id	sid	tid	token	lemma	pos
work_mciwbq3j25fmfahnuo7lhyuotq	1	1	Mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	1	2	DNA	dna	NN
work_mciwbq3j25fmfahnuo7lhyuotq	1	3	:	:	:
work_mciwbq3j25fmfahnuo7lhyuotq	1	4	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	1	5	Heart	heart	NN
work_mciwbq3j25fmfahnuo7lhyuotq	1	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	1	7	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	1	8	Matter	Matter	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	9	Wednesday	Wednesday	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	10	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	1	11	February	February	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	12	11	11	CD
work_mciwbq3j25fmfahnuo7lhyuotq	1	13	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	1	14	2015	2015	CD
work_mciwbq3j25fmfahnuo7lhyuotq	1	15	607a	607a	CD
work_mciwbq3j25fmfahnuo7lhyuotq	1	16	3061-Pos	3061-pos	CD
work_mciwbq3j25fmfahnuo7lhyuotq	1	17	Board	Board	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	18	B491	B491	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	19	Cardiolipin	Cardiolipin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	20	Reorganization	Reorganization	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	21	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	1	22	Phase	Phase	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	23	Transition	transition	NN
work_mciwbq3j25fmfahnuo7lhyuotq	1	24	Induced	induce	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	1	25	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	1	26	Dynamin-	Dynamin-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	27	Related	Related	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	28	Protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	1	29	1	1	CD
work_mciwbq3j25fmfahnuo7lhyuotq	1	30	Facilitates	Facilitates	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	31	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	32	Membrane	Membrane	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	33	Fission	Fission	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	34	Natalia	Natalia	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	35	Stepanyants	Stepanyants	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	1	36	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	1	37	Patrick	Patrick	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	38	Macdonald	Macdonald	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	39	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	1	40	Rajesh	Rajesh	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	41	Ramachandran	Ramachandran	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	1	42	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	2	1	Physiology	Physiology	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	2	2	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	2	3	Biophysics	Biophysics	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	2	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	2	5	Case	Case	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	2	6	Western	Western	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	2	7	Reserve	Reserve	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	2	8	University	University	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	2	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	2	10	Cleveland	Cleveland	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	2	11	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	2	12	OH	OH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	2	13	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	2	14	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	2	15	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	3	1	Cardiolipin	Cardiolipin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	3	2	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	3	3	CL	CL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	3	4	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	3	5	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	3	6	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	3	7	unique	unique	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	3	8	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	3	9	dimeric	dimeric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	3	10	phospholipid	phospholipid	NN
work_mciwbq3j25fmfahnuo7lhyuotq	3	11	essential	essential	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	3	12	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	3	13	mitochondrial	mitochondrial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	3	14	dynamics	dynamic	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	3	15	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	3	16	eukaryotic	eukaryotic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	3	17	cells	cell	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	3	18	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	4	1	Dynamin	dynamin	NN
work_mciwbq3j25fmfahnuo7lhyuotq	4	2	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	4	3	related	relate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	4	4	protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	4	5	1	1	CD
work_mciwbq3j25fmfahnuo7lhyuotq	4	6	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	4	7	Drp1	Drp1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	4	8	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	4	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	4	10	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	4	11	member	member	NN
work_mciwbq3j25fmfahnuo7lhyuotq	4	12	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	4	13	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	4	14	dynamin	dynamin	NN
work_mciwbq3j25fmfahnuo7lhyuotq	4	15	superfamily	superfamily	RB
work_mciwbq3j25fmfahnuo7lhyuotq	4	16	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	4	17	large	large	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	4	18	GTPases	gtpase	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	4	19	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	4	20	maintains	maintain	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	4	21	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	4	22	balance	balance	NN
work_mciwbq3j25fmfahnuo7lhyuotq	4	23	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	4	24	mitochon-	mitochon-	FW
work_mciwbq3j25fmfahnuo7lhyuotq	4	25	drial	drial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	4	26	division	division	NN
work_mciwbq3j25fmfahnuo7lhyuotq	4	27	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	4	28	fusion	fusion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	4	29	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	4	30	rapidly	rapidly	RB
work_mciwbq3j25fmfahnuo7lhyuotq	4	31	catalyzing	catalyze	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	4	32	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	4	33	fission	fission	NN
work_mciwbq3j25fmfahnuo7lhyuotq	4	34	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	5	1	Although	although	IN
work_mciwbq3j25fmfahnuo7lhyuotq	5	2	recent	recent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	5	3	studies	study	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	5	4	have	have	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	5	5	indicated	indicate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	5	6	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	5	7	role	role	NN
work_mciwbq3j25fmfahnuo7lhyuotq	5	8	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	5	9	CL	CL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	5	10	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	5	11	stimulating	stimulate	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	5	12	Drp1	Drp1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	5	13	self	self	NN
work_mciwbq3j25fmfahnuo7lhyuotq	5	14	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	5	15	assembly	assembly	NN
work_mciwbq3j25fmfahnuo7lhyuotq	5	16	as	as	RB
work_mciwbq3j25fmfahnuo7lhyuotq	5	17	well	well	RB
work_mciwbq3j25fmfahnuo7lhyuotq	5	18	as	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	5	19	GTPase	GTPase	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	5	20	activity	activity	NN
work_mciwbq3j25fmfahnuo7lhyuotq	5	21	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	5	22	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	5	23	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	5	24	surface	surface	NN
work_mciwbq3j25fmfahnuo7lhyuotq	5	25	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	5	26	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	5	27	exact	exact	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	5	28	mechanism	mechanism	NN
work_mciwbq3j25fmfahnuo7lhyuotq	5	29	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	5	30	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	5	31	CL	CL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	5	32	functions	function	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	5	33	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	5	34	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	5	35	fission	fission	NN
work_mciwbq3j25fmfahnuo7lhyuotq	5	36	remains	remain	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	5	37	unclear	unclear	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	5	38	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	6	1	Here	here	RB
work_mciwbq3j25fmfahnuo7lhyuotq	6	2	we	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	6	3	use	use	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	6	4	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	6	5	variety	variety	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	7	fluorescence	fluorescence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	8	spectroscopic	spectroscopic	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	9	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	6	10	imaging	image	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	6	11	approaches	approach	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	6	12	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	6	13	together	together	RB
work_mciwbq3j25fmfahnuo7lhyuotq	6	14	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	15	model	model	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	16	membranes	membrane	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	6	17	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	6	18	to	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	6	19	demonstrate	demonstrate	VB
work_mciwbq3j25fmfahnuo7lhyuotq	6	20	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	21	Drp1	Drp1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	22	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	6	23	CL	CL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	24	function	function	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	6	25	cooperatively	cooperatively	RB
