aprvda3kxuww62zfddua	714	26	vacuolar	vacuolar	JJ
work_kkta46aprvda3kxuww62zfddua	714	27	type	type	NN
work_kkta46aprvda3kxuww62zfddua	714	28	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	714	29	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	714	30	V1VO	V1VO	NNP
work_kkta46aprvda3kxuww62zfddua	714	31	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	714	32	,	,	,
work_kkta46aprvda3kxuww62zfddua	714	33	Bioessays	Bioessays	NNP
work_kkta46aprvda3kxuww62zfddua	714	34	30	30	CD
work_kkta46aprvda3kxuww62zfddua	714	35	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	714	36	2008	2008	CD
work_kkta46aprvda3kxuww62zfddua	714	37	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	714	38	1096–1109	1096–1109	CD
work_kkta46aprvda3kxuww62zfddua	714	39	.	.	.
work_kkta46aprvda3kxuww62zfddua	715	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	715	2	76	76	CD
work_kkta46aprvda3kxuww62zfddua	715	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	715	4	A.G.	A.G.	NNP
work_kkta46aprvda3kxuww62zfddua	715	5	Stewart	Stewart	NNP
work_kkta46aprvda3kxuww62zfddua	715	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	715	7	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	715	8	Sobti	Sobti	NNP
work_kkta46aprvda3kxuww62zfddua	715	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	715	10	R.P.	R.P.	NNP
work_kkta46aprvda3kxuww62zfddua	716	1	Harvey	Harvey	NNP
work_kkta46aprvda3kxuww62zfddua	716	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	716	3	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	716	4	Stock	Stock	NNP
work_kkta46aprvda3kxuww62zfddua	716	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	716	6	Rotary	Rotary	NNP
work_kkta46aprvda3kxuww62zfddua	716	7	ATPases	atpase	VBZ
work_kkta46aprvda3kxuww62zfddua	716	8	:	:	:
work_kkta46aprvda3kxuww62zfddua	716	9	models	model	NNS
work_kkta46aprvda3kxuww62zfddua	716	10	,	,	,
work_kkta46aprvda3kxuww62zfddua	716	11	machine	machine	NN
work_kkta46aprvda3kxuww62zfddua	716	12	elements	element	NNS
work_kkta46aprvda3kxuww62zfddua	716	13	and	and	CC
work_kkta46aprvda3kxuww62zfddua	716	14	technical	technical	JJ
work_kkta46aprvda3kxuww62zfddua	716	15	specifications	specification	NNS
work_kkta46aprvda3kxuww62zfddua	716	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	716	17	Bioarchitecture	Bioarchitecture	NNP
work_kkta46aprvda3kxuww62zfddua	716	18	3	3	CD
work_kkta46aprvda3kxuww62zfddua	716	19	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	716	20	2013	2013	CD
work_kkta46aprvda3kxuww62zfddua	716	21	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	716	22	2–12	2–12	CD
work_kkta46aprvda3kxuww62zfddua	716	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	717	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	717	2	77	77	CD
work_kkta46aprvda3kxuww62zfddua	717	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	717	4	L.K.	L.K.	NNP
work_kkta46aprvda3kxuww62zfddua	718	1	Lee	Lee	NNP
work_kkta46aprvda3kxuww62zfddua	718	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	718	3	A.G.	A.G.	NNP
work_kkta46aprvda3kxuww62zfddua	718	4	Stewart	Stewart	NNP
work_kkta46aprvda3kxuww62zfddua	718	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	718	6	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	718	7	Donohoe	Donohoe	NNP
work_kkta46aprvda3kxuww62zfddua	718	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	718	9	R.A.	R.A.	NNP
work_kkta46aprvda3kxuww62zfddua	718	10	Bernal	Bernal	NNP
work_kkta46aprvda3kxuww62zfddua	718	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	718	12	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	718	13	Stock	Stock	NNP
work_kkta46aprvda3kxuww62zfddua	718	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	718	15	The	the	DT
work_kkta46aprvda3kxuww62zfddua	718	16	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	718	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	718	18	the	the	DT
work_kkta46aprvda3kxuww62zfddua	718	19	pe-	pe-	XX
work_kkta46aprvda3kxuww62zfddua	718	20	ripheral	ripheral	JJ
work_kkta46aprvda3kxuww62zfddua	718	21	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	718	22	of	of	IN
work_kkta46aprvda3kxuww62zfddua	718	23	Thermus	Thermus	NNP
work_kkta46aprvda3kxuww62zfddua	718	24	thermophilus	thermophilus	NN
work_kkta46aprvda3kxuww62zfddua	718	25	H+-ATPase	h+-atpase	PRP
work_kkta46aprvda3kxuww62zfddua	718	26	/	/	SYM
work_kkta46aprvda3kxuww62zfddua	718	27	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	718	28	,	,	,
work_kkta46aprvda3kxuww62zfddua	718	29	Nat	Nat	NNP
work_kkta46aprvda3kxuww62zfddua	718	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	719	1	Struct	struct	NN
work_kkta46aprvda3kxuww62zfddua	719	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	720	1	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	720	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	721	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	721	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	722	1	17	17	CD
work_kkta46aprvda3kxuww62zfddua	722	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	722	3	2010	2010	CD
work_kkta46aprvda3kxuww62zfddua	722	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	722	5	373–378	373–378	CD
work_kkta46aprvda3kxuww62zfddua	722	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	723	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	723	2	78	78	CD
work_kkta46aprvda3kxuww62zfddua	723	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	723	4	A.M.	A.M.	NNP
work_kkta46aprvda3kxuww62zfddua	723	5	Balakrishna	Balakrishna	NNP
work_kkta46aprvda3kxuww62zfddua	723	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	723	7	M.S.	M.S.	NNP
work_kkta46aprvda3kxuww62zfddua	724	1	Manimekalai	Manimekalai	NNP
work_kkta46aprvda3kxuww62zfddua	724	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	724	3	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	724	4	Hunke	Hunke	NNP
work_kkta46aprvda3kxuww62zfddua	724	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	724	6	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	724	7	Gayen	Gayen	NNP
work_kkta46aprvda3kxuww62zfddua	724	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	724	9	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	724	10	Rössle	Rössle	NNP
work_kkta46aprvda3kxuww62zfddua	724	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	724	12	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	724	13	Jeyakanthan	Jeyakanthan	NNP
work_kkta46aprvda3kxuww62zfddua	724	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	724	15	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	724	16	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	724	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	724	18	Crystal	Crystal	NNP
work_kkta46aprvda3kxuww62zfddua	724	19	and	and	CC
work_kkta46aprvda3kxuww62zfddua	724	20	solution	solution	NN
work_kkta46aprvda3kxuww62zfddua	724	21	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	724	22	of	of	IN
work_kkta46aprvda3kxuww62zfddua	724	23	the	the	DT
work_kkta46aprvda3kxuww62zfddua	724	24	C	C	NNP
work_kkta46aprvda3kxuww62zfddua	724	25	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	724	26	terminal	terminal	JJ
work_kkta46aprvda3kxuww62zfddua	724	27	part	part	NN
work_kkta46aprvda3kxuww62zfddua	724	28	of	of	IN
work_kkta46aprvda3kxuww62zfddua	724	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	724	30	Methanocaldococcus	Methanocaldococcus	NNP
work_kkta46aprvda3kxuww62zfddua	724	31	jannaschii	jannaschii	NN
work_kkta46aprvda3kxuww62zfddua	724	32	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	724	33	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	724	34	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	724	35	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	724	36	E	e	NN
work_kkta46aprvda3kxuww62zfddua	724	37	revealed	reveal	VBN
work_kkta46aprvda3kxuww62zfddua	724	38	by	by	IN
work_kkta46aprvda3kxuww62zfddua	724	39	X	x	NN
work_kkta46aprvda3kxuww62zfddua	724	40	-	-	NN
work_kkta46aprvda3kxuww62zfddua	724	41	ray	ray	NN
work_kkta46aprvda3kxuww62zfddua	724	42	diffraction	diffraction	NN
work_kkta46aprvda3kxuww62zfddua	724	43	and	and	CC
work_kkta46aprvda3kxuww62zfddua	724	44	small	small	JJ
work_kkta46aprvda3kxuww62zfddua	724	45	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	724	46	angle	angle	NN
work_kkta46aprvda3kxuww62zfddua	724	47	X	x	NN
work_kkta46aprvda3kxuww62zfddua	724	48	-	-	NN
work_kkta46aprvda3kxuww62zfddua	724	49	ray	ray	NN
work_kkta46aprvda3kxuww62zfddua	724	50	scattering	scattering	NN
work_kkta46aprvda3kxuww62zfddua	724	51	,	,	,
work_kkta46aprvda3kxuww62zfddua	724	52	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	724	53	Bioenerg	Bioenerg	NNP
work_kkta46aprvda3kxuww62zfddua	724	54	.	.	.
work_kkta46aprvda3kxuww62zfddua	725	1	Biomembr	Biomembr	NNP
work_kkta46aprvda3kxuww62zfddua	725	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	726	1	42	42	CD
work_kkta46aprvda3kxuww62zfddua	726	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	726	3	2010	2010	CD
work_kkta46aprvda3kxuww62zfddua	726	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	726	5	311–320	311–320	CD
work_kkta46aprvda3kxuww62zfddua	726	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	727	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	727	2	79	79	CD
work_kkta46aprvda3kxuww62zfddua	727	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	727	4	A.M.	A.M.	NNP
work_kkta46aprvda3kxuww62zfddua	727	5	Balakrishna	Balakrishna	NNP
work_kkta46aprvda3kxuww62zfddua	727	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	727	7	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	727	8	Hunke	Hunke	NNP
work_kkta46aprvda3kxuww62zfddua	727	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	727	10	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	727	11	Grüber	Grüber	NNP
work_kkta46aprvda3kxuww62zfddua	727	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	727	13	The	the	DT
work_kkta46aprvda3kxuww62zfddua	727	14	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	727	15	of	of	IN
work_kkta46aprvda3kxuww62zfddua	727	16	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	727	17	E	e	NN
work_kkta46aprvda3kxuww62zfddua	727	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	727	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	727	20	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	727	21	horikoshii	horikoshii	NN
work_kkta46aprvda3kxuww62zfddua	727	22	OT3	OT3	NNP
work_kkta46aprvda3kxuww62zfddua	727	23	A	A	NNP
work_kkta46aprvda3kxuww62zfddua	727	24	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	727	25	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	727	26	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	727	27	gives	give	VBZ
work_kkta46aprvda3kxuww62zfddua	727	28	insight	insight	NN
work_kkta46aprvda3kxuww62zfddua	727	29	into	into	IN
work_kkta46aprvda3kxuww62zfddua	727	30	the	the	DT
work_kkta46aprvda3kxuww62zfddua	727	31	elasticity	elasticity	NN
work_kkta46aprvda3kxuww62zfddua	727	32	of	of	IN
work_kkta46aprvda3kxuww62zfddua	727	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	727	34	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	727	35	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	727	36	,	,	,
work_kkta46aprvda3kxuww62zfddua	727	37	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	727	38	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	727	39	.	.	.
work_kkta46aprvda3kxuww62zfddua	728	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	728	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	729	1	420	420	CD
work_kkta46aprvda3kxuww62zfddua	729	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	729	3	2012	2012	CD
work_kkta46aprvda3kxuww62zfddua	729	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	729	5	155–163	155–163	CD
work_kkta46aprvda3kxuww62zfddua	729	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	730	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	730	2	80	80	CD
work_kkta46aprvda3kxuww62zfddua	730	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	730	4	A.G.	A.G.	NNP
work_kkta46aprvda3kxuww62zfddua	730	5	Stewart	Stewart	NNP
work_kkta46aprvda3kxuww62zfddua	730	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	730	7	L.K.	L.K.	NNP
work_kkta46aprvda3kxuww62zfddua	731	1	Lee	Lee	NNP
work_kkta46aprvda3kxuww62zfddua	731	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	731	3	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	731	4	Donohoe	Donohoe	NNP
work_kkta46aprvda3kxuww62zfddua	731	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	731	6	J.J.	J.J.	NNP
work_kkta46aprvda3kxuww62zfddua	731	7	Chaston	Chaston	NNP
work_kkta46aprvda3kxuww62zfddua	731	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	731	9	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	731	10	Stock	Stock	NNP
work_kkta46aprvda3kxuww62zfddua	731	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	731	12	The	the	DT
work_kkta46aprvda3kxuww62zfddua	731	13	dynamic	dynamic	JJ
work_kkta46aprvda3kxuww62zfddua	731	14	stator	stator	NN
work_kkta46aprvda3kxuww62zfddua	731	15	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	731	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	731	17	rotary	rotary	JJ
work_kkta46aprvda3kxuww62zfddua	731	18	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	731	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	731	20	Nat	Nat	NNP
work_kkta46aprvda3kxuww62zfddua	731	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	732	1	Commun	Commun	VBN
work_kkta46aprvda3kxuww62zfddua	732	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	733	1	3	3	CD
work_kkta46aprvda3kxuww62zfddua	733	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	733	3	2012	2012	CD
work_kkta46aprvda3kxuww62zfddua	733	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	733	5	687	687	CD
work_kkta46aprvda3kxuww62zfddua	733	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	734	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	734	2	81	81	CD
work_kkta46aprvda3kxuww62zfddua	734	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	734	4	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	734	5	Srinivasan	Srinivasan	NNP
work_kkta46aprvda3kxuww62zfddua	734	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	734	7	N.K.	N.K.	NNP
work_kkta46aprvda3kxuww62zfddua	735	1	Vyas	Vyas	NNP
work_kkta46aprvda3kxuww62zfddua	735	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	735	3	M.L.	M.L.	NNP
work_kkta46aprvda3kxuww62zfddua	736	1	Baker	Baker	NNP
work_kkta46aprvda3kxuww62zfddua	736	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	736	3	F.A.	F.A.	NNP
work_kkta46aprvda3kxuww62zfddua	737	1	Quiocho	Quiocho	NNP
work_kkta46aprvda3kxuww62zfddua	737	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	737	3	Crystal	Crystal	NNP
work_kkta46aprvda3kxuww62zfddua	737	4	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	737	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	737	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	737	7	cytoplas-	cytoplas-	NNP
work_kkta46aprvda3kxuww62zfddua	737	8	mic	mic	NNP
work_kkta46aprvda3kxuww62zfddua	737	9	N	N	NNP
work_kkta46aprvda3kxuww62zfddua	737	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	737	11	terminal	terminal	NN
work_kkta46aprvda3kxuww62zfddua	737	12	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	737	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	737	14	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	737	15	I	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	737	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	737	17	a	a	DT
work_kkta46aprvda3kxuww62zfddua	737	18	homolog	homolog	NN
work_kkta46aprvda3kxuww62zfddua	737	19	of	of	IN
work_kkta46aprvda3kxuww62zfddua	737	20	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	737	21	a	a	DT
work_kkta46aprvda3kxuww62zfddua	737	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	737	23	of	of	IN
work_kkta46aprvda3kxuww62zfddua	737	24	V	V	NNP
work_kkta46aprvda3kxuww62zfddua	737	25	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	737	26	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	737	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	737	28	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	737	29	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	737	30	.	.	.