work_mciwbq3j25fmfahnuo7lhyuotq	6	26	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	27	effect-	effect-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	28	ing	ing	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	29	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	30	fission	fission	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	31	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	32	three	three	CD
work_mciwbq3j25fmfahnuo7lhyuotq	6	33	distinct	distinct	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	34	steps	step	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	6	35	:	:	:
work_mciwbq3j25fmfahnuo7lhyuotq	6	36	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	6	37	i	i	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	38	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	6	39	Drp1	Drp1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	40	’s	’s	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	41	preferential	preferential	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	42	association	association	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	43	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	44	unconstrained	unconstrained	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	45	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	6	46	fluid	fluid	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	47	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	6	48	phase	phase	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	49	CL	CL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	50	molecules	molecule	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	6	51	located	locate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	6	52	at	at	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	53	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	6	54	high	high	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	55	spatial	spatial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	56	density	density	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	57	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	58	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	6	59	membrane	membrane	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	60	bilayer	bilayer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	61	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	6	62	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	6	63	ii	ii	LS
work_mciwbq3j25fmfahnuo7lhyuotq	6	64	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	6	65	CL	CL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	66	’s	’s	POS
work_mciwbq3j25fmfahnuo7lhyuotq	6	67	reorganization	reorganization	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	68	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	69	concert	concert	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	70	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	71	Drp1	Drp1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	72	self-	self-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	73	assembly	assembly	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	74	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	6	75	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	6	76	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	6	77	iii	iii	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	78	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	6	79	CL	CL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	80	’s	’s	POS
work_mciwbq3j25fmfahnuo7lhyuotq	6	81	rapid	rapid	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	82	phase	phase	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	83	transition	transition	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	84	from	from	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	85	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	6	86	lamellar	lamellar	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	87	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	6	88	bilayer	bilayer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	89	structure	structure	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	90	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	91	an	an	DT
work_mciwbq3j25fmfahnuo7lhyuotq	6	92	inverted	inverted	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	93	hexagonal	hexagonal	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	94	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	6	95	non	non	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	96	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	97	bilayer	bilayer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	98	configuration	configuration	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	99	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	100	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	6	101	presence	presence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	102	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	103	Drp1	Drp1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	104	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	6	105	GTP	GTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	6	106	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	6	107	resulting	result	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	6	108	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	109	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	6	110	creation	creation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	111	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	112	localized	localized	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	6	113	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	114	constrictions	constriction	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	6	115	that	that	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	6	116	are	be	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	6	117	primed	prime	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	6	118	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	6	119	fission	fission	NN
work_mciwbq3j25fmfahnuo7lhyuotq	6	120	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	7	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	7	2	propose	propose	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	7	3	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	7	4	Drp1	Drp1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	7	5	thus	thus	RB
work_mciwbq3j25fmfahnuo7lhyuotq	7	6	catalyzes	catalyze	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	7	7	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	7	8	division	division	NN
work_mciwbq3j25fmfahnuo7lhyuotq	7	9	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	8	1	3062-Pos	3062-Pos	NFP
work_mciwbq3j25fmfahnuo7lhyuotq	8	2	Board	board	NN
work_mciwbq3j25fmfahnuo7lhyuotq	8	3	B492	B492	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	4	VDAC3	vdac3	NN
work_mciwbq3j25fmfahnuo7lhyuotq	8	5	Forms	Forms	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	6	Typical	Typical	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	7	Voltage	Voltage	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	8	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	8	9	Gated	Gated	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	10	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	8	11	Anion	Anion	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	12	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	8	13	Selective	Selective	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	14	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	8	15	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	8	16	Tubulin-	Tubulin-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	17	Sensitive	Sensitive	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	18	Channels	Channels	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	8	19	Oscar	Oscar	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	20	Teijido	Teijido	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	21	Hermida1	Hermida1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	22	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	8	23	Adam	Adam	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	24	J.	J.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	25	Kuszak2	Kuszak2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	26	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	8	27	Susan	Susan	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	28	K.	K.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	29	Buchanan3	Buchanan3	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	30	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	8	31	Sergey	Sergey	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	32	M.	M.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	33	Bezrukov1	Bezrukov1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	34	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	8	35	Tatiana	Tatiana	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	36	K.	K.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	37	Rostovtseva1	Rostovtseva1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	8	38	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	9	1	1Program	1program	CD
work_mciwbq3j25fmfahnuo7lhyuotq	9	2	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	9	3	Physical	Physical	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	4	Biology	Biology	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	5	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	6	NICHD	NICHD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	7	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	8	NICHD	NICHD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	10	National	National	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	11	Institutes	Institutes	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	9	12	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	9	13	Health	Health	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	14	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	9	15	NIH	NIH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	16	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	9	17	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	18	Bethesda	Bethesda	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	19	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	20	MD	MD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	21	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	22	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	23	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	24	2NIDDK	2niddk	CD
work_mciwbq3j25fmfahnuo7lhyuotq	9	25	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	26	National	National	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	27	Institutes	Institutes	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	9	28	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	9	29	Health	Health	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	30	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	9	31	NIH	NIH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	32	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	9	33	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	34	Bethesda	Bethesda	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	35	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	36	MD	MD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	37	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	38	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	39	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	40	3	3	CD
work_mciwbq3j25fmfahnuo7lhyuotq	9	41	Program	Program	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	42	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	9	43	Physical	Physical	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	44	Biology	Biology	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	45	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	46	NICHD	NICHD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	47	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	48	NIDDK	NIDDK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	49	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	50	National	National	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	51	Institutes	Institutes	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	9	52	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	9	53	Health	Health	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	54	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	9	55	NIH	NIH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	56	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	9	57	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	58	Bethesda	Bethesda	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	59	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	60	MD	MD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	61	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	9	62	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	9	63	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	10	1	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	10	2	Voltage	Voltage	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	10	3	Dependent	Dependent	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	10	4	Anion	Anion	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	10	5	Channel	Channel	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	10	6	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	10	7	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	10	8	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	10	9	forms	form	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	10	10	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	10	11	major	major	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	10	12	pathway	pathway	NN
work_mciwbq3j25fmfahnuo7lhyuotq	10	13	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	10	14	metabolites	metabolite	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	10	15	across	across	IN
work_mciwbq3j25fmfahnuo7lhyuotq	10	16	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	10	17	mitochondrial	mitochondrial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	10	18	outer	outer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	10	19	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	10	20	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	10	21	MOM	MOM	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	10	22	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	10	23	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	11	1	Mammalian	mammalian	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	11	2	mitochondria	mitochondrion	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	11	3	have	have	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	11	4	three	three	CD
work_mciwbq3j25fmfahnuo7lhyuotq	11	5	isoforms	isoform	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	11	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	11	7	this	this	DT
work_mciwbq3j25fmfahnuo7lhyuotq	11	8	protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	11	9	:	:	:
work_mciwbq3j25fmfahnuo7lhyuotq	11	10	VDAC1	VDAC1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	11	11	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	11	12	VDAC2	VDAC2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	11	13	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	11	14	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	11	15	VDAC3	VDAC3	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	11	16	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	11	17	may	may	MD
work_mciwbq3j25fmfahnuo7lhyuotq	11	18	play	play	VB
work_mciwbq3j25fmfahnuo7lhyuotq	11	19	different	different	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	11	20	roles	role	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	11	21	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	11	22	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	11	23	regulation	regulation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	11	24	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	11	25	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	11	26	func-	func-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	11	27	tions	tion	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	11	28	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	12	1	VDAC1	VDAC1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	12	2	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	12	3	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	12	4	most	most	RBS
work_mciwbq3j25fmfahnuo7lhyuotq	12	5	studied	studied	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	12	6	isoform	isoform	NN
work_mciwbq3j25fmfahnuo7lhyuotq	12	7	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	12	8	since	since	IN
work_mciwbq3j25fmfahnuo7lhyuotq	12	9	it	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	12	10	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	12	11	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	12	12	major	major	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	12	13	protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	12	14	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	12	15	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	12	16	MOM	MOM	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	12	17	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	12	18	most	most	JJS
work_mciwbq3j25fmfahnuo7lhyuotq	12	19	cells	cell	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	12	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	12	21	followed	follow	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	12	22	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	12	23	VDAC2	VDAC2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	12	24	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	13	1	Both	both	DT
work_mciwbq3j25fmfahnuo7lhyuotq	13	2	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	13	3	VDAC1	VDAC1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	13	4	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	13	5	VDAC2	VDAC2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	13	6	recon-	recon-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	13	7	stituted	stitute	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	13	8	into	into	IN
work_mciwbq3j25fmfahnuo7lhyuotq	13	9	planar	planar	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	13	10	membranes	membrane	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	13	11	form	form	NN
work_mciwbq3j25fmfahnuo7lhyuotq	13	12	voltage	voltage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	13	13	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	13	14	dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	13	15	anion	anion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	13	16	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	13	17	selective	selective	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	13	18	chan-	chan-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	13	19	nels	nel	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	13	20	whose	whose	WP$
work_mciwbq3j25fmfahnuo7lhyuotq	13	21	conductance	conductance	NN
work_mciwbq3j25fmfahnuo7lhyuotq	13	22	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	13	23	modulated	modulate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	13	24	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	13	25	dimeric	dimeric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	13	26	tubulin	tubulin	NN
work_mciwbq3j25fmfahnuo7lhyuotq	13	27	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	14	1	As	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	14	2	counterpart	counterpart	NN
work_mciwbq3j25fmfahnuo7lhyuotq	14	3	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	14	4	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	14	5	poor	poor	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	14	6	channel	channel	NN
work_mciwbq3j25fmfahnuo7lhyuotq	14	7	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	14	8	forming	form	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	14	9	ability	ability	NN
work_mciwbq3j25fmfahnuo7lhyuotq	14	10	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	14	11	VDAC3	vdac3	NN
work_mciwbq3j25fmfahnuo7lhyuotq	14	12	together	together	RB
work_mciwbq3j25fmfahnuo7lhyuotq	14	13	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	14	14	its	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	14	15	low	low	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	14	16	proficiency	proficiency	NN
work_mciwbq3j25fmfahnuo7lhyuotq	14	17	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	14	18	restoring	restore	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	14	19	normal	normal	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	14	20	growth	growth	NN
work_mciwbq3j25fmfahnuo7lhyuotq	14	21	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	14	22	pore	pore	NN
work_mciwbq3j25fmfahnuo7lhyuotq	14	23	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	14	24	less	less	JJR
work_mciwbq3j25fmfahnuo7lhyuotq	14	25	yeast	yeast	NN
work_mciwbq3j25fmfahnuo7lhyuotq	14	26	led	lead	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	14	27	to	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	14	28	hypothesize	hypothesize	VB
work_mciwbq3j25fmfahnuo7lhyuotq	14	29	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	14	30	this	this	DT
work_mciwbq3j25fmfahnuo7lhyuotq	14	31	isoform	isoform	NN
work_mciwbq3j25fmfahnuo7lhyuotq	14	32	does	do	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	14	33	not	not	RB
work_mciwbq3j25fmfahnuo7lhyuotq	14	34	form	form	VB