work_kkta46aprvda3kxuww62zfddua	738	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	738	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	739	1	412	412	CD
work_kkta46aprvda3kxuww62zfddua	739	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	739	3	2011	2011	CD
work_kkta46aprvda3kxuww62zfddua	739	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	739	5	14–21	14–21	CD
work_kkta46aprvda3kxuww62zfddua	739	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	740	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	740	2	82	82	CD
work_kkta46aprvda3kxuww62zfddua	740	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	740	4	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	740	5	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	740	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	740	7	An	an	DT
work_kkta46aprvda3kxuww62zfddua	740	8	exceptional	exceptional	JJ
work_kkta46aprvda3kxuww62zfddua	740	9	variability	variability	NN
work_kkta46aprvda3kxuww62zfddua	740	10	in	in	IN
work_kkta46aprvda3kxuww62zfddua	740	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	740	12	motor	motor	NN
work_kkta46aprvda3kxuww62zfddua	740	13	of	of	IN
work_kkta46aprvda3kxuww62zfddua	740	14	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	740	15	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	740	16	ATPases	atpase	NNS
work_kkta46aprvda3kxuww62zfddua	740	17	:	:	:
work_kkta46aprvda3kxuww62zfddua	740	18	from	from	IN
work_kkta46aprvda3kxuww62zfddua	740	19	multimeric	multimeric	NN
work_kkta46aprvda3kxuww62zfddua	740	20	to	to	IN
work_kkta46aprvda3kxuww62zfddua	740	21	monomeric	monomeric	JJ
work_kkta46aprvda3kxuww62zfddua	740	22	rotors	rotor	NNS
work_kkta46aprvda3kxuww62zfddua	740	23	comprising	comprise	VBG
work_kkta46aprvda3kxuww62zfddua	740	24	6–13	6–13	JJ
work_kkta46aprvda3kxuww62zfddua	740	25	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	740	26	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	740	27	sites	site	NNS
work_kkta46aprvda3kxuww62zfddua	740	28	,	,	,
work_kkta46aprvda3kxuww62zfddua	740	29	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	740	30	Bioenerg	Bioenerg	NNP
work_kkta46aprvda3kxuww62zfddua	740	31	.	.	.
work_kkta46aprvda3kxuww62zfddua	741	1	Biomembr	Biomembr	NNP
work_kkta46aprvda3kxuww62zfddua	741	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	742	1	36	36	CD
work_kkta46aprvda3kxuww62zfddua	742	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	742	3	2004	2004	CD
work_kkta46aprvda3kxuww62zfddua	742	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	742	5	115–125	115–125	CD
work_kkta46aprvda3kxuww62zfddua	742	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	743	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	743	2	83	83	CD
work_kkta46aprvda3kxuww62zfddua	743	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	743	4	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	743	5	Ihara	Ihara	NNP
work_kkta46aprvda3kxuww62zfddua	743	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	743	7	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	743	8	Watanabe	Watanabe	NNP
work_kkta46aprvda3kxuww62zfddua	743	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	743	10	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	743	11	Sugimura	Sugimura	NNP
work_kkta46aprvda3kxuww62zfddua	743	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	743	13	Y.	Y.	NNP
work_kkta46aprvda3kxuww62zfddua	743	14	Mukohata	Mukohata	NNP
work_kkta46aprvda3kxuww62zfddua	743	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	743	16	Identification	Identification	NNP
work_kkta46aprvda3kxuww62zfddua	743	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	743	18	proteolipid	proteolipid	NNP
work_kkta46aprvda3kxuww62zfddua	743	19	from	from	IN
work_kkta46aprvda3kxuww62zfddua	743	20	an	an	DT
work_kkta46aprvda3kxuww62zfddua	743	21	extremely	extremely	RB
work_kkta46aprvda3kxuww62zfddua	743	22	halophilic	halophilic	JJ
work_kkta46aprvda3kxuww62zfddua	743	23	archaeon	archaeon	NN
work_kkta46aprvda3kxuww62zfddua	743	24	Halobacterium	Halobacterium	NNP
work_kkta46aprvda3kxuww62zfddua	743	25	salinarum	salinarum	NNP
work_kkta46aprvda3kxuww62zfddua	743	26	as	as	IN
work_kkta46aprvda3kxuww62zfddua	743	27	an	an	DT
work_kkta46aprvda3kxuww62zfddua	743	28	N′	n′	NN
work_kkta46aprvda3kxuww62zfddua	743	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	743	30	N′-	n′-	CD
work_kkta46aprvda3kxuww62zfddua	743	31	dicyclohexyl	dicyclohexyl	NN
work_kkta46aprvda3kxuww62zfddua	743	32	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	743	33	carbodiimide	carbodiimide	NN
work_kkta46aprvda3kxuww62zfddua	743	34	binding	binding	NN
work_kkta46aprvda3kxuww62zfddua	743	35	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	743	36	of	of	IN
work_kkta46aprvda3kxuww62zfddua	743	37	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	743	38	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	743	39	,	,	,
work_kkta46aprvda3kxuww62zfddua	743	40	Arch	Arch	NNP
work_kkta46aprvda3kxuww62zfddua	743	41	.	.	.
work_kkta46aprvda3kxuww62zfddua	744	1	Biochem	Biochem	NNP
work_kkta46aprvda3kxuww62zfddua	744	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	745	1	Biophys	Biophys	NNP
work_kkta46aprvda3kxuww62zfddua	745	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	746	1	341	341	CD
work_kkta46aprvda3kxuww62zfddua	746	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	746	3	1997	1997	CD
work_kkta46aprvda3kxuww62zfddua	746	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	746	5	267–272	267–272	CD
work_kkta46aprvda3kxuww62zfddua	746	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	747	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	747	2	84	84	CD
work_kkta46aprvda3kxuww62zfddua	747	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	747	4	K.I.	K.I.	NNP
work_kkta46aprvda3kxuww62zfddua	748	1	Inatomi	Inatomi	NNP
work_kkta46aprvda3kxuww62zfddua	748	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	748	3	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	748	4	Maeda	Maeda	NNP
work_kkta46aprvda3kxuww62zfddua	748	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	748	6	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	748	7	Futai	Futai	NNP
work_kkta46aprvda3kxuww62zfddua	748	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	748	9	Dicyclohexylcarbodiimide	dicyclohexylcarbodiimide	NN
work_kkta46aprvda3kxuww62zfddua	748	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	748	11	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	748	12	protein	protein	NN
work_kkta46aprvda3kxuww62zfddua	748	13	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	748	14	a	a	DT
work_kkta46aprvda3kxuww62zfddua	748	15	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	748	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	748	17	the	the	DT
work_kkta46aprvda3kxuww62zfddua	748	18	Methanosarcina	Methanosarcina	NNP
work_kkta46aprvda3kxuww62zfddua	748	19	barkeri	barkeri	NN
work_kkta46aprvda3kxuww62zfddua	748	20	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	748	21	complex	complex	NN
work_kkta46aprvda3kxuww62zfddua	748	22	,	,	,
work_kkta46aprvda3kxuww62zfddua	748	23	Biochem	Biochem	NNP
work_kkta46aprvda3kxuww62zfddua	748	24	.	.	.
work_kkta46aprvda3kxuww62zfddua	749	1	Biophys	Biophys	NNP
work_kkta46aprvda3kxuww62zfddua	749	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	750	1	Res	Res	NNP
work_kkta46aprvda3kxuww62zfddua	750	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	751	1	Commun	Commun	VBN
work_kkta46aprvda3kxuww62zfddua	751	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	752	1	162	162	CD
work_kkta46aprvda3kxuww62zfddua	752	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	752	3	1989	1989	CD
work_kkta46aprvda3kxuww62zfddua	752	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	752	5	1585–1590	1585–1590	CD
work_kkta46aprvda3kxuww62zfddua	752	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	753	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	753	2	85	85	CD
work_kkta46aprvda3kxuww62zfddua	753	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	753	4	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	753	5	Steinert	Steinert	NNP
work_kkta46aprvda3kxuww62zfddua	753	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	753	7	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	753	8	Wagner	Wagner	NNP
work_kkta46aprvda3kxuww62zfddua	753	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	753	10	P.G.	P.G.	NNP
work_kkta46aprvda3kxuww62zfddua	754	1	Kroth	Kroth	NNP
work_kkta46aprvda3kxuww62zfddua	754	2	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	754	3	Pancic	Pancic	NNP
work_kkta46aprvda3kxuww62zfddua	754	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	754	5	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	754	6	Bickel	Bickel	NNP
work_kkta46aprvda3kxuww62zfddua	754	7	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	754	8	Sandkötter	Sandkötter	NNP
work_kkta46aprvda3kxuww62zfddua	754	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	754	10	Characterization	Characterization	NNP
work_kkta46aprvda3kxuww62zfddua	754	11	and	and	CC
work_kkta46aprvda3kxuww62zfddua	754	12	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	754	13	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	754	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	754	15	the	the	DT
work_kkta46aprvda3kxuww62zfddua	754	16	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	754	17	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	754	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	754	19	the	the	DT
work_kkta46aprvda3kxuww62zfddua	754	20	halophilic	halophilic	JJ
work_kkta46aprvda3kxuww62zfddua	754	21	archaeon	archaeon	NN
work_kkta46aprvda3kxuww62zfddua	754	22	Haloferax	Haloferax	NNP
work_kkta46aprvda3kxuww62zfddua	754	23	volcanii	volcanii	NNP
work_kkta46aprvda3kxuww62zfddua	754	24	and	and	CC
work_kkta46aprvda3kxuww62zfddua	754	25	organization	organization	NN
work_kkta46aprvda3kxuww62zfddua	754	26	of	of	IN
work_kkta46aprvda3kxuww62zfddua	754	27	the	the	DT
work_kkta46aprvda3kxuww62zfddua	754	28	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	754	29	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	754	30	genes	gene	NNS
work_kkta46aprvda3kxuww62zfddua	754	31	,	,	,
work_kkta46aprvda3kxuww62zfddua	754	32	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	754	33	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	754	34	.	.	.
work_kkta46aprvda3kxuww62zfddua	755	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	755	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	756	1	272	272	CD
work_kkta46aprvda3kxuww62zfddua	756	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	756	3	1997	1997	CD
work_kkta46aprvda3kxuww62zfddua	756	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	756	5	6261–6269	6261–6269	CD
work_kkta46aprvda3kxuww62zfddua	756	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	757	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	757	2	86	86	CD
work_kkta46aprvda3kxuww62zfddua	757	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	757	4	F.	F.	NNP
work_kkta46aprvda3kxuww62zfddua	757	5	Mayer	Mayer	NNP
work_kkta46aprvda3kxuww62zfddua	757	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	757	7	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	757	8	Leone	Leone	NNP
work_kkta46aprvda3kxuww62zfddua	757	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	757	10	J.D.	J.D.	NNP
work_kkta46aprvda3kxuww62zfddua	758	1	Langer	Langer	NNP
work_kkta46aprvda3kxuww62zfddua	758	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	758	3	J.D.	J.D.	NNP
work_kkta46aprvda3kxuww62zfddua	759	1	Faraldo	faraldo	NN
work_kkta46aprvda3kxuww62zfddua	759	2	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	759	3	Gómez	Gómez	NNP
work_kkta46aprvda3kxuww62zfddua	759	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	759	5	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	759	6	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	759	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	759	8	A	a	DT
work_kkta46aprvda3kxuww62zfddua	759	9	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	759	10	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	759	11	with	with	IN
work_kkta46aprvda3kxuww62zfddua	759	12	four	four	CD
work_kkta46aprvda3kxuww62zfddua	759	13	transmembrane	transmembrane	JJ
work_kkta46aprvda3kxuww62zfddua	759	14	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	759	15	and	and	CC
work_kkta46aprvda3kxuww62zfddua	759	16	one	one	CD
work_kkta46aprvda3kxuww62zfddua	759	17	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	759	18	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	759	19	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	759	20	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	759	21	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	759	22	site	site	NN
work_kkta46aprvda3kxuww62zfddua	759	23	in	in	IN
work_kkta46aprvda3kxuww62zfddua	759	24	an	an	DT
work_kkta46aprvda3kxuww62zfddua	759	25	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	759	26	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	759	27	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	759	28	:	:	:
work_kkta46aprvda3kxuww62zfddua	759	29	implications	implication	NNS
work_kkta46aprvda3kxuww62zfddua	759	30	for	for	IN
work_kkta46aprvda3kxuww62zfddua	759	31	c	c	NN
work_kkta46aprvda3kxuww62zfddua	759	32	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	759	33	function	function	NN
work_kkta46aprvda3kxuww62zfddua	759	34	and	and	CC
work_kkta46aprvda3kxuww62zfddua	759	35	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	759	36	,	,	,
work_kkta46aprvda3kxuww62zfddua	759	37	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	759	38	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	759	39	.	.	.