work_mciwbq3j25fmfahnuo7lhyuotq	14	35	channels	channel	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	14	36	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	14	37	could	could	MD
work_mciwbq3j25fmfahnuo7lhyuotq	14	38	be	be	VB
work_mciwbq3j25fmfahnuo7lhyuotq	14	39	just	just	RB
work_mciwbq3j25fmfahnuo7lhyuotq	14	40	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	14	41	modulator	modulator	NN
work_mciwbq3j25fmfahnuo7lhyuotq	14	42	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	14	43	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	14	44	other	other	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	14	45	two	two	CD
work_mciwbq3j25fmfahnuo7lhyuotq	14	46	isoforms	isoform	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	14	47	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	15	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	15	2	developed	develop	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	15	3	an	an	DT
work_mciwbq3j25fmfahnuo7lhyuotq	15	4	improved	improved	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	15	5	protocol	protocol	NN
work_mciwbq3j25fmfahnuo7lhyuotq	15	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	15	7	purification	purification	NN
work_mciwbq3j25fmfahnuo7lhyuotq	15	8	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	15	9	refolding	refolding	NN
work_mciwbq3j25fmfahnuo7lhyuotq	15	10	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	15	11	mouse	mouse	NN
work_mciwbq3j25fmfahnuo7lhyuotq	15	12	re-	re-	RB
work_mciwbq3j25fmfahnuo7lhyuotq	15	13	combinant	combinant	NN
work_mciwbq3j25fmfahnuo7lhyuotq	15	14	VDAC3	VDAC3	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	15	15	that	that	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	15	16	allowed	allow	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	15	17	us	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	15	18	to	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	15	19	fully	fully	RB
work_mciwbq3j25fmfahnuo7lhyuotq	15	20	characterize	characterize	VB
work_mciwbq3j25fmfahnuo7lhyuotq	15	21	channels	channel	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	15	22	formed	form	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	15	23	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	15	24	VDAC3	VDAC3	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	15	25	reconstituted	reconstitute	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	15	26	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	15	27	planar	planar	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	15	28	lipid	lipid	NN
work_mciwbq3j25fmfahnuo7lhyuotq	15	29	membranes	membrane	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	15	30	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	15	31	to	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	15	32	compare	compare	VB
work_mciwbq3j25fmfahnuo7lhyuotq	15	33	its	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	15	34	channel	channel	NN
work_mciwbq3j25fmfahnuo7lhyuotq	15	35	properties	property	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	15	36	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	15	37	those	those	DT
work_mciwbq3j25fmfahnuo7lhyuotq	15	38	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	15	39	VDAC1	VDAC1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	15	40	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	15	41	VDAC2	VDAC2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	15	42	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	16	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	16	2	observed	observe	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	16	3	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	16	4	typical	typical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	16	5	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	16	6	channel	channel	NN
work_mciwbq3j25fmfahnuo7lhyuotq	16	7	behavior	behavior	NN
work_mciwbq3j25fmfahnuo7lhyuotq	16	8	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	16	9	VDAC3	vdac3	NN
work_mciwbq3j25fmfahnuo7lhyuotq	16	10	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	16	11	such	such	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	16	12	as	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	16	13	high	high	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	16	14	conductive	conductive	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	16	15	open	open	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	16	16	state	state	NN
work_mciwbq3j25fmfahnuo7lhyuotq	16	17	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	16	18	3.5	3.5	CD
work_mciwbq3j25fmfahnuo7lhyuotq	16	19	-	-	SYM
work_mciwbq3j25fmfahnuo7lhyuotq	16	20	4.1	4.1	CD
work_mciwbq3j25fmfahnuo7lhyuotq	16	21	nS	nS	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	16	22	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	16	23	1	1	CD
work_mciwbq3j25fmfahnuo7lhyuotq	16	24	M	M	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	16	25	KCl	KCl	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	16	26	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	16	27	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	16	28	multiple	multiple	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	16	29	low	low	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	16	30	conductive	conductive	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	16	31	states	state	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	16	32	at	at	IN
work_mciwbq3j25fmfahnuo7lhyuotq	16	33	potentials	potential	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	16	34	R	R	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	16	35	540mV	540mv	CD
work_mciwbq3j25fmfahnuo7lhyuotq	16	36	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	16	37	selectivity	selectivity	NN
work_mciwbq3j25fmfahnuo7lhyuotq	16	38	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	16	39	anions	anion	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	16	40	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	16	41	PCl	PCl	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	16	42	-/PK	-/PK	:
work_mciwbq3j25fmfahnuo7lhyuotq	16	43	þ¼	þ¼	CD
work_mciwbq3j25fmfahnuo7lhyuotq	16	44	1.7	1.7	CD
work_mciwbq3j25fmfahnuo7lhyuotq	16	45	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	16	46	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	16	47	typical	typical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	16	48	voltage-	voltage-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	16	49	gating	gating	NN
work_mciwbq3j25fmfahnuo7lhyuotq	16	50	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	17	1	This	this	DT
work_mciwbq3j25fmfahnuo7lhyuotq	17	2	suggests	suggest	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	17	3	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	17	4	structural	structural	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	17	5	homology	homology	NN
work_mciwbq3j25fmfahnuo7lhyuotq	17	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	17	7	VDAC3	vdac3	NN
work_mciwbq3j25fmfahnuo7lhyuotq	17	8	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	17	9	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	17	10	other	other	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	17	11	two	two	CD
work_mciwbq3j25fmfahnuo7lhyuotq	17	12	iso-	iso-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	17	13	forms	form	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	17	14	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	18	1	Interestingly	interestingly	RB
work_mciwbq3j25fmfahnuo7lhyuotq	18	2	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	18	3	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	18	4	most	most	RBS
work_mciwbq3j25fmfahnuo7lhyuotq	18	5	distinct	distinct	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	18	6	characteristic	characteristic	NN
work_mciwbq3j25fmfahnuo7lhyuotq	18	7	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	18	8	VDAC3	VDAC3	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	18	9	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	18	10	its	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	18	11	signifi-	signifi-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	18	12	cantly	cantly	RB
work_mciwbq3j25fmfahnuo7lhyuotq	18	13	lower	low	JJR
work_mciwbq3j25fmfahnuo7lhyuotq	18	14	sensitivity	sensitivity	NN
work_mciwbq3j25fmfahnuo7lhyuotq	18	15	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	18	16	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	18	17	blockage	blockage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	18	18	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	18	19	tubulin	tubulin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	18	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	18	21	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	18	22	would	would	MD
work_mciwbq3j25fmfahnuo7lhyuotq	18	23	lead	lead	VB
work_mciwbq3j25fmfahnuo7lhyuotq	18	24	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	18	25	an	an	DT
work_mciwbq3j25fmfahnuo7lhyuotq	18	26	increased	increase	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	18	27	permeability	permeability	NN
work_mciwbq3j25fmfahnuo7lhyuotq	18	28	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	18	29	this	this	DT
work_mciwbq3j25fmfahnuo7lhyuotq	18	30	channel	channel	NN
work_mciwbq3j25fmfahnuo7lhyuotq	18	31	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	18	32	ATP	atp	NN
work_mciwbq3j25fmfahnuo7lhyuotq	18	33	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	18	34	other	other	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	18	35	metabolites	metabolite	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	18	36	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	19	1	This	this	DT
work_mciwbq3j25fmfahnuo7lhyuotq	19	2	might	may	MD
work_mciwbq3j25fmfahnuo7lhyuotq	19	3	explain	explain	VB
work_mciwbq3j25fmfahnuo7lhyuotq	19	4	why	why	WRB
work_mciwbq3j25fmfahnuo7lhyuotq	19	5	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	19	6	down	down	NN
work_mciwbq3j25fmfahnuo7lhyuotq	19	7	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	19	8	regulation	regulation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	19	9	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	19	10	VDAC3	vdac3	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	19	11	expression	expression	NN
work_mciwbq3j25fmfahnuo7lhyuotq	19	12	among	among	IN
work_mciwbq3j25fmfahnuo7lhyuotq	19	13	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	19	14	three	three	CD
work_mciwbq3j25fmfahnuo7lhyuotq	19	15	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	19	16	isoforms	isoform	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	19	17	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	19	18	some	some	DT
work_mciwbq3j25fmfahnuo7lhyuotq	19	19	cancer	cancer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	19	20	cells	cell	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	19	21	causes	cause	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	19	22	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	19	23	most	most	RBS
work_mciwbq3j25fmfahnuo7lhyuotq	19	24	drastic	drastic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	19	25	decrease	decrease	NN
work_mciwbq3j25fmfahnuo7lhyuotq	19	26	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	19	27	their	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	19	28	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	19	29	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	19	30	potential	potential	NN
work_mciwbq3j25fmfahnuo7lhyuotq	19	31	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	19	32	or	or	CC
work_mciwbq3j25fmfahnuo7lhyuotq	19	33	why	why	WRB
work_mciwbq3j25fmfahnuo7lhyuotq	19	34	VDAC3	VDAC3	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	19	35	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	19	36	predominantly	predominantly	RB
work_mciwbq3j25fmfahnuo7lhyuotq	19	37	ex-	ex-	RB
work_mciwbq3j25fmfahnuo7lhyuotq	19	38	pressed	press	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	19	39	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	19	40	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	19	41	short	short	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	19	42	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	19	43	term	term	NN
work_mciwbq3j25fmfahnuo7lhyuotq	19	44	high	high	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	19	45	energy	energy	NN
work_mciwbq3j25fmfahnuo7lhyuotq	19	46	demanding	demand	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	19	47	cells	cell	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	19	48	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	19	49	such	such	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	19	50	as	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	19	51	spermatozoa	spermatozoa	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	19	52	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	20	1	3063-Pos	3063-Pos	NFP
work_mciwbq3j25fmfahnuo7lhyuotq	20	2	Board	board	NN
work_mciwbq3j25fmfahnuo7lhyuotq	20	3	B493	B493	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	4	Channeling	channel	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	20	5	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	20	6	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	7	Energy	Energy	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	8	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	20	9	Cardiac	Cardiac	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	10	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	20	11	Cancer	Cancer	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	12	Cells	Cells	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	20	13	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	20	14	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	20	15	Metabolically	metabolically	RB
work_mciwbq3j25fmfahnuo7lhyuotq	20	16	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	20	17	Dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	20	18	Outer	Outer	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	19	Membrane	Membrane	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	20	Potential	Potential	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	21	Victor	Victor	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	22	V.	V.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	23	Lemeshko	Lemeshko	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	20	24	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	21	1	Escuela	Escuela	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	21	2	de	de	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	21	3	Fisica	Fisica	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	21	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	21	5	Universidad	Universidad	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	21	6	Nacional	Nacional	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	21	7	de	de	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	21	8	Colombia	Colombia	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	21	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	21	10	Medellin	Medellin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	21	11	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	21	12	Colombia	Colombia	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	21	13	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	22	1	Mitochondria	Mitochondria	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	22	2	are	be	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	22	3	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	22	4	main	main	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	22	5	source	source	NN
work_mciwbq3j25fmfahnuo7lhyuotq	22	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	22	7	energy	energy	NN
work_mciwbq3j25fmfahnuo7lhyuotq	22	8	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	22	9	eukaryotic	eukaryotic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	22	10	non	non	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	22	11	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	22	12	proliferating	proliferating	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	22	13	aer-	aer-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	22	14	obic	obic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	22	15	cells	cell	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	22	16	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	23	1	In	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	23	2	cancer	cancer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	23	3	cells	cell	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	23	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	23	5	significant	significant	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	23	6	part	part	NN
work_mciwbq3j25fmfahnuo7lhyuotq	23	7	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	23	8	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	23	9	energy	energy	NN
work_mciwbq3j25fmfahnuo7lhyuotq	23	10	metabolism	metabolism	NN
work_mciwbq3j25fmfahnuo7lhyuotq	23	11	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	23	12	sup-	sup-	RB
work_mciwbq3j25fmfahnuo7lhyuotq	23	13	ported	port	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	23	14	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	23	15	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	23	16	aerobic	aerobic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	23	17	glycolysis	glycolysis	NN
work_mciwbq3j25fmfahnuo7lhyuotq	23	18	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	24	1	Oxidative	oxidative	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	24	2	phosphorylation	phosphorylation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	24	3	metabolites	metabolite	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	24	4	cross	cross	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	24	5	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	24	6	mitochondrial	mitochondrial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	24	7	outer	outer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	24	8	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	24	9	through	through	IN
work_mciwbq3j25fmfahnuo7lhyuotq	24	10	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	24	11	voltage	voltage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	24	12	dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	24	13	anion	anion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	24	14	channel	channel	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	24	15	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	24	16	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	24	17	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	24	18	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	25	1	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	25	2	possibility	possibility	NN
work_mciwbq3j25fmfahnuo7lhyuotq	25	3	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	25	4	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	25	5	voltage	voltage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	25	6	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	25	7	gating	gate	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	25	8	functioning	functioning	NN
work_mciwbq3j25fmfahnuo7lhyuotq	25	9	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	25	10	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	25	11	under	under	IN
work_mciwbq3j25fmfahnuo7lhyuotq	25	12	physiological	physiological	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	25	13	conditions	condition	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	25	14	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	25	15	proposed	propose	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	25	16	mechanisms	mechanism	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	25	17	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	25	18	generation	generation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	25	19	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	25	20	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	25	21	outer	outer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	25	22	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	25	23	potential	potential	NN
work_mciwbq3j25fmfahnuo7lhyuotq	25	24	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	25	25	OMP	OMP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	25	26	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	25	27	require	require	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	25	28	further	further	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	25	29	study	study	NN
work_mciwbq3j25fmfahnuo7lhyuotq	25	30	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	26	1	In	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	26	2	this	this	DT
work_mciwbq3j25fmfahnuo7lhyuotq	26	3	work	work	NN
work_mciwbq3j25fmfahnuo7lhyuotq	26	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	26	5	we	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	26	6	present	present	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	26	7	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	26	8	computational	computational	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	26	9	thermodynamic	thermodynamic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	26	10	analysis	analysis	NN
work_mciwbq3j25fmfahnuo7lhyuotq	26	11	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	26	12	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	26	13	possible	possible	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	26	14	generation	generation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	26	15	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	26	16	OMP	OMP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	26	17	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	26	18	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	26	19	creatine	creatine	JJR