work_kkta46aprvda3kxuww62zfddua	760	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	760	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	761	1	287	287	CD
work_kkta46aprvda3kxuww62zfddua	761	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	761	3	2012	2012	CD
work_kkta46aprvda3kxuww62zfddua	761	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	761	5	39327–39337	39327–39337	CD
work_kkta46aprvda3kxuww62zfddua	761	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	762	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	762	2	87	87	CD
work_kkta46aprvda3kxuww62zfddua	762	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	762	4	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	762	5	Ruppert	Ruppert	NNP
work_kkta46aprvda3kxuww62zfddua	762	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	762	7	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	762	8	Schmid	Schmid	NNP
work_kkta46aprvda3kxuww62zfddua	762	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	762	10	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	762	11	Hedderich	Hedderich	NNP
work_kkta46aprvda3kxuww62zfddua	762	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	762	13	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	762	14	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	762	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	762	16	Selective	selective	JJ
work_kkta46aprvda3kxuww62zfddua	762	17	extraction	extraction	NN
work_kkta46aprvda3kxuww62zfddua	762	18	of	of	IN
work_kkta46aprvda3kxuww62zfddua	762	19	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	762	20	D	d	NN
work_kkta46aprvda3kxuww62zfddua	762	21	of	of	IN
work_kkta46aprvda3kxuww62zfddua	762	22	the	the	DT
work_kkta46aprvda3kxuww62zfddua	762	23	Na+-translocating	na+-translocate	VBG
work_kkta46aprvda3kxuww62zfddua	762	24	methyltransferase	methyltransferase	NN
work_kkta46aprvda3kxuww62zfddua	762	25	and	and	CC
work_kkta46aprvda3kxuww62zfddua	762	26	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	762	27	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	762	28	of	of	IN
work_kkta46aprvda3kxuww62zfddua	762	29	the	the	DT
work_kkta46aprvda3kxuww62zfddua	762	30	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	762	31	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	762	32	from	from	IN
work_kkta46aprvda3kxuww62zfddua	762	33	the	the	DT
work_kkta46aprvda3kxuww62zfddua	762	34	cytoplasmic	cytoplasmic	JJ
work_kkta46aprvda3kxuww62zfddua	762	35	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	762	36	of	of	IN
work_kkta46aprvda3kxuww62zfddua	762	37	methanogenic	methanogenic	NNP
work_kkta46aprvda3kxuww62zfddua	762	38	archaea	archaea	VBN
work_kkta46aprvda3kxuww62zfddua	762	39	by	by	IN
work_kkta46aprvda3kxuww62zfddua	762	40	chloroform/	chloroform/	NN
work_kkta46aprvda3kxuww62zfddua	762	41	methanol	methanol	NN
work_kkta46aprvda3kxuww62zfddua	762	42	and	and	CC
work_kkta46aprvda3kxuww62zfddua	762	43	characterization	characterization	NN
work_kkta46aprvda3kxuww62zfddua	762	44	of	of	IN
work_kkta46aprvda3kxuww62zfddua	762	45	subunit	subunit	NNP
work_kkta46aprvda3kxuww62zfddua	762	46	c	c	NN
work_kkta46aprvda3kxuww62zfddua	762	47	of	of	IN
work_kkta46aprvda3kxuww62zfddua	762	48	Methanothermobacter	Methanothermobacter	NNP
work_kkta46aprvda3kxuww62zfddua	762	49	thermoautotrophicus	thermoautotrophicus	NN
work_kkta46aprvda3kxuww62zfddua	762	50	as	as	IN
work_kkta46aprvda3kxuww62zfddua	762	51	a	a	DT
work_kkta46aprvda3kxuww62zfddua	762	52	16-kDa	16-kda	CD
work_kkta46aprvda3kxuww62zfddua	762	53	proteolipid	proteolipid	NN
work_kkta46aprvda3kxuww62zfddua	762	54	,	,	,
work_kkta46aprvda3kxuww62zfddua	762	55	FEMS	FEMS	NNP
work_kkta46aprvda3kxuww62zfddua	762	56	Microbiol	Microbiol	NNP
work_kkta46aprvda3kxuww62zfddua	762	57	.	.	.
work_kkta46aprvda3kxuww62zfddua	763	1	Lett	Lett	NNP
work_kkta46aprvda3kxuww62zfddua	763	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	764	1	195	195	CD
work_kkta46aprvda3kxuww62zfddua	764	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	764	3	2001	2001	CD
work_kkta46aprvda3kxuww62zfddua	764	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	764	5	47–51	47–51	CD
work_kkta46aprvda3kxuww62zfddua	764	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	765	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	765	2	88	88	CD
work_kkta46aprvda3kxuww62zfddua	765	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	765	4	W.F.	W.F.	NNP
work_kkta46aprvda3kxuww62zfddua	766	1	Fricke	Fricke	NNP
work_kkta46aprvda3kxuww62zfddua	766	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	766	3	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	766	4	Seedorf	Seedorf	NNP
work_kkta46aprvda3kxuww62zfddua	766	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	766	6	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	766	7	Henne	Henne	NNP
work_kkta46aprvda3kxuww62zfddua	766	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	766	9	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	766	10	Kruer	Kruer	NNP
work_kkta46aprvda3kxuww62zfddua	766	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	766	12	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	766	13	Liesegang	Liesegang	NNP
work_kkta46aprvda3kxuww62zfddua	766	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	766	15	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	766	16	Hedderich	Hedderich	NNP
work_kkta46aprvda3kxuww62zfddua	766	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	766	18	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	766	19	Gottschalk	Gottschalk	NNP
work_kkta46aprvda3kxuww62zfddua	766	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	766	21	R.K.	R.K.	NNP
work_kkta46aprvda3kxuww62zfddua	766	22	Thauer	Thauer	NNP
work_kkta46aprvda3kxuww62zfddua	766	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	766	24	The	the	DT
work_kkta46aprvda3kxuww62zfddua	766	25	genome	genome	JJ
work_kkta46aprvda3kxuww62zfddua	766	26	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	766	27	of	of	IN
work_kkta46aprvda3kxuww62zfddua	766	28	Methanosphaera	Methanosphaera	NNP
work_kkta46aprvda3kxuww62zfddua	766	29	stadtmanae	stadtmanae	NN
work_kkta46aprvda3kxuww62zfddua	766	30	reveals	reveal	VBZ
work_kkta46aprvda3kxuww62zfddua	766	31	why	why	WRB
work_kkta46aprvda3kxuww62zfddua	766	32	this	this	DT
work_kkta46aprvda3kxuww62zfddua	766	33	human	human	JJ
work_kkta46aprvda3kxuww62zfddua	766	34	intestinal	intestinal	JJ
work_kkta46aprvda3kxuww62zfddua	766	35	archaeon	archaeon	NN
work_kkta46aprvda3kxuww62zfddua	766	36	is	be	VBZ
work_kkta46aprvda3kxuww62zfddua	766	37	restricted	restrict	VBN
work_kkta46aprvda3kxuww62zfddua	766	38	to	to	IN
work_kkta46aprvda3kxuww62zfddua	766	39	methanol	methanol	NN
work_kkta46aprvda3kxuww62zfddua	766	40	and	and	CC
work_kkta46aprvda3kxuww62zfddua	766	41	H2	H2	NNP
work_kkta46aprvda3kxuww62zfddua	766	42	for	for	IN
work_kkta46aprvda3kxuww62zfddua	766	43	methane	methane	NN
work_kkta46aprvda3kxuww62zfddua	766	44	formation	formation	NN
work_kkta46aprvda3kxuww62zfddua	766	45	and	and	CC
work_kkta46aprvda3kxuww62zfddua	766	46	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	766	47	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	766	48	,	,	,
work_kkta46aprvda3kxuww62zfddua	766	49	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	766	50	Bacteriol	Bacteriol	NNP
work_kkta46aprvda3kxuww62zfddua	766	51	.	.	.
work_kkta46aprvda3kxuww62zfddua	767	1	188	188	CD
work_kkta46aprvda3kxuww62zfddua	767	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	767	3	2006	2006	CD
work_kkta46aprvda3kxuww62zfddua	767	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	767	5	642–658	642–658	CD
work_kkta46aprvda3kxuww62zfddua	767	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	768	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	768	2	89	89	CD
work_kkta46aprvda3kxuww62zfddua	768	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	768	4	C.	C.	NNP
work_kkta46aprvda3kxuww62zfddua	768	5	Ruppert	Ruppert	NNP
work_kkta46aprvda3kxuww62zfddua	768	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	768	7	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	768	8	Kavermann	Kavermann	NNP
work_kkta46aprvda3kxuww62zfddua	768	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	768	10	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	768	11	Wimmers	Wimmers	NNP
work_kkta46aprvda3kxuww62zfddua	768	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	768	13	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	768	14	Schmid	Schmid	NNP
work_kkta46aprvda3kxuww62zfddua	768	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	768	16	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	768	17	Kellermann	Kellermann	NNP
work_kkta46aprvda3kxuww62zfddua	768	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	768	19	F.	F.	NNP
work_kkta46aprvda3kxuww62zfddua	768	20	Lottspeich	Lottspeich	NNP
work_kkta46aprvda3kxuww62zfddua	768	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	768	22	H.	H.	NNP
work_kkta46aprvda3kxuww62zfddua	768	23	Huber	Huber	NNP
work_kkta46aprvda3kxuww62zfddua	768	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	768	25	K.O.	K.O.	NNP
work_kkta46aprvda3kxuww62zfddua	769	1	Stetter	Stetter	NNP
work_kkta46aprvda3kxuww62zfddua	769	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	769	3	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	769	4	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	769	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	769	6	The	the	DT
work_kkta46aprvda3kxuww62zfddua	769	7	proteolipid	proteolipid	NN
work_kkta46aprvda3kxuww62zfddua	769	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	769	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	769	10	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	769	11	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	769	12	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	769	13	from	from	IN
work_kkta46aprvda3kxuww62zfddua	769	14	Methanococcus	Methanococcus	NNP
work_kkta46aprvda3kxuww62zfddua	769	15	jannaschii	jannaschii	NN
work_kkta46aprvda3kxuww62zfddua	769	16	has	have	VBZ
work_kkta46aprvda3kxuww62zfddua	769	17	six	six	CD
work_kkta46aprvda3kxuww62zfddua	769	18	predicted	predict	VBN
work_kkta46aprvda3kxuww62zfddua	769	19	transmembrane	transmembrane	JJ
work_kkta46aprvda3kxuww62zfddua	769	20	helices	helix	NNS
work_kkta46aprvda3kxuww62zfddua	769	21	but	but	CC
work_kkta46aprvda3kxuww62zfddua	769	22	only	only	RB
work_kkta46aprvda3kxuww62zfddua	769	23	two	two	CD
work_kkta46aprvda3kxuww62zfddua	769	24	proton	proton	NN
work_kkta46aprvda3kxuww62zfddua	769	25	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	769	26	translocating	translocate	VBG
work_kkta46aprvda3kxuww62zfddua	769	27	carboxyl	carboxyl	NN
work_kkta46aprvda3kxuww62zfddua	769	28	groups	group	NNS
work_kkta46aprvda3kxuww62zfddua	769	29	,	,	,
work_kkta46aprvda3kxuww62zfddua	769	30	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	769	31	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	769	32	.	.	.
work_kkta46aprvda3kxuww62zfddua	770	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	770	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	771	1	274	274	CD
work_kkta46aprvda3kxuww62zfddua	771	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	771	3	1999	1999	CD
work_kkta46aprvda3kxuww62zfddua	771	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	771	5	25281–25284	25281–25284	CD
work_kkta46aprvda3kxuww62zfddua	771	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	772	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	772	2	90	90	CD
work_kkta46aprvda3kxuww62zfddua	772	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	772	4	A.I.	A.I.	NNP
work_kkta46aprvda3kxuww62zfddua	773	1	Slesarev	Slesarev	NNP
work_kkta46aprvda3kxuww62zfddua	773	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	773	3	K.V.	K.V.	NNP
work_kkta46aprvda3kxuww62zfddua	774	1	Mezhevaya	Mezhevaya	NNP
work_kkta46aprvda3kxuww62zfddua	774	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	774	3	K.S.	K.S.	NNP
work_kkta46aprvda3kxuww62zfddua	775	1	Makarova	Makarova	NNP
work_kkta46aprvda3kxuww62zfddua	775	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	775	3	N.N.	N.N.	NNP
work_kkta46aprvda3kxuww62zfddua	776	1	Polushin	Polushin	NNP
work_kkta46aprvda3kxuww62zfddua	776	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	776	3	O.V.	O.V.	NNP
work_kkta46aprvda3kxuww62zfddua	777	1	Shcherbinina	Shcherbinina	NNP
work_kkta46aprvda3kxuww62zfddua	777	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	777	3	V.V.	V.V.	NNP
work_kkta46aprvda3kxuww62zfddua	778	1	Shakhova	Shakhova	NNP
work_kkta46aprvda3kxuww62zfddua	778	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	778	3	G.I.	G.I.	NNP
work_kkta46aprvda3kxuww62zfddua	779	1	Belova	Belova	NNP
work_kkta46aprvda3kxuww62zfddua	779	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	779	3	L.	L.	NNP
work_kkta46aprvda3kxuww62zfddua	779	4	Aravind	Aravind	NNP
work_kkta46aprvda3kxuww62zfddua	779	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	779	6	D.A.	D.A.	NNP
work_kkta46aprvda3kxuww62zfddua	780	1	Natale	Natale	NNP
work_kkta46aprvda3kxuww62zfddua	780	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	780	3	I.B.	I.B.	NNP
work_kkta46aprvda3kxuww62zfddua	781	1	Rogozin	Rogozin	NNP
work_kkta46aprvda3kxuww62zfddua	781	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	781	3	R.L.	R.L.	NNP
work_kkta46aprvda3kxuww62zfddua	782	1	Tatusov	Tatusov	NNP
work_kkta46aprvda3kxuww62zfddua	782	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	782	3	Y.I.	Y.I.	NNP
work_kkta46aprvda3kxuww62zfddua	783	1	Wolf	Wolf	NNP
work_kkta46aprvda3kxuww62zfddua	783	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	783	3	K.O.	K.O.	NNP
work_kkta46aprvda3kxuww62zfddua	784	1	Stetter	Stetter	NNP
work_kkta46aprvda3kxuww62zfddua	784	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	784	3	A.G.	A.G.	NNP
work_kkta46aprvda3kxuww62zfddua	784	4	Malykh	Malykh	NNP
work_kkta46aprvda3kxuww62zfddua	784	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	784	6	E.V.	E.V.	NNP
work_kkta46aprvda3kxuww62zfddua	785	1	Koonin	Koonin	NNP
work_kkta46aprvda3kxuww62zfddua	785	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	785	3	S.A.	S.A.	NNP
work_kkta46aprvda3kxuww62zfddua	785	4	Kozyavkin	Kozyavkin	NNP
work_kkta46aprvda3kxuww62zfddua	785	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	785	6	The	the	DT
work_kkta46aprvda3kxuww62zfddua	785	7	complete	complete	JJ
work_kkta46aprvda3kxuww62zfddua	785	8	ge-	ge-	XX
work_kkta46aprvda3kxuww62zfddua	785	9	nome	nome	NN
work_kkta46aprvda3kxuww62zfddua	785	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	785	11	hyperthermophile	hyperthermophile	JJ
work_kkta46aprvda3kxuww62zfddua	785	12	Methanopyrus	Methanopyrus	NNP
work_kkta46aprvda3kxuww62zfddua	785	13	kandleri	kandleri	NN
work_kkta46aprvda3kxuww62zfddua	785	14	AV19	AV19	NNP
work_kkta46aprvda3kxuww62zfddua	785	15	and	and	CC
work_kkta46aprvda3kxuww62zfddua	785	16	monophyly	monophyly	NN
work_kkta46aprvda3kxuww62zfddua	785	17	of	of	IN
work_kkta46aprvda3kxuww62zfddua	785	18	ar-	ar-	CD
work_kkta46aprvda3kxuww62zfddua	785	19	chaeal	chaeal	NN
work_kkta46aprvda3kxuww62zfddua	785	20	methanogens	methanogen	NNS
work_kkta46aprvda3kxuww62zfddua	785	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	785	22	Proc	Proc	NNP
work_kkta46aprvda3kxuww62zfddua	785	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	786	1	Natl	Natl	NNP
work_kkta46aprvda3kxuww62zfddua	786	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	787	1	Acad	Acad	NNS
work_kkta46aprvda3kxuww62zfddua	787	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	788	1	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	788	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	789	1	U.	U.	NNP
work_kkta46aprvda3kxuww62zfddua	789	2	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	789	3	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	790	1	99	99	CD
work_kkta46aprvda3kxuww62zfddua	790	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	790	3	2002	2002	CD
work_kkta46aprvda3kxuww62zfddua	790	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	790	5	4644–4649	4644–4649	CD
work_kkta46aprvda3kxuww62zfddua	790	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	791	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	791	2	91	91	CD
work_kkta46aprvda3kxuww62zfddua	791	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	791	4	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	791	5	Pogoryelov	Pogoryelov	NNP
work_kkta46aprvda3kxuww62zfddua	791	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	791	7	A.L.	A.L.	NNP
work_kkta46aprvda3kxuww62zfddua	792	1	Klyszejko	Klyszejko	NNP
work_kkta46aprvda3kxuww62zfddua	792	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	792	3	G.O.	G.O.	NNP
work_kkta46aprvda3kxuww62zfddua	793	1	Krasnoselska	Krasnoselska	NNP
work_kkta46aprvda3kxuww62zfddua	793	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	793	3	E.M.	E.M.	NNP
work_kkta46aprvda3kxuww62zfddua	793	4	Heller	Heller	NNP
work_kkta46aprvda3kxuww62zfddua	793	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	793	6	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	793	7	Leone	Leone	NNP
work_kkta46aprvda3kxuww62zfddua	793	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	793	9	J.D.	J.D.	NNP
work_kkta46aprvda3kxuww62zfddua	794	1	Langer	Langer	NNP
work_kkta46aprvda3kxuww62zfddua	794	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	794	3	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	794	4	Vonck	Vonck	NNP
work_kkta46aprvda3kxuww62zfddua	794	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	794	6	D.J.	D.J.	NNP
work_kkta46aprvda3kxuww62zfddua	795	1	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	795	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	795	3	J.D.	J.D.	NNP
work_kkta46aprvda3kxuww62zfddua	796	1	Faraldo	faraldo	NN
work_kkta46aprvda3kxuww62zfddua	796	2	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	796	3	Gómez	Gómez	NNP
work_kkta46aprvda3kxuww62zfddua	796	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	796	5	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	796	6	Meier	Meier	NNP
work_kkta46aprvda3kxuww62zfddua	796	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	796	8	Engineering	Engineering	NNP
work_kkta46aprvda3kxuww62zfddua	796	9	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	796	10	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	796	11	stoichiometries	stoichiometry	NNS
work_kkta46aprvda3kxuww62zfddua	796	12	in	in	IN
work_kkta46aprvda3kxuww62zfddua	796	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	796	14	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	796	15	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	796	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	796	17	Proc	Proc	NNP
work_kkta46aprvda3kxuww62zfddua	796	18	.	.	.
work_kkta46aprvda3kxuww62zfddua	797	1	Natl	Natl	NNP
work_kkta46aprvda3kxuww62zfddua	797	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	798	1	Acad	Acad	NNS
work_kkta46aprvda3kxuww62zfddua	798	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	799	1	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	799	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	800	1	U.	U.	NNP
work_kkta46aprvda3kxuww62zfddua	800	2	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	800	3	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	801	1	109	109	CD
work_kkta46aprvda3kxuww62zfddua	801	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	801	3	2012	2012	CD
work_kkta46aprvda3kxuww62zfddua	801	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	801	5	E1599–E1608	e1599–e1608	ADD
work_kkta46aprvda3kxuww62zfddua	801	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	802	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	802	2	92	92	CD
work_kkta46aprvda3kxuww62zfddua	802	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	802	4	F.T.	F.T.	NNP
work_kkta46aprvda3kxuww62zfddua	803	1	Robb	Robb	NNP
work_kkta46aprvda3kxuww62zfddua	803	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	803	3	D.L.	D.L.	NNP
work_kkta46aprvda3kxuww62zfddua	804	1	Maeder	Maeder	NNP
work_kkta46aprvda3kxuww62zfddua	804	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	804	3	J.R.	J.R.	NNP
work_kkta46aprvda3kxuww62zfddua	804	4	Brown	Brown	NNP
work_kkta46aprvda3kxuww62zfddua	804	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	804	6	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	804	7	DiRuggiero	DiRuggiero	NNP
work_kkta46aprvda3kxuww62zfddua	804	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	804	9	M.D.	M.D.	NNP
work_kkta46aprvda3kxuww62zfddua	805	1	Stump	Stump	NNP
work_kkta46aprvda3kxuww62zfddua	805	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	805	3	R.K.	R.K.	NNP
work_kkta46aprvda3kxuww62zfddua	805	4	Yeh	Yeh	NNP
work_kkta46aprvda3kxuww62zfddua	805	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	805	6	R.B.	R.B.	NNP
work_kkta46aprvda3kxuww62zfddua	806	1	Weiss	Weiss	NNP
work_kkta46aprvda3kxuww62zfddua	806	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	806	3	D.M.	D.M.	NNP
work_kkta46aprvda3kxuww62zfddua	807	1	Dunn	Dunn	NNP
work_kkta46aprvda3kxuww62zfddua	807	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	807	3	Genomic	genomic	JJ
work_kkta46aprvda3kxuww62zfddua	807	4	sequence	sequence	NN
work_kkta46aprvda3kxuww62zfddua	807	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	807	6	hyperthermophile	hyperthermophile	JJ
work_kkta46aprvda3kxuww62zfddua	807	7	Pyrococcus	Pyrococcus	NNP
work_kkta46aprvda3kxuww62zfddua	807	8	furiosus	furiosus	NN
work_kkta46aprvda3kxuww62zfddua	807	9	:	:	:
work_kkta46aprvda3kxuww62zfddua	807	10	implica-	implica-	NNP
work_kkta46aprvda3kxuww62zfddua	807	11	tions	tion	NNS
work_kkta46aprvda3kxuww62zfddua	807	12	for	for	IN
work_kkta46aprvda3kxuww62zfddua	807	13	physiology	physiology	NN
work_kkta46aprvda3kxuww62zfddua	807	14	and	and	CC
work_kkta46aprvda3kxuww62zfddua	807	15	enzymology	enzymology	NN
work_kkta46aprvda3kxuww62zfddua	807	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	807	17	Methods	Methods	NNP
work_kkta46aprvda3kxuww62zfddua	807	18	Enzymol	Enzymol	NNP
work_kkta46aprvda3kxuww62zfddua	807	19	.	.	.
work_kkta46aprvda3kxuww62zfddua	808	1	330	330	CD
work_kkta46aprvda3kxuww62zfddua	808	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	808	3	2001	2001	CD
work_kkta46aprvda3kxuww62zfddua	808	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	808	5	134–157	134–157	CD
work_kkta46aprvda3kxuww62zfddua	808	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	809	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	809	2	93	93	CD
work_kkta46aprvda3kxuww62zfddua	809	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	809	4	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	809	5	Pogoryelov	Pogoryelov	NNP
work_kkta46aprvda3kxuww62zfddua	809	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	809	7	O.	O.	NNP
work_kkta46aprvda3kxuww62zfddua	809	8	Yildiz	Yildiz	NNP
work_kkta46aprvda3kxuww62zfddua	809	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	809	10	J.D.	J.D.	NNP
work_kkta46aprvda3kxuww62zfddua	810	1	Faraldo	faraldo	NN
work_kkta46aprvda3kxuww62zfddua	810	2	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	810	3	Gómez	Gómez	NNP
work_kkta46aprvda3kxuww62zfddua	810	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	810	5	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	810	6	Meier	Meier	NNP
work_kkta46aprvda3kxuww62zfddua	810	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	810	8	High	high	JJ
work_kkta46aprvda3kxuww62zfddua	810	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	810	10	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	810	11	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	810	12	of	of	IN
work_kkta46aprvda3kxuww62zfddua	810	13	the	the	DT
work_kkta46aprvda3kxuww62zfddua	810	14	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	810	15	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	810	16	of	of	IN
work_kkta46aprvda3kxuww62zfddua	810	17	a	a	DT
work_kkta46aprvda3kxuww62zfddua	810	18	proton	proton	NN
work_kkta46aprvda3kxuww62zfddua	810	19	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	810	20	dependent	dependent	JJ
work_kkta46aprvda3kxuww62zfddua	810	21	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	810	22	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	810	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	810	24	Nat	Nat	NNP
work_kkta46aprvda3kxuww62zfddua	810	25	.	.	.
work_kkta46aprvda3kxuww62zfddua	811	1	Struct	struct	NN
work_kkta46aprvda3kxuww62zfddua	811	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	812	1	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	812	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	813	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	813	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	814	1	16	16	CD
work_kkta46aprvda3kxuww62zfddua	814	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	814	3	2009	2009	CD
work_kkta46aprvda3kxuww62zfddua	814	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	814	5	1068–1073	1068–1073	CD
work_kkta46aprvda3kxuww62zfddua	814	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	815	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	815	2	94	94	CD
work_kkta46aprvda3kxuww62zfddua	815	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	815	4	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	815	5	Dimroth	Dimroth	NNP
work_kkta46aprvda3kxuww62zfddua	815	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	815	7	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	815	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	815	9	function	function	NN
work_kkta46aprvda3kxuww62zfddua	815	10	of	of	IN
work_kkta46aprvda3kxuww62zfddua	815	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	815	12	Na+-translocating	na+-translocate	VBG
work_kkta46aprvda3kxuww62zfddua	815	13	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	815	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	815	15	Propionigenium	Propionigenium	NNP
work_kkta46aprvda3kxuww62zfddua	815	16	modestum	modestum	NN
work_kkta46aprvda3kxuww62zfddua	815	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	815	18	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	815	19	Physiol	Physiol	NNP
work_kkta46aprvda3kxuww62zfddua	815	20	.	.	.