work_mciwbq3j25fmfahnuo7lhyuotq	26	20	kinase(CK)-VDAC	kinase(CK)-VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	26	21	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	26	22	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	26	23	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	26	24	hexokinase(HK	hexokinase(HK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	26	25	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	26	26	com-	com-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	26	27	plexes	plexe	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	26	28	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	26	29	as	as	RB
work_mciwbq3j25fmfahnuo7lhyuotq	26	30	well	well	RB
work_mciwbq3j25fmfahnuo7lhyuotq	26	31	as	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	26	32	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	26	33	their	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	26	34	intermembrane	intermembrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	26	35	complexes	complex	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	26	36	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	26	37	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	26	38	adenine	adenine	NN
work_mciwbq3j25fmfahnuo7lhyuotq	26	39	nucleo-	nucleo-	FW
work_mciwbq3j25fmfahnuo7lhyuotq	26	40	tide	tide	NN
work_mciwbq3j25fmfahnuo7lhyuotq	26	41	translocator	translocator	NN
work_mciwbq3j25fmfahnuo7lhyuotq	26	42	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	26	43	ANT	ANT	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	26	44	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	26	45	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	27	1	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	27	2	CK	CK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	3	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	27	4	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	5	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	27	6	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	7	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	27	8	HK	HK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	9	complexes	complex	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	27	10	function	function	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	27	11	as	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	27	12	direct	direct	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	27	13	steady	steady	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	27	14	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	27	15	state	state	NN
work_mciwbq3j25fmfahnuo7lhyuotq	27	16	voltage	voltage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	27	17	generators	generator	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	27	18	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	27	19	using	use	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	27	20	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	27	21	free	free	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	27	22	energy	energy	NN
work_mciwbq3j25fmfahnuo7lhyuotq	27	23	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	27	24	kinase	kinase	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	25	reac-	reac-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	26	tions	tion	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	27	27	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	27	28	while	while	IN
work_mciwbq3j25fmfahnuo7lhyuotq	27	29	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	27	30	ANT	ANT	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	31	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	27	32	CK	CK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	33	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	27	34	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	35	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	27	36	ANT	ANT	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	37	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	27	38	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	39	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	27	40	HK	HK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	41	complexes	complex	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	27	42	allow	allow	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	27	43	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	27	44	application	application	NN
work_mciwbq3j25fmfahnuo7lhyuotq	27	45	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	27	46	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	27	47	part	part	NN
work_mciwbq3j25fmfahnuo7lhyuotq	27	48	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	27	49	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	27	50	sum	sum	NN
work_mciwbq3j25fmfahnuo7lhyuotq	27	51	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	27	52	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	27	53	corresponding	corresponding	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	27	54	‘	'	``
work_mciwbq3j25fmfahnuo7lhyuotq	27	55	‘	'	``
work_mciwbq3j25fmfahnuo7lhyuotq	27	56	kinase	kinase	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	27	57	voltage	voltage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	27	58	’	'	''
work_mciwbq3j25fmfahnuo7lhyuotq	27	59	’	'	''
work_mciwbq3j25fmfahnuo7lhyuotq	27	60	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	27	61	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	27	62	inner	inner	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	27	63	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	27	64	potential	potential	NN
work_mciwbq3j25fmfahnuo7lhyuotq	27	65	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	27	66	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	27	67	outer	outer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	27	68	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	27	69	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	28	1	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	28	2	developed	develop	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	28	3	computa-	computa-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	28	4	tional	tional	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	28	5	models	model	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	28	6	demonstrate	demonstrate	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	28	7	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	28	8	high	high	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	28	9	probability	probability	NN
work_mciwbq3j25fmfahnuo7lhyuotq	28	10	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	28	11	generation	generation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	28	12	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	28	13	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	28	14	metabolically	metabolically	RB
work_mciwbq3j25fmfahnuo7lhyuotq	28	15	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	28	16	dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	28	17	OMP	OMP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	28	18	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	28	19	magnitudes	magnitude	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	28	20	high	high	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	28	21	enough	enough	RB
work_mciwbq3j25fmfahnuo7lhyuotq	28	22	to	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	28	23	close	close	VB
work_mciwbq3j25fmfahnuo7lhyuotq	28	24	free	free	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	28	25	VDACs	vdac	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	28	26	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	29	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	29	2	suggest	suggest	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	29	3	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	29	4	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	29	5	case	case	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	29	7	cardiac	cardiac	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	29	8	cells	cell	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	29	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	29	10	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	29	11	CK	CK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	29	12	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	29	13	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	29	14	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	29	15	mediated	mediate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	29	16	channeling	channeling	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	17	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	29	18	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	19	energy	energy	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	29	21	earlier	early	RBR
work_mciwbq3j25fmfahnuo7lhyuotq	29	22	postulated	postulate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	29	23	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	29	24	Saks	Saks	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	29	25	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	29	26	Wallimann	Wallimann	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	29	27	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	29	28	leads	lead	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	29	29	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	29	30	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	29	31	metabolically	metabolically	RB
work_mciwbq3j25fmfahnuo7lhyuotq	29	32	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	29	33	dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	29	34	generation	generation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	35	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	29	36	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	29	37	high	high	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	29	38	OMP	OMP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	29	39	during	during	IN
work_mciwbq3j25fmfahnuo7lhyuotq	29	40	systole	systole	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	41	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	29	42	thus	thus	RB
work_mciwbq3j25fmfahnuo7lhyuotq	29	43	causing	cause	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	29	44	electrical	electrical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	29	45	closure	closure	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	46	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	29	47	free	free	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	29	48	VDACs	vdac	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	29	49	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	29	50	essentially	essentially	RB