work_kkta46aprvda3kxuww62zfddua	816	1	Scand	scand	NN
work_kkta46aprvda3kxuww62zfddua	816	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	817	1	146	146	CD
work_kkta46aprvda3kxuww62zfddua	817	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	817	3	1992	1992	CD
work_kkta46aprvda3kxuww62zfddua	817	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	817	5	97–102	97–102	CD
work_kkta46aprvda3kxuww62zfddua	817	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	818	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	818	2	95	95	CD
work_kkta46aprvda3kxuww62zfddua	818	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	818	4	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	818	5	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	818	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	818	7	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	818	8	Aufurth	Aufurth	NNP
work_kkta46aprvda3kxuww62zfddua	818	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	818	10	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	818	11	Rahlfs	Rahlfs	NNP
work_kkta46aprvda3kxuww62zfddua	818	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	818	13	The	the	DT
work_kkta46aprvda3kxuww62zfddua	818	14	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	818	15	cycle	cycle	NN
work_kkta46aprvda3kxuww62zfddua	818	16	in	in	IN
work_kkta46aprvda3kxuww62zfddua	818	17	Acetobacterium	Acetobacterium	NNP
work_kkta46aprvda3kxuww62zfddua	818	18	woodii	woodii	NN
work_kkta46aprvda3kxuww62zfddua	818	19	:	:	:
work_kkta46aprvda3kxuww62zfddua	818	20	identification	identification	NN
work_kkta46aprvda3kxuww62zfddua	818	21	and	and	CC
work_kkta46aprvda3kxuww62zfddua	818	22	characterization	characterization	NN
work_kkta46aprvda3kxuww62zfddua	818	23	of	of	IN
work_kkta46aprvda3kxuww62zfddua	818	24	a	a	DT
work_kkta46aprvda3kxuww62zfddua	818	25	Na+-translocating	na+-translocate	VBG
work_kkta46aprvda3kxuww62zfddua	818	26	F1FO	F1FO	NNP
work_kkta46aprvda3kxuww62zfddua	818	27	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	818	28	ATPase	ATPase	NNP
work_kkta46aprvda3kxuww62zfddua	818	29	with	with	IN
work_kkta46aprvda3kxuww62zfddua	818	30	a	a	DT
work_kkta46aprvda3kxuww62zfddua	818	31	mixed	mixed	JJ
work_kkta46aprvda3kxuww62zfddua	818	32	oligomer	oligomer	NN
work_kkta46aprvda3kxuww62zfddua	818	33	of	of	IN
work_kkta46aprvda3kxuww62zfddua	818	34	8	8	CD
work_kkta46aprvda3kxuww62zfddua	818	35	and	and	CC
work_kkta46aprvda3kxuww62zfddua	818	36	16	16	CD
work_kkta46aprvda3kxuww62zfddua	818	37	kDa	kDa	NNS
work_kkta46aprvda3kxuww62zfddua	818	38	proteolipids	proteolipid	NNS
work_kkta46aprvda3kxuww62zfddua	818	39	,	,	,
work_kkta46aprvda3kxuww62zfddua	818	40	Biochim	Biochim	NNP
work_kkta46aprvda3kxuww62zfddua	818	41	.	.	.
work_kkta46aprvda3kxuww62zfddua	819	1	Biophys	Biophys	NNP
work_kkta46aprvda3kxuww62zfddua	819	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	820	1	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	820	2	1505	1505	CD
work_kkta46aprvda3kxuww62zfddua	820	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	820	4	2001	2001	CD
work_kkta46aprvda3kxuww62zfddua	820	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	820	6	108–120	108–120	CD
work_kkta46aprvda3kxuww62zfddua	820	7	.	.	.
work_kkta46aprvda3kxuww62zfddua	821	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	821	2	96	96	CD
work_kkta46aprvda3kxuww62zfddua	821	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	821	4	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	821	5	Murata	Murata	NNP
work_kkta46aprvda3kxuww62zfddua	821	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	821	7	I.	I.	NNP
work_kkta46aprvda3kxuww62zfddua	821	8	Yamato	Yamato	NNP
work_kkta46aprvda3kxuww62zfddua	821	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	821	10	Y.	Y.	NNP
work_kkta46aprvda3kxuww62zfddua	821	11	Kakinuma	Kakinuma	NNP
work_kkta46aprvda3kxuww62zfddua	821	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	821	13	A.G.	A.G.	NNP
work_kkta46aprvda3kxuww62zfddua	821	14	Leslie	Leslie	NNP
work_kkta46aprvda3kxuww62zfddua	821	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	821	16	J.E.	J.E.	NNP
work_kkta46aprvda3kxuww62zfddua	822	1	Walker	Walker	NNP
work_kkta46aprvda3kxuww62zfddua	822	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	822	3	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	822	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	822	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	822	6	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	822	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	822	8	the	the	DT
work_kkta46aprvda3kxuww62zfddua	822	9	V	V	NNP
work_kkta46aprvda3kxuww62zfddua	822	10	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	822	11	Type	Type	NNP
work_kkta46aprvda3kxuww62zfddua	822	12	Na+-ATPase	na+-atpase	NN
work_kkta46aprvda3kxuww62zfddua	822	13	from	from	IN
work_kkta46aprvda3kxuww62zfddua	822	14	Enterococcus	Enterococcus	NNP
work_kkta46aprvda3kxuww62zfddua	822	15	hirae	hirae	NN
work_kkta46aprvda3kxuww62zfddua	822	16	,	,	,
work_kkta46aprvda3kxuww62zfddua	822	17	Science	Science	NNP
work_kkta46aprvda3kxuww62zfddua	822	18	308	308	CD
work_kkta46aprvda3kxuww62zfddua	822	19	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	822	20	2005	2005	CD
work_kkta46aprvda3kxuww62zfddua	822	21	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	822	22	654–659	654–659	CD
work_kkta46aprvda3kxuww62zfddua	822	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	823	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	823	2	97	97	CD
work_kkta46aprvda3kxuww62zfddua	823	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	823	4	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	823	5	Meier	Meier	NNP
work_kkta46aprvda3kxuww62zfddua	823	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	823	7	A.	A.	NNP
work_kkta46aprvda3kxuww62zfddua	823	8	Krah	Krah	NNP
work_kkta46aprvda3kxuww62zfddua	823	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	823	10	P.J.	P.J.	NNP
work_kkta46aprvda3kxuww62zfddua	824	1	Bond	Bond	NNP
work_kkta46aprvda3kxuww62zfddua	824	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	824	3	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	824	4	Pogoryelov	Pogoryelov	NNP
work_kkta46aprvda3kxuww62zfddua	824	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	824	6	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	824	7	Diederichs	Diederichs	NNP
work_kkta46aprvda3kxuww62zfddua	824	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	824	9	J.D.	J.D.	NNP
work_kkta46aprvda3kxuww62zfddua	825	1	Faraldo	faraldo	NN
work_kkta46aprvda3kxuww62zfddua	825	2	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	825	3	Gómez	Gómez	NNP
work_kkta46aprvda3kxuww62zfddua	825	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	825	5	Complete	complete	JJ
work_kkta46aprvda3kxuww62zfddua	825	6	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	825	7	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	825	8	coordination	coordination	NN
work_kkta46aprvda3kxuww62zfddua	825	9	structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	825	10	in	in	IN
work_kkta46aprvda3kxuww62zfddua	825	11	the	the	DT
work_kkta46aprvda3kxuww62zfddua	825	12	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	825	13	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	825	14	of	of	IN
work_kkta46aprvda3kxuww62zfddua	825	15	Na+-dependent	Na+-dependent	NNP
work_kkta46aprvda3kxuww62zfddua	825	16	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	825	17	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	825	18	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	825	19	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	825	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	825	21	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	825	22	Mol	Mol	NNP
work_kkta46aprvda3kxuww62zfddua	825	23	.	.	.
work_kkta46aprvda3kxuww62zfddua	826	1	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	826	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	827	1	391	391	CD
work_kkta46aprvda3kxuww62zfddua	827	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	827	3	2009	2009	CD
work_kkta46aprvda3kxuww62zfddua	827	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	827	5	498–507	498–507	CD
work_kkta46aprvda3kxuww62zfddua	827	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	828	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	828	2	98	98	CD
work_kkta46aprvda3kxuww62zfddua	828	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	828	4	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	828	5	Meier	Meier	NNP
work_kkta46aprvda3kxuww62zfddua	828	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	828	7	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	828	8	Polzer	Polzer	NNP
work_kkta46aprvda3kxuww62zfddua	828	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	828	10	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	828	11	Diederichs	Diederichs	NNP
work_kkta46aprvda3kxuww62zfddua	828	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	828	13	W.	W.	NNP
work_kkta46aprvda3kxuww62zfddua	828	14	Welte	Welte	NNP
work_kkta46aprvda3kxuww62zfddua	828	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	828	16	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	828	17	Dimroth	Dimroth	NNP
work_kkta46aprvda3kxuww62zfddua	828	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	828	19	Structure	Structure	NNP
work_kkta46aprvda3kxuww62zfddua	828	20	of	of	IN
work_kkta46aprvda3kxuww62zfddua	828	21	the	the	DT
work_kkta46aprvda3kxuww62zfddua	828	22	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	828	23	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	828	24	of	of	IN
work_kkta46aprvda3kxuww62zfddua	828	25	F	F	NNP
work_kkta46aprvda3kxuww62zfddua	828	26	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	828	27	Type	Type	NNP
work_kkta46aprvda3kxuww62zfddua	828	28	Na+-ATPase	na+-atpase	NN
work_kkta46aprvda3kxuww62zfddua	828	29	from	from	IN
work_kkta46aprvda3kxuww62zfddua	828	30	Ilyobacter	Ilyobacter	NNP
work_kkta46aprvda3kxuww62zfddua	828	31	tartaricus	tartaricus	NN
work_kkta46aprvda3kxuww62zfddua	828	32	,	,	,
work_kkta46aprvda3kxuww62zfddua	828	33	Science	Science	NNP
work_kkta46aprvda3kxuww62zfddua	828	34	308	308	CD
work_kkta46aprvda3kxuww62zfddua	828	35	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	828	36	2005	2005	CD
work_kkta46aprvda3kxuww62zfddua	828	37	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	828	38	659–662	659–662	CD
work_kkta46aprvda3kxuww62zfddua	828	39	.	.	.
work_kkta46aprvda3kxuww62zfddua	829	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	829	2	99	99	CD
work_kkta46aprvda3kxuww62zfddua	829	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	829	4	D.G.	D.G.	NNP
work_kkta46aprvda3kxuww62zfddua	830	1	McMillan	McMillan	NNP
work_kkta46aprvda3kxuww62zfddua	830	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	830	3	S.A.	S.A.	NNP
work_kkta46aprvda3kxuww62zfddua	830	4	Ferguson	Ferguson	NNP
work_kkta46aprvda3kxuww62zfddua	830	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	830	6	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	830	7	Dey	Dey	NNP
work_kkta46aprvda3kxuww62zfddua	830	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	830	9	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	830	10	Schroder	Schroder	NNP
work_kkta46aprvda3kxuww62zfddua	830	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	830	12	H.L.	H.L.	NNP
work_kkta46aprvda3kxuww62zfddua	831	1	Aung	Aung	NNP
work_kkta46aprvda3kxuww62zfddua	831	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	831	3	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	831	4	Carbone	Carbone	NNP
work_kkta46aprvda3kxuww62zfddua	831	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	831	6	G.T.	G.T.	NNP
work_kkta46aprvda3kxuww62zfddua	832	1	Attwood	Attwood	NNP
work_kkta46aprvda3kxuww62zfddua	832	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	832	3	R.S.	R.S.	NNP
work_kkta46aprvda3kxuww62zfddua	833	1	Ronimus	Ronimus	NNP
work_kkta46aprvda3kxuww62zfddua	833	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	833	3	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	833	4	Meier	Meier	NNP
work_kkta46aprvda3kxuww62zfddua	833	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	833	6	P.H.	P.H.	NNP
work_kkta46aprvda3kxuww62zfddua	834	1	Janssen	Janssen	NNP
work_kkta46aprvda3kxuww62zfddua	834	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	834	3	G.M.	G.M.	NNP
work_kkta46aprvda3kxuww62zfddua	835	1	Cook	Cook	NNP
work_kkta46aprvda3kxuww62zfddua	835	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	835	3	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	835	4	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	835	5	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	835	6	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	835	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	835	8	Methanobrevibacter	Methanobrevibacter	NNP
work_kkta46aprvda3kxuww62zfddua	835	9	ruminantium	ruminantium	NN
work_kkta46aprvda3kxuww62zfddua	835	10	couples	couple	NNS
work_kkta46aprvda3kxuww62zfddua	835	11	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	835	12	ions	ion	NNS
work_kkta46aprvda3kxuww62zfddua	835	13	for	for	IN
work_kkta46aprvda3kxuww62zfddua	835	14	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	835	15	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	835	16	under	under	IN
work_kkta46aprvda3kxuww62zfddua	835	17	physiological	physiological	JJ
work_kkta46aprvda3kxuww62zfddua	835	18	conditions	condition	NNS
work_kkta46aprvda3kxuww62zfddua	835	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	835	20	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	835	21	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	835	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	836	1	Chem	Chem	NNP
work_kkta46aprvda3kxuww62zfddua	836	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	837	1	286	286	CD
work_kkta46aprvda3kxuww62zfddua	837	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	837	3	2011	2011	CD
work_kkta46aprvda3kxuww62zfddua	837	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	837	5	39882–39892	39882–39892	CD
work_kkta46aprvda3kxuww62zfddua	837	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	838	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	838	2	100	100	CD
work_kkta46aprvda3kxuww62zfddua	838	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	838	4	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	838	5	Schlegel	Schlegel	NNP
work_kkta46aprvda3kxuww62zfddua	838	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	838	7	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	838	8	Leone	Leone	NNP
work_kkta46aprvda3kxuww62zfddua	838	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	838	10	J.D.	J.D.	NNP
work_kkta46aprvda3kxuww62zfddua	839	1	Faraldo	Faraldo	NNP
work_kkta46aprvda3kxuww62zfddua	839	2	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	839	3	Gomez	Gomez	NNP
work_kkta46aprvda3kxuww62zfddua	839	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	839	5	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	839	6	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	839	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	839	8	Promiscuous	promiscuous	JJ
work_kkta46aprvda3kxuww62zfddua	839	9	archaeal	archaeal	NN
work_kkta46aprvda3kxuww62zfddua	839	10	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	839	11	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	839	12	concurrently	concurrently	RB
work_kkta46aprvda3kxuww62zfddua	839	13	coupled	couple	VBD
work_kkta46aprvda3kxuww62zfddua	839	14	to	to	IN
work_kkta46aprvda3kxuww62zfddua	839	15	Na+	na+	NN
work_kkta46aprvda3kxuww62zfddua	839	16	and	and	CC
work_kkta46aprvda3kxuww62zfddua	839	17	H+	h+	JJ
work_kkta46aprvda3kxuww62zfddua	839	18	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	839	19	,	,	,
work_kkta46aprvda3kxuww62zfddua	839	20	Proc	Proc	NNP
work_kkta46aprvda3kxuww62zfddua	839	21	.	.	.
work_kkta46aprvda3kxuww62zfddua	840	1	Natl	Natl	NNP
work_kkta46aprvda3kxuww62zfddua	840	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	841	1	Acad	Acad	NNS
work_kkta46aprvda3kxuww62zfddua	841	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	842	1	Sci	Sci	NNP
work_kkta46aprvda3kxuww62zfddua	842	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	843	1	U.	U.	NNP
work_kkta46aprvda3kxuww62zfddua	843	2	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	843	3	A.	a.	NN
work_kkta46aprvda3kxuww62zfddua	844	1	109	109	CD
work_kkta46aprvda3kxuww62zfddua	844	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	844	3	2012	2012	CD
work_kkta46aprvda3kxuww62zfddua	844	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	844	5	947–952	947–952	CD
work_kkta46aprvda3kxuww62zfddua	844	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	845	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	845	2	101	101	CD
work_kkta46aprvda3kxuww62zfddua	845	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	845	4	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	845	5	Schulz	Schulz	NNP
work_kkta46aprvda3kxuww62zfddua	845	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	845	7	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	845	8	Iglesias	Iglesias	NNP
work_kkta46aprvda3kxuww62zfddua	845	9	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	845	10	Cans	Cans	NNPS
work_kkta46aprvda3kxuww62zfddua	845	11	,	,	,
work_kkta46aprvda3kxuww62zfddua	845	12	A.	A.	NNP
work_kkta46aprvda3kxuww62zfddua	845	13	Krah	Krah	NNP
work_kkta46aprvda3kxuww62zfddua	845	14	,	,	,
work_kkta46aprvda3kxuww62zfddua	845	15	O.	O.	NNP
work_kkta46aprvda3kxuww62zfddua	845	16	Yildiz	Yildiz	NNP
work_kkta46aprvda3kxuww62zfddua	845	17	,	,	,
work_kkta46aprvda3kxuww62zfddua	845	18	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	845	19	Leone	Leone	NNP
work_kkta46aprvda3kxuww62zfddua	845	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	845	21	D.	D.	NNP
work_kkta46aprvda3kxuww62zfddua	845	22	Matthies	Matthies	NNP
work_kkta46aprvda3kxuww62zfddua	845	23	,	,	,
work_kkta46aprvda3kxuww62zfddua	845	24	G.M.	G.M.	NNP
work_kkta46aprvda3kxuww62zfddua	846	1	Cook	Cook	NNP
work_kkta46aprvda3kxuww62zfddua	846	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	846	3	J.D.	J.D.	NNP
work_kkta46aprvda3kxuww62zfddua	847	1	Faraldo	Faraldo	NNP
work_kkta46aprvda3kxuww62zfddua	847	2	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	847	3	Gomez	Gomez	NNP
work_kkta46aprvda3kxuww62zfddua	847	4	,	,	,
work_kkta46aprvda3kxuww62zfddua	847	5	T.	T.	NNP
work_kkta46aprvda3kxuww62zfddua	847	6	Meier	Meier	NNP
work_kkta46aprvda3kxuww62zfddua	847	7	,	,	,
work_kkta46aprvda3kxuww62zfddua	847	8	A	a	DT
work_kkta46aprvda3kxuww62zfddua	847	9	new	new	JJ
work_kkta46aprvda3kxuww62zfddua	847	10	type	type	NN
work_kkta46aprvda3kxuww62zfddua	847	11	of	of	IN
work_kkta46aprvda3kxuww62zfddua	847	12	Na+-driven	Na+-driven	NNP
work_kkta46aprvda3kxuww62zfddua	847	13	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	847	14	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	847	15	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	847	16	rotor	rotor	NN
work_kkta46aprvda3kxuww62zfddua	847	17	with	with	IN
work_kkta46aprvda3kxuww62zfddua	847	18	a	a	DT
work_kkta46aprvda3kxuww62zfddua	847	19	two	two	CD
work_kkta46aprvda3kxuww62zfddua	847	20	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	847	21	carboxylate	carboxylate	NN
work_kkta46aprvda3kxuww62zfddua	847	22	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	847	23	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	847	24	coupling	couple	VBG
work_kkta46aprvda3kxuww62zfddua	847	25	motif	motif	NN
work_kkta46aprvda3kxuww62zfddua	847	26	,	,	,
work_kkta46aprvda3kxuww62zfddua	847	27	PLoS	PLoS	NNP
work_kkta46aprvda3kxuww62zfddua	847	28	Biol	Biol	NNP
work_kkta46aprvda3kxuww62zfddua	847	29	.	.	.
work_kkta46aprvda3kxuww62zfddua	848	1	11	11	CD
work_kkta46aprvda3kxuww62zfddua	848	2	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	848	3	2013	2013	CD
work_kkta46aprvda3kxuww62zfddua	848	4	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	848	5	e1001596	e1001596	RB
work_kkta46aprvda3kxuww62zfddua	848	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	849	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	849	2	102	102	CD
work_kkta46aprvda3kxuww62zfddua	849	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	849	4	N.	N.	NNP
work_kkta46aprvda3kxuww62zfddua	849	5	Lane	Lane	NNP
work_kkta46aprvda3kxuww62zfddua	849	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	849	7	W.F.	W.F.	NNP
work_kkta46aprvda3kxuww62zfddua	850	1	Martin	Martin	NNP
work_kkta46aprvda3kxuww62zfddua	850	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	850	3	The	the	DT
work_kkta46aprvda3kxuww62zfddua	850	4	origin	origin	NN
work_kkta46aprvda3kxuww62zfddua	850	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	850	6	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	850	7	bioenergetics	bioenergetic	NNS
work_kkta46aprvda3kxuww62zfddua	850	8	,	,	,
work_kkta46aprvda3kxuww62zfddua	850	9	Cell	Cell	NNP
work_kkta46aprvda3kxuww62zfddua	850	10	151	151	CD
work_kkta46aprvda3kxuww62zfddua	850	11	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	850	12	2012	2012	CD
work_kkta46aprvda3kxuww62zfddua	850	13	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	850	14	1406–1416	1406–1416	CD
work_kkta46aprvda3kxuww62zfddua	850	15	.	.	.
work_kkta46aprvda3kxuww62zfddua	851	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	851	2	103	103	CD
work_kkta46aprvda3kxuww62zfddua	851	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	851	4	A.Y.	A.Y.	NNP
work_kkta46aprvda3kxuww62zfddua	852	1	Mulkidjanian	Mulkidjanian	NNP
work_kkta46aprvda3kxuww62zfddua	852	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	852	3	P.	P.	NNP
work_kkta46aprvda3kxuww62zfddua	852	4	Dibrov	Dibrov	NNP
work_kkta46aprvda3kxuww62zfddua	852	5	,	,	,
work_kkta46aprvda3kxuww62zfddua	852	6	M.Y.	M.Y.	NNP
work_kkta46aprvda3kxuww62zfddua	853	1	Galperin	Galperin	NNP
work_kkta46aprvda3kxuww62zfddua	853	2	,	,	,
work_kkta46aprvda3kxuww62zfddua	853	3	The	the	DT
work_kkta46aprvda3kxuww62zfddua	853	4	past	past	NN
work_kkta46aprvda3kxuww62zfddua	853	5	and	and	CC
work_kkta46aprvda3kxuww62zfddua	853	6	present	present	NN
work_kkta46aprvda3kxuww62zfddua	853	7	of	of	IN
work_kkta46aprvda3kxuww62zfddua	853	8	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	853	9	energetics	energetic	NNS
work_kkta46aprvda3kxuww62zfddua	853	10	:	:	:
work_kkta46aprvda3kxuww62zfddua	853	11	may	may	MD
work_kkta46aprvda3kxuww62zfddua	853	12	the	the	DT
work_kkta46aprvda3kxuww62zfddua	853	13	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	853	14	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	853	15	motive	motive	NN
work_kkta46aprvda3kxuww62zfddua	853	16	force	force	NN
work_kkta46aprvda3kxuww62zfddua	853	17	be	be	VBP
work_kkta46aprvda3kxuww62zfddua	853	18	with	with	IN
work_kkta46aprvda3kxuww62zfddua	853	19	you	-PRON-	PRP
work_kkta46aprvda3kxuww62zfddua	853	20	,	,	,
work_kkta46aprvda3kxuww62zfddua	853	21	Biochim	Biochim	NNP
work_kkta46aprvda3kxuww62zfddua	853	22	.	.	.
work_kkta46aprvda3kxuww62zfddua	854	1	Biophys	Biophys	NNP
work_kkta46aprvda3kxuww62zfddua	854	2	.	.	.
work_kkta46aprvda3kxuww62zfddua	855	1	Acta	Acta	NNP
work_kkta46aprvda3kxuww62zfddua	855	2	1777	1777	CD
work_kkta46aprvda3kxuww62zfddua	855	3	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	855	4	2008	2008	CD
work_kkta46aprvda3kxuww62zfddua	855	5	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	855	6	985–992	985–992	CD
work_kkta46aprvda3kxuww62zfddua	855	7	.	.	.
work_kkta46aprvda3kxuww62zfddua	856	1	[	[	-LRB-
work_kkta46aprvda3kxuww62zfddua	856	2	104	104	CD
work_kkta46aprvda3kxuww62zfddua	856	3	]	]	-RRB-
work_kkta46aprvda3kxuww62zfddua	856	4	A.	A.	NNP
work_kkta46aprvda3kxuww62zfddua	856	5	Poehlein	Poehlein	NNP
work_kkta46aprvda3kxuww62zfddua	856	6	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	7	S.	S.	NNP
work_kkta46aprvda3kxuww62zfddua	856	8	Schmidt	Schmidt	NNP
work_kkta46aprvda3kxuww62zfddua	856	9	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	10	A.-K.	a.-k.	DT
work_kkta46aprvda3kxuww62zfddua	856	11	Kaster	Kaster	NNP
work_kkta46aprvda3kxuww62zfddua	856	12	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	13	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	856	14	Goenrich	Goenrich	NNP
work_kkta46aprvda3kxuww62zfddua	856	15	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	16	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	856	17	Vollmers	Vollmers	NNP
work_kkta46aprvda3kxuww62zfddua	856	18	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	19	A.	A.	NNP
work_kkta46aprvda3kxuww62zfddua	856	20	Thürmer	Thürmer	NNP
work_kkta46aprvda3kxuww62zfddua	856	21	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	22	J.	J.	NNP
work_kkta46aprvda3kxuww62zfddua	856	23	Bertsch	Bertsch	NNP
work_kkta46aprvda3kxuww62zfddua	856	24	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	25	K.	K.	NNP
work_kkta46aprvda3kxuww62zfddua	856	26	Schuchmann	Schuchmann	NNP
work_kkta46aprvda3kxuww62zfddua	856	27	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	28	B.	B.	NNP
work_kkta46aprvda3kxuww62zfddua	856	29	Voigt	Voigt	NNP
work_kkta46aprvda3kxuww62zfddua	856	30	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	31	M.	M.	NNP
work_kkta46aprvda3kxuww62zfddua	856	32	Hecker	Hecker	NNP
work_kkta46aprvda3kxuww62zfddua	856	33	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	34	R.	R.	NNP
work_kkta46aprvda3kxuww62zfddua	856	35	Daniel	Daniel	NNP
work_kkta46aprvda3kxuww62zfddua	856	36	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	37	R.K.	R.K.	NNP
work_kkta46aprvda3kxuww62zfddua	856	38	Thauer	Thauer	NNP
work_kkta46aprvda3kxuww62zfddua	856	39	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	40	G.	G.	NNP
work_kkta46aprvda3kxuww62zfddua	856	41	Gottschalk	Gottschalk	NNP
work_kkta46aprvda3kxuww62zfddua	856	42	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	43	V.	V.	NNP
work_kkta46aprvda3kxuww62zfddua	856	44	Müller	Müller	NNP
work_kkta46aprvda3kxuww62zfddua	856	45	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	46	An	an	DT
work_kkta46aprvda3kxuww62zfddua	856	47	ancient	ancient	JJ
work_kkta46aprvda3kxuww62zfddua	856	48	pathway	pathway	NN
work_kkta46aprvda3kxuww62zfddua	856	49	combining	combine	VBG
work_kkta46aprvda3kxuww62zfddua	856	50	carbon	carbon	NN
work_kkta46aprvda3kxuww62zfddua	856	51	dioxide	dioxide	NN
work_kkta46aprvda3kxuww62zfddua	856	52	fixation	fixation	NN
work_kkta46aprvda3kxuww62zfddua	856	53	with	with	IN
work_kkta46aprvda3kxuww62zfddua	856	54	the	the	DT
work_kkta46aprvda3kxuww62zfddua	856	55	generation	generation	NN
work_kkta46aprvda3kxuww62zfddua	856	56	and	and	CC
work_kkta46aprvda3kxuww62zfddua	856	57	utilization	utilization	NN
work_kkta46aprvda3kxuww62zfddua	856	58	of	of	IN
work_kkta46aprvda3kxuww62zfddua	856	59	a	a	DT
work_kkta46aprvda3kxuww62zfddua	856	60	sodium	sodium	NN
work_kkta46aprvda3kxuww62zfddua	856	61	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	856	62	gradient	gradient	NN
work_kkta46aprvda3kxuww62zfddua	856	63	for	for	IN
work_kkta46aprvda3kxuww62zfddua	856	64	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	856	65	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	856	66	,	,	,
work_kkta46aprvda3kxuww62zfddua	856	67	PLoS	PLoS	NNP
work_kkta46aprvda3kxuww62zfddua	856	68	One	one	CD
work_kkta46aprvda3kxuww62zfddua	856	69	7	7	CD
work_kkta46aprvda3kxuww62zfddua	856	70	(	(	-LRB-
work_kkta46aprvda3kxuww62zfddua	856	71	2012	2012	CD
work_kkta46aprvda3kxuww62zfddua	856	72	)	)	-RRB-
work_kkta46aprvda3kxuww62zfddua	856	73	e33439	e33439	RB
work_kkta46aprvda3kxuww62zfddua	856	74	.	.	.