work_mciwbq3j25fmfahnuo7lhyuotq	29	51	avoiding	avoid	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	29	52	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	29	53	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	54	ATP	atp	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	55	usage	usage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	56	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	29	57	non	non	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	29	58	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	29	59	contraction	contraction	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	29	60	system	system	NN
work_mciwbq3j25fmfahnuo7lhyuotq	29	61	consumers	consumer	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	29	62	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	30	1	In	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	30	2	case	case	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	3	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	30	4	cancer	cancer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	5	cells	cell	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	30	6	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	30	7	that	that	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	30	8	have	have	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	30	9	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	30	10	very	very	RB
work_mciwbq3j25fmfahnuo7lhyuotq	30	11	high	high	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	30	12	percentage	percentage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	13	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	30	14	hexokinase	hexokinase	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	15	attached	attach	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	30	16	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	30	17	mito-	mito-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	30	18	chondria	chondria	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	30	19	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	30	20	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	30	21	electrical	electrical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	30	22	closure	closure	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	23	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	30	24	free	free	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	30	25	VDACs	VDACs	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	30	26	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	30	27	OMP	OMP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	30	28	allows	allow	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	30	29	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	30	30	preferential	preferential	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	30	31	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	30	32	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	30	33	HK	HK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	30	34	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	30	35	mediated	mediate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	30	36	channeling	channeling	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	37	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	30	38	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	30	39	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	40	ATP	atp	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	41	to	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	30	42	initiate	initiate	VB
work_mciwbq3j25fmfahnuo7lhyuotq	30	43	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	30	44	aer-	aer-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	45	obic	obic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	30	46	glycolysis	glycolysis	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	47	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	30	48	an	an	DT
work_mciwbq3j25fmfahnuo7lhyuotq	30	49	anti	anti	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	30	50	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	30	51	turbo	turbo	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	30	52	mode	mode	NN
work_mciwbq3j25fmfahnuo7lhyuotq	30	53	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	31	1	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	31	2	Research	research	NN
work_mciwbq3j25fmfahnuo7lhyuotq	31	3	grants	grant	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	31	4	#	#	$
work_mciwbq3j25fmfahnuo7lhyuotq	31	5	111852128625	111852128625	CD
work_mciwbq3j25fmfahnuo7lhyuotq	31	6	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	31	7	#	#	$
work_mciwbq3j25fmfahnuo7lhyuotq	31	8	520154531565	520154531565	CD
work_mciwbq3j25fmfahnuo7lhyuotq	31	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	31	10	Colciencias	Colciencias	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	31	11	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	31	12	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	32	1	3064-Pos	3064-Pos	NFP
work_mciwbq3j25fmfahnuo7lhyuotq	32	2	Board	Board	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	3	B494	B494	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	4	Alpha	Alpha	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	5	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	32	6	Synuclein	Synuclein	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	7	Blocks	Blocks	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	8	VDAC	vdac	RB
work_mciwbq3j25fmfahnuo7lhyuotq	32	9	Suggesting	suggest	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	32	10	Mechanism	Mechanism	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	11	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	32	12	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	13	Regulation	Regulation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	14	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	32	15	Toxicity	Toxicity	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	16	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	32	17	Parkinson	Parkinson	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	18	Disease	Disease	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	19	Philip	Philip	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	20	A.	a.	NN
work_mciwbq3j25fmfahnuo7lhyuotq	32	21	Gurnev1,2	Gurnev1,2	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	32	22	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	32	23	Tatiana	Tatiana	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	24	K.	K.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	25	Rostovtseva2	Rostovtseva2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	26	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	32	27	David	David	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	28	P.	P.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	29	Hoogerheide2,3	hoogerheide2,3	CD
work_mciwbq3j25fmfahnuo7lhyuotq	32	30	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	32	31	Olga	Olga	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	32	Protchenko4	Protchenko4	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	33	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	32	34	Thai	Thai	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	35	Leong	Leong	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	36	Yap5	Yap5	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	37	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	32	38	Jennifer	Jennifer	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	39	C.	C.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	40	Lee5	Lee5	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	41	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	32	42	Sergey	Sergey	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	43	M.	M.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	44	Bezrukov2	Bezrukov2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	32	45	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	33	1	1Physics	1Physics	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	2	Department	Department	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	3	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	4	UMass	UMass	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	5	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	33	6	Amherst	Amherst	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	7	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	8	Amherst	Amherst	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	10	MA	MA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	11	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	12	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	13	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	14	2Section	2Section	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	15	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	33	16	Molecular	Molecular	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	17	Transport	Transport	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	18	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	19	PPB	PPB	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	20	/	/	SYM
work_mciwbq3j25fmfahnuo7lhyuotq	33	21	NICHD	NICHD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	22	/	/	SYM
work_mciwbq3j25fmfahnuo7lhyuotq	33	23	NIH	NIH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	24	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	25	Bethesda	Bethesda	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	26	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	27	MD	MD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	28	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	29	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	30	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	31	3Center	3Center	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	32	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	33	33	Neutron	Neutron	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	34	Research	Research	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	35	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	36	NIST	NIST	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	37	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	38	Gaithersburg	Gaithersburg	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	39	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	40	MD	MD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	41	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	42	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	43	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	44	4Liver	4Liver	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	45	Diseases	Diseases	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	33	46	Branch	Branch	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	47	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	48	NIDDK	NIDDK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	49	/	/	SYM