work_kkta46aprvda3kxuww62zfddua	857	1	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	NNP
work_kkta46aprvda3kxuww62zfddua	857	2	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0265	NNP
work_kkta46aprvda3kxuww62zfddua	857	3	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270	NNP
work_kkta46aprvda3kxuww62zfddua	857	4	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270	NNP
work_kkta46aprvda3kxuww62zfddua	857	5	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270	NNP
work_kkta46aprvda3kxuww62zfddua	857	6	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270	NNP
work_kkta46aprvda3kxuww62zfddua	857	7	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0270	NNP
work_kkta46aprvda3kxuww62zfddua	857	8	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275	NNP
work_kkta46aprvda3kxuww62zfddua	857	9	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275	NNP
work_kkta46aprvda3kxuww62zfddua	857	10	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275	NNP
work_kkta46aprvda3kxuww62zfddua	857	11	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275	NNP
work_kkta46aprvda3kxuww62zfddua	857	12	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0275	NNP
work_kkta46aprvda3kxuww62zfddua	857	13	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280	NNP
work_kkta46aprvda3kxuww62zfddua	857	14	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280	NNP
work_kkta46aprvda3kxuww62zfddua	857	15	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280	NNP
work_kkta46aprvda3kxuww62zfddua	857	16	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0280	NNP
work_kkta46aprvda3kxuww62zfddua	857	17	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285	NNP
work_kkta46aprvda3kxuww62zfddua	857	18	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285	NNP
work_kkta46aprvda3kxuww62zfddua	857	19	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285	NNP
work_kkta46aprvda3kxuww62zfddua	857	20	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0285	NNP
work_kkta46aprvda3kxuww62zfddua	857	21	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290	NNP
work_kkta46aprvda3kxuww62zfddua	857	22	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290	NNP
work_kkta46aprvda3kxuww62zfddua	857	23	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290	NNP
work_kkta46aprvda3kxuww62zfddua	857	24	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0290	NNP
work_kkta46aprvda3kxuww62zfddua	857	25	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	NNP
work_kkta46aprvda3kxuww62zfddua	857	26	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	NNP
work_kkta46aprvda3kxuww62zfddua	857	27	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	NNP
work_kkta46aprvda3kxuww62zfddua	857	28	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	NNP
work_kkta46aprvda3kxuww62zfddua	857	29	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	NNP
work_kkta46aprvda3kxuww62zfddua	857	30	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0295	NNP
work_kkta46aprvda3kxuww62zfddua	857	31	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300	NNP
work_kkta46aprvda3kxuww62zfddua	857	32	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300	NNP
work_kkta46aprvda3kxuww62zfddua	857	33	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0300	NNP
work_kkta46aprvda3kxuww62zfddua	857	34	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0305	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0305	NNP
work_kkta46aprvda3kxuww62zfddua	857	35	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0305	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0305	NNP
work_kkta46aprvda3kxuww62zfddua	857	36	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310	NNP
work_kkta46aprvda3kxuww62zfddua	857	37	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310	NNP
work_kkta46aprvda3kxuww62zfddua	857	38	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310	NNP
work_kkta46aprvda3kxuww62zfddua	857	39	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0310	http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0310	NN
work_kkta46aprvda3kxuww62zfddua	857	40	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315	http://refhub.elsevier.com/s0005-2728(14)00091-7/rf0315	NN
work_kkta46aprvda3kxuww62zfddua	857	41	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315	NNP
work_kkta46aprvda3kxuww62zfddua	857	42	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315	NNP
work_kkta46aprvda3kxuww62zfddua	857	43	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0315	NNP
work_kkta46aprvda3kxuww62zfddua	857	44	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320	VBZ
work_kkta46aprvda3kxuww62zfddua	857	45	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320	NNP
work_kkta46aprvda3kxuww62zfddua	857	46	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320	NNP
work_kkta46aprvda3kxuww62zfddua	857	47	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0320	NNP
work_kkta46aprvda3kxuww62zfddua	857	48	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325	NNP
work_kkta46aprvda3kxuww62zfddua	857	49	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325	NNP
work_kkta46aprvda3kxuww62zfddua	857	50	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325	NNP
work_kkta46aprvda3kxuww62zfddua	857	51	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325	NNP
work_kkta46aprvda3kxuww62zfddua	857	52	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0325	NNP
work_kkta46aprvda3kxuww62zfddua	857	53	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330	NNP
work_kkta46aprvda3kxuww62zfddua	857	54	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330	NNP
work_kkta46aprvda3kxuww62zfddua	857	55	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330	NNP
work_kkta46aprvda3kxuww62zfddua	857	56	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330	NNP
work_kkta46aprvda3kxuww62zfddua	857	57	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0330	NNP
work_kkta46aprvda3kxuww62zfddua	857	58	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335	NNP
work_kkta46aprvda3kxuww62zfddua	857	59	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335	NNP
work_kkta46aprvda3kxuww62zfddua	857	60	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0335	NNP
work_kkta46aprvda3kxuww62zfddua	857	61	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	NNP
work_kkta46aprvda3kxuww62zfddua	857	62	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	NNP
work_kkta46aprvda3kxuww62zfddua	857	63	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	NNP
work_kkta46aprvda3kxuww62zfddua	857	64	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	NNP
work_kkta46aprvda3kxuww62zfddua	857	65	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	NNP
work_kkta46aprvda3kxuww62zfddua	857	66	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0340	NNP
work_kkta46aprvda3kxuww62zfddua	857	67	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345	NNP
work_kkta46aprvda3kxuww62zfddua	857	68	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345	NNP
work_kkta46aprvda3kxuww62zfddua	857	69	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0345	NNP
work_kkta46aprvda3kxuww62zfddua	857	70	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350	NNP
work_kkta46aprvda3kxuww62zfddua	857	71	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350	NNP
work_kkta46aprvda3kxuww62zfddua	857	72	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350	NNP
work_kkta46aprvda3kxuww62zfddua	857	73	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350	NNP
work_kkta46aprvda3kxuww62zfddua	857	74	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0350	NNP
work_kkta46aprvda3kxuww62zfddua	857	75	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355	NNP
work_kkta46aprvda3kxuww62zfddua	857	76	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355	NNP
work_kkta46aprvda3kxuww62zfddua	857	77	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355	NNP
work_kkta46aprvda3kxuww62zfddua	857	78	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355	NNP
work_kkta46aprvda3kxuww62zfddua	857	79	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0355	NNP
work_kkta46aprvda3kxuww62zfddua	857	80	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360	NNP
work_kkta46aprvda3kxuww62zfddua	857	81	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360	NNP
work_kkta46aprvda3kxuww62zfddua	857	82	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360	NNP
work_kkta46aprvda3kxuww62zfddua	857	83	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0360	NNP
work_kkta46aprvda3kxuww62zfddua	857	84	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365	NNP
work_kkta46aprvda3kxuww62zfddua	857	85	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365	NNP
work_kkta46aprvda3kxuww62zfddua	857	86	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0365	NNP
work_kkta46aprvda3kxuww62zfddua	857	87	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370	NNP
work_kkta46aprvda3kxuww62zfddua	857	88	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370	NNP
work_kkta46aprvda3kxuww62zfddua	857	89	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370	NNP
work_kkta46aprvda3kxuww62zfddua	857	90	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370	NNP
work_kkta46aprvda3kxuww62zfddua	857	91	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0370	NNP
work_kkta46aprvda3kxuww62zfddua	857	92	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	NNP
work_kkta46aprvda3kxuww62zfddua	857	93	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	NNP
work_kkta46aprvda3kxuww62zfddua	857	94	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	NNP
work_kkta46aprvda3kxuww62zfddua	857	95	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	NNP
work_kkta46aprvda3kxuww62zfddua	857	96	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	NNP
work_kkta46aprvda3kxuww62zfddua	857	97	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	NNP
work_kkta46aprvda3kxuww62zfddua	857	98	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0375	NNP
work_kkta46aprvda3kxuww62zfddua	857	99	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0380	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0380	NNP
work_kkta46aprvda3kxuww62zfddua	857	100	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0380	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0380	NNP
work_kkta46aprvda3kxuww62zfddua	857	101	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385	NNP
work_kkta46aprvda3kxuww62zfddua	857	102	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385	NNP
work_kkta46aprvda3kxuww62zfddua	857	103	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385	NNP
work_kkta46aprvda3kxuww62zfddua	857	104	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0385	NNP
work_kkta46aprvda3kxuww62zfddua	857	105	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	NNP
work_kkta46aprvda3kxuww62zfddua	857	106	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	NNP
work_kkta46aprvda3kxuww62zfddua	857	107	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	NNP
work_kkta46aprvda3kxuww62zfddua	857	108	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	NNP
work_kkta46aprvda3kxuww62zfddua	857	109	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	NNP
work_kkta46aprvda3kxuww62zfddua	857	110	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	NNP
work_kkta46aprvda3kxuww62zfddua	857	111	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0390	NNP
work_kkta46aprvda3kxuww62zfddua	857	112	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395	NNP
work_kkta46aprvda3kxuww62zfddua	857	113	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395	NNP
work_kkta46aprvda3kxuww62zfddua	857	114	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0395	NNP
work_kkta46aprvda3kxuww62zfddua	857	115	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0400	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0400	NNP
work_kkta46aprvda3kxuww62zfddua	857	116	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0400	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0400	NNP
work_kkta46aprvda3kxuww62zfddua	857	117	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405	NNP
work_kkta46aprvda3kxuww62zfddua	857	118	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405	NNP
work_kkta46aprvda3kxuww62zfddua	857	119	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0405	NNP
work_kkta46aprvda3kxuww62zfddua	857	120	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410	NNP
work_kkta46aprvda3kxuww62zfddua	857	121	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410	NNP
work_kkta46aprvda3kxuww62zfddua	857	122	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410	NNP
work_kkta46aprvda3kxuww62zfddua	857	123	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410	NNP
work_kkta46aprvda3kxuww62zfddua	857	124	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0410	NNP
work_kkta46aprvda3kxuww62zfddua	857	125	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415	NNP
work_kkta46aprvda3kxuww62zfddua	857	126	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415	NNP
work_kkta46aprvda3kxuww62zfddua	857	127	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415	NNP
work_kkta46aprvda3kxuww62zfddua	857	128	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0415	NNP
work_kkta46aprvda3kxuww62zfddua	857	129	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0420	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0420	NNP
work_kkta46aprvda3kxuww62zfddua	857	130	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0420	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0420	NNP
work_kkta46aprvda3kxuww62zfddua	857	131	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0420	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0420	NNP
work_kkta46aprvda3kxuww62zfddua	857	132	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0425	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0425	NNP
work_kkta46aprvda3kxuww62zfddua	857	133	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0425	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0425	NNP
work_kkta46aprvda3kxuww62zfddua	857	134	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0425	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0425	NNP
work_kkta46aprvda3kxuww62zfddua	857	135	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430	NNP
work_kkta46aprvda3kxuww62zfddua	857	136	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430	NNP
work_kkta46aprvda3kxuww62zfddua	857	137	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430	NNP
work_kkta46aprvda3kxuww62zfddua	857	138	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430	NNP
work_kkta46aprvda3kxuww62zfddua	857	139	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0430	NNP
work_kkta46aprvda3kxuww62zfddua	857	140	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	NNP
work_kkta46aprvda3kxuww62zfddua	857	141	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	NNP
work_kkta46aprvda3kxuww62zfddua	857	142	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	NNP
work_kkta46aprvda3kxuww62zfddua	857	143	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	NNP
work_kkta46aprvda3kxuww62zfddua	857	144	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	NNP
work_kkta46aprvda3kxuww62zfddua	857	145	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	NNP
work_kkta46aprvda3kxuww62zfddua	857	146	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	NNP
work_kkta46aprvda3kxuww62zfddua	857	147	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	NNP
work_kkta46aprvda3kxuww62zfddua	857	148	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0435	NNP
work_kkta46aprvda3kxuww62zfddua	857	149	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440	NNP
work_kkta46aprvda3kxuww62zfddua	857	150	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440	NNP
work_kkta46aprvda3kxuww62zfddua	857	151	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440	NNP
work_kkta46aprvda3kxuww62zfddua	857	152	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0440	NNP
work_kkta46aprvda3kxuww62zfddua	857	153	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	NNP
work_kkta46aprvda3kxuww62zfddua	857	154	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	NNP
work_kkta46aprvda3kxuww62zfddua	857	155	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	NNP
work_kkta46aprvda3kxuww62zfddua	857	156	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	NNP
work_kkta46aprvda3kxuww62zfddua	857	157	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	NNP
work_kkta46aprvda3kxuww62zfddua	857	158	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0445	NNP
work_kkta46aprvda3kxuww62zfddua	857	159	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450	NNP
work_kkta46aprvda3kxuww62zfddua	857	160	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450	NNP
work_kkta46aprvda3kxuww62zfddua	857	161	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450	NNP
work_kkta46aprvda3kxuww62zfddua	857	162	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450	NNP
work_kkta46aprvda3kxuww62zfddua	857	163	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0450	NNP
work_kkta46aprvda3kxuww62zfddua	857	164	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455	NNP
work_kkta46aprvda3kxuww62zfddua	857	165	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455	NNP
work_kkta46aprvda3kxuww62zfddua	857	166	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455	NNP
work_kkta46aprvda3kxuww62zfddua	857	167	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0455	NNP
work_kkta46aprvda3kxuww62zfddua	857	168	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460	NNP
work_kkta46aprvda3kxuww62zfddua	857	169	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460	NNP
work_kkta46aprvda3kxuww62zfddua	857	170	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0460	NNP
work_kkta46aprvda3kxuww62zfddua	857	171	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465	NNP
work_kkta46aprvda3kxuww62zfddua	857	172	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465	NNP
work_kkta46aprvda3kxuww62zfddua	857	173	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0465	NNP
work_kkta46aprvda3kxuww62zfddua	857	174	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470	NNP
work_kkta46aprvda3kxuww62zfddua	857	175	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470	NNP
work_kkta46aprvda3kxuww62zfddua	857	176	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0470	NNP
work_kkta46aprvda3kxuww62zfddua	857	177	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	NNP
work_kkta46aprvda3kxuww62zfddua	857	178	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	NNP
work_kkta46aprvda3kxuww62zfddua	857	179	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	NNP
work_kkta46aprvda3kxuww62zfddua	857	180	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	NNP
work_kkta46aprvda3kxuww62zfddua	857	181	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	NNP
work_kkta46aprvda3kxuww62zfddua	857	182	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	NNP
work_kkta46aprvda3kxuww62zfddua	857	183	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0475	NNP
work_kkta46aprvda3kxuww62zfddua	857	184	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480	NNP
work_kkta46aprvda3kxuww62zfddua	857	185	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480	NNP
work_kkta46aprvda3kxuww62zfddua	857	186	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0480	NNP
work_kkta46aprvda3kxuww62zfddua	857	187	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485	NNP
work_kkta46aprvda3kxuww62zfddua	857	188	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485	NNP
work_kkta46aprvda3kxuww62zfddua	857	189	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485	NNP
work_kkta46aprvda3kxuww62zfddua	857	190	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0485	NNP
work_kkta46aprvda3kxuww62zfddua	857	191	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490	NNP
work_kkta46aprvda3kxuww62zfddua	857	192	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490	NNP
work_kkta46aprvda3kxuww62zfddua	857	193	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0490	NNP
work_kkta46aprvda3kxuww62zfddua	857	194	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	NNP
work_kkta46aprvda3kxuww62zfddua	857	195	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	NNP
work_kkta46aprvda3kxuww62zfddua	857	196	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	NNP
work_kkta46aprvda3kxuww62zfddua	857	197	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	NNP
work_kkta46aprvda3kxuww62zfddua	857	198	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	NNP
work_kkta46aprvda3kxuww62zfddua	857	199	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0495	NNP
work_kkta46aprvda3kxuww62zfddua	857	200	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500	NNP
work_kkta46aprvda3kxuww62zfddua	857	201	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500	NNP
work_kkta46aprvda3kxuww62zfddua	857	202	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500	NNP
work_kkta46aprvda3kxuww62zfddua	857	203	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500	NNP
work_kkta46aprvda3kxuww62zfddua	857	204	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0500	NNP
work_kkta46aprvda3kxuww62zfddua	857	205	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505	NNP
work_kkta46aprvda3kxuww62zfddua	857	206	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505	NNP
work_kkta46aprvda3kxuww62zfddua	857	207	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505	NNP
work_kkta46aprvda3kxuww62zfddua	857	208	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0505	NNP
work_kkta46aprvda3kxuww62zfddua	857	209	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0510	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0510	NNP
work_kkta46aprvda3kxuww62zfddua	857	210	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0510	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0510	NNP
work_kkta46aprvda3kxuww62zfddua	857	211	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515	NNP
work_kkta46aprvda3kxuww62zfddua	857	212	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515	NNP
work_kkta46aprvda3kxuww62zfddua	857	213	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0515	NNP
work_kkta46aprvda3kxuww62zfddua	857	214	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520	NNPS
work_kkta46aprvda3kxuww62zfddua	857	215	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520	NNPS
work_kkta46aprvda3kxuww62zfddua	857	216	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520	NNPS
work_kkta46aprvda3kxuww62zfddua	857	217	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520	NNPS
work_kkta46aprvda3kxuww62zfddua	857	218	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520	http://refhub.elsevier.com/S0005-2728(14)00091-7/rf0520	NNPS
work_kkta46aprvda3kxuww62zfddua	857	219	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	857	220	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	857	221	from	from	IN
work_kkta46aprvda3kxuww62zfddua	857	222	archaea	archaea	NN
work_kkta46aprvda3kxuww62zfddua	857	223	:	:	:
work_kkta46aprvda3kxuww62zfddua	857	224	The	the	DT
work_kkta46aprvda3kxuww62zfddua	857	225	beauty	beauty	NN
work_kkta46aprvda3kxuww62zfddua	857	226	of	of	IN
work_kkta46aprvda3kxuww62zfddua	857	227	a	a	DT
work_kkta46aprvda3kxuww62zfddua	857	228	molecular	molecular	JJ
work_kkta46aprvda3kxuww62zfddua	857	229	motor	motor	NN
work_kkta46aprvda3kxuww62zfddua	857	230	1	1	CD
work_kkta46aprvda3kxuww62zfddua	857	231	.	.	.
work_kkta46aprvda3kxuww62zfddua	858	1	Introduction	introduction	NN
work_kkta46aprvda3kxuww62zfddua	858	2	2	2	CD
work_kkta46aprvda3kxuww62zfddua	858	3	.	.	.
work_kkta46aprvda3kxuww62zfddua	859	1	Energy	energy	NN
work_kkta46aprvda3kxuww62zfddua	859	2	conservation	conservation	NN
work_kkta46aprvda3kxuww62zfddua	859	3	in	in	IN
work_kkta46aprvda3kxuww62zfddua	859	4	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	859	5	3	3	CD
work_kkta46aprvda3kxuww62zfddua	859	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	860	1	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	860	2	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	860	3	from	from	IN
work_kkta46aprvda3kxuww62zfddua	860	4	archaea	archaea	NNP
work_kkta46aprvda3kxuww62zfddua	860	5	4	4	CD
work_kkta46aprvda3kxuww62zfddua	860	6	.	.	.
work_kkta46aprvda3kxuww62zfddua	861	1	Structure	structure	NN
work_kkta46aprvda3kxuww62zfddua	861	2	and	and	CC
work_kkta46aprvda3kxuww62zfddua	861	3	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	861	4	mechanism	mechanism	NN
work_kkta46aprvda3kxuww62zfddua	861	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	861	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	861	7	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	861	8	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	861	9	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	861	10	4.1	4.1	CD
work_kkta46aprvda3kxuww62zfddua	861	11	.	.	.
work_kkta46aprvda3kxuww62zfddua	862	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	862	2	overall	overall	JJ
work_kkta46aprvda3kxuww62zfddua	862	3	arrangement	arrangement	NN
work_kkta46aprvda3kxuww62zfddua	862	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	862	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	862	6	A1AO	A1AO	NNP
work_kkta46aprvda3kxuww62zfddua	862	7	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	862	8	synthase	synthase	NN
work_kkta46aprvda3kxuww62zfddua	862	9	4.2	4.2	CD
work_kkta46aprvda3kxuww62zfddua	862	10	.	.	.
work_kkta46aprvda3kxuww62zfddua	863	1	High	high	JJ
work_kkta46aprvda3kxuww62zfddua	863	2	resolution	resolution	NN
work_kkta46aprvda3kxuww62zfddua	863	3	structures	structure	NNS
work_kkta46aprvda3kxuww62zfddua	863	4	of	of	IN
work_kkta46aprvda3kxuww62zfddua	863	5	the	the	DT
work_kkta46aprvda3kxuww62zfddua	863	6	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	863	7	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	863	8	subunits	subunit	NNS
work_kkta46aprvda3kxuww62zfddua	863	9	A	a	NN
work_kkta46aprvda3kxuww62zfddua	863	10	and	and	CC
work_kkta46aprvda3kxuww62zfddua	863	11	B	B	NNP
work_kkta46aprvda3kxuww62zfddua	863	12	4.3	4.3	CD
work_kkta46aprvda3kxuww62zfddua	863	13	.	.	.
work_kkta46aprvda3kxuww62zfddua	864	1	Critical	critical	JJ
work_kkta46aprvda3kxuww62zfddua	864	2	residues	residue	NNS
work_kkta46aprvda3kxuww62zfddua	864	3	in	in	IN
work_kkta46aprvda3kxuww62zfddua	864	4	the	the	DT
work_kkta46aprvda3kxuww62zfddua	864	5	P	P	NNP
work_kkta46aprvda3kxuww62zfddua	864	6	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	864	7	loop	loop	NN
work_kkta46aprvda3kxuww62zfddua	864	8	of	of	IN
work_kkta46aprvda3kxuww62zfddua	864	9	the	the	DT
work_kkta46aprvda3kxuww62zfddua	864	10	catalytic	catalytic	JJ
work_kkta46aprvda3kxuww62zfddua	864	11	A	a	DT
work_kkta46aprvda3kxuww62zfddua	864	12	subunit	subunit	NN
work_kkta46aprvda3kxuww62zfddua	864	13	4.4	4.4	CD
work_kkta46aprvda3kxuww62zfddua	864	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	865	1	How	how	WRB
work_kkta46aprvda3kxuww62zfddua	865	2	the	the	DT
work_kkta46aprvda3kxuww62zfddua	865	3	nucleotide	nucleotide	JJ
work_kkta46aprvda3kxuww62zfddua	865	4	enters	enter	VBZ
work_kkta46aprvda3kxuww62zfddua	865	5	into	into	IN
work_kkta46aprvda3kxuww62zfddua	865	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	865	7	binding	bind	VBG
work_kkta46aprvda3kxuww62zfddua	865	8	pocket	pocket	NN
work_kkta46aprvda3kxuww62zfddua	865	9	4.5	4.5	CD
work_kkta46aprvda3kxuww62zfddua	865	10	.	.	.
work_kkta46aprvda3kxuww62zfddua	866	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	866	2	central	central	JJ
work_kkta46aprvda3kxuww62zfddua	866	3	stalk	stalk	NN
work_kkta46aprvda3kxuww62zfddua	866	4	couples	couple	NNS
work_kkta46aprvda3kxuww62zfddua	866	5	ion	ion	NN
work_kkta46aprvda3kxuww62zfddua	866	6	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	866	7	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	866	8	and	and	CC
work_kkta46aprvda3kxuww62zfddua	866	9	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	866	10	synthesis	synthesis	NN
work_kkta46aprvda3kxuww62zfddua	866	11	4.6	4.6	CD
work_kkta46aprvda3kxuww62zfddua	866	12	.	.	.
work_kkta46aprvda3kxuww62zfddua	867	1	The	the	DT
work_kkta46aprvda3kxuww62zfddua	867	2	peripheral	peripheral	JJ
work_kkta46aprvda3kxuww62zfddua	867	3	stalks	stalk	NNS
work_kkta46aprvda3kxuww62zfddua	867	4	and	and	CC
work_kkta46aprvda3kxuww62zfddua	867	5	its	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	867	6	elastic	elastic	JJ
work_kkta46aprvda3kxuww62zfddua	867	7	features	feature	NNS
work_kkta46aprvda3kxuww62zfddua	867	8	4.7	4.7	CD
work_kkta46aprvda3kxuww62zfddua	867	9	.	.	.
work_kkta46aprvda3kxuww62zfddua	868	1	Architecture	architecture	NN
work_kkta46aprvda3kxuww62zfddua	868	2	of	of	IN
work_kkta46aprvda3kxuww62zfddua	868	3	the	the	DT
work_kkta46aprvda3kxuww62zfddua	868	4	membrane	membrane	NN
work_kkta46aprvda3kxuww62zfddua	868	5	-	-	HYPH
work_kkta46aprvda3kxuww62zfddua	868	6	embedded	embed	VBN
work_kkta46aprvda3kxuww62zfddua	868	7	AO	AO	NNP
work_kkta46aprvda3kxuww62zfddua	868	8	domain	domain	NN
work_kkta46aprvda3kxuww62zfddua	868	9	5	5	CD
work_kkta46aprvda3kxuww62zfddua	868	10	.	.	.
work_kkta46aprvda3kxuww62zfddua	869	1	Ion	ion	VB
work_kkta46aprvda3kxuww62zfddua	869	2	translocation	translocation	NN
work_kkta46aprvda3kxuww62zfddua	869	3	and	and	CC
work_kkta46aprvda3kxuww62zfddua	869	4	-specificity	-specificity	NN
work_kkta46aprvda3kxuww62zfddua	869	5	of	of	IN
work_kkta46aprvda3kxuww62zfddua	869	6	the	the	DT
work_kkta46aprvda3kxuww62zfddua	869	7	c	c	NNP
work_kkta46aprvda3kxuww62zfddua	869	8	ring	ring	NN
work_kkta46aprvda3kxuww62zfddua	869	9	of	of	IN
work_kkta46aprvda3kxuww62zfddua	869	10	A1AO	a1ao	JJ
work_kkta46aprvda3kxuww62zfddua	869	11	ATP	ATP	NNP
work_kkta46aprvda3kxuww62zfddua	869	12	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	869	13	6	6	CD
work_kkta46aprvda3kxuww62zfddua	869	14	.	.	.
work_kkta46aprvda3kxuww62zfddua	870	1	Adaptations	adaptation	NNS
work_kkta46aprvda3kxuww62zfddua	870	2	of	of	IN
work_kkta46aprvda3kxuww62zfddua	870	3	archaeal	archaeal	JJ
work_kkta46aprvda3kxuww62zfddua	870	4	ATP	atp	NN
work_kkta46aprvda3kxuww62zfddua	870	5	synthases	synthase	NNS
work_kkta46aprvda3kxuww62zfddua	870	6	to	to	IN
work_kkta46aprvda3kxuww62zfddua	870	7	the	the	DT
work_kkta46aprvda3kxuww62zfddua	870	8	inhospitable	inhospitable	JJ
work_kkta46aprvda3kxuww62zfddua	870	9	environments	environment	NNS
work_kkta46aprvda3kxuww62zfddua	870	10	their	-PRON-	PRP$
work_kkta46aprvda3kxuww62zfddua	870	11	hosts	host	NNS
work_kkta46aprvda3kxuww62zfddua	870	12	thrive	thrive	VBP
work_kkta46aprvda3kxuww62zfddua	870	13	in	in	IN
work_kkta46aprvda3kxuww62zfddua	870	14	7	7	CD
work_kkta46aprvda3kxuww62zfddua	870	15	.	.	.
work_kkta46aprvda3kxuww62zfddua	871	1	Conclusion	Conclusion	NNP
work_kkta46aprvda3kxuww62zfddua	871	2	Acknowledgments	Acknowledgments	NNP
work_kkta46aprvda3kxuww62zfddua	871	3	References	References	NNPS