work_mciwbq3j25fmfahnuo7lhyuotq	33	50	NIH	NIH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	51	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	52	Bethesda	Bethesda	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	53	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	54	MD	MD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	55	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	56	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	57	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	58	5	5	CD
work_mciwbq3j25fmfahnuo7lhyuotq	33	59	Laboratory	Laboratory	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	60	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	33	61	Protein	Protein	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	62	Conformation	Conformation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	63	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	33	64	Dynamics	Dynamics	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	65	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	66	NHLBI	NHLBI	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	67	/	/	SYM
work_mciwbq3j25fmfahnuo7lhyuotq	33	68	NIH	NIH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	69	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	70	Bethesda	Bethesda	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	71	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	72	MD	MD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	73	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	33	74	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	33	75	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	34	1	Alpha	alpha	NN
work_mciwbq3j25fmfahnuo7lhyuotq	34	2	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	34	3	synuclein	synuclein	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	34	4	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	34	5	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	34	6	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	34	7	syn	syn	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	34	8	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	34	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	34	10	an	an	DT
work_mciwbq3j25fmfahnuo7lhyuotq	34	11	intrinsically	intrinsically	RB
work_mciwbq3j25fmfahnuo7lhyuotq	34	12	disordered	disorder	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	34	13	neuronal	neuronal	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	34	14	protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	34	15	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	34	16	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	34	17	impli-	impli-	RB
work_mciwbq3j25fmfahnuo7lhyuotq	34	18	cated	cat	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	34	19	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	34	20	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	34	21	etiology	etiology	NN
work_mciwbq3j25fmfahnuo7lhyuotq	34	22	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	34	23	Parkinson	Parkinson	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	34	24	disease	disease	NN
work_mciwbq3j25fmfahnuo7lhyuotq	34	25	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	34	26	PD	PD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	34	27	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	34	28	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	34	29	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	34	30	number	number	NN
work_mciwbq3j25fmfahnuo7lhyuotq	34	31	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	34	32	other	other	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	34	33	neurode-	neurode-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	34	34	generative	generative	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	34	35	dementias	dementia	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	34	36	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	35	1	Though	though	IN
work_mciwbq3j25fmfahnuo7lhyuotq	35	2	recent	recent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	35	3	research	research	NN
work_mciwbq3j25fmfahnuo7lhyuotq	35	4	demonstrates	demonstrate	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	35	5	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	35	6	involvement	involvement	NN
work_mciwbq3j25fmfahnuo7lhyuotq	35	7	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	35	8	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	35	9	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	35	10	syn	syn	NN
work_mciwbq3j25fmfahnuo7lhyuotq	35	11	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	35	12	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	35	13	variety	variety	NN
work_mciwbq3j25fmfahnuo7lhyuotq	35	14	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	35	15	mitochondrial	mitochondrial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	35	16	dysfunction	dysfunction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	35	17	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	35	18	neurodegeneration	neurodegeneration	NN
work_mciwbq3j25fmfahnuo7lhyuotq	35	19	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	35	20	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	35	21	mo-	mo-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	35	22	lecular	lecular	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	35	23	mechanism	mechanism	NN
work_mciwbq3j25fmfahnuo7lhyuotq	35	24	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	35	25	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	35	26	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	35	27	syn	syn	NN
work_mciwbq3j25fmfahnuo7lhyuotq	35	28	toxicity	toxicity	NN
work_mciwbq3j25fmfahnuo7lhyuotq	35	29	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	35	30	its	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	35	31	effect	effect	NN
work_mciwbq3j25fmfahnuo7lhyuotq	35	32	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	35	33	neuronal	neuronal	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	35	34	mitochondria	mitochondria	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	35	35	remain	remain	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	35	36	vague	vague	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	35	37	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	36	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	36	2	demonstrate	demonstrate	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	36	3	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	36	4	functional	functional	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	36	5	interaction	interaction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	36	6	between	between	IN
work_mciwbq3j25fmfahnuo7lhyuotq	36	7	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	36	8	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	36	9	syn	syn	NN
work_mciwbq3j25fmfahnuo7lhyuotq	36	10	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	36	11	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	36	12	voltage	voltage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	36	13	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	36	14	dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	36	15	anion	anion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	36	16	channel	channel	NN
work_mciwbq3j25fmfahnuo7lhyuotq	36	17	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	36	18	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	36	19	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	36	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	36	21	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	36	22	major	major	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	36	23	conduit	conduit	NN
work_mciwbq3j25fmfahnuo7lhyuotq	36	24	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	36	25	ATP	atp	NN
work_mciwbq3j25fmfahnuo7lhyuotq	36	26	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	36	27	other	other	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	36	28	bioenergetics	bioenergetic	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	36	29	metabolites	metabolite	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	36	30	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	36	31	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	36	32	mitochondrial	mitochondrial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	36	33	outer	outer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	36	34	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	36	35	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	37	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	37	2	found	find	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	37	3	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	37	4	at	at	IN
work_mciwbq3j25fmfahnuo7lhyuotq	37	5	nanomolar	nanomolar	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	37	6	concentrations	concentration	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	37	7	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	37	8	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	37	9	full	full	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	37	10	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	37	11	length	length	NN
work_mciwbq3j25fmfahnuo7lhyuotq	37	12	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	37	13	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	37	14	syn	syn	NN
work_mciwbq3j25fmfahnuo7lhyuotq	37	15	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	37	16	its	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	37	17	45	45	CD
work_mciwbq3j25fmfahnuo7lhyuotq	37	18	amino	amino	NN
work_mciwbq3j25fmfahnuo7lhyuotq	37	19	acid	acid	NN
work_mciwbq3j25fmfahnuo7lhyuotq	37	20	C	C	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	37	21	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	37	22	terminal	terminal	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	37	23	truncated	truncate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	37	24	mutant	mutant	NN
work_mciwbq3j25fmfahnuo7lhyuotq	37	25	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	37	26	as	as	RB
work_mciwbq3j25fmfahnuo7lhyuotq	37	27	well	well	RB
work_mciwbq3j25fmfahnuo7lhyuotq	37	28	as	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	37	29	b-	b-	XX
work_mciwbq3j25fmfahnuo7lhyuotq	37	30	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	37	31	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	37	32	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	37	33	synuclein	synuclein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	37	34	isoforms	isoform	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	37	35	induce	induce	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	37	36	reversible	reversible	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	37	37	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	37	38	highly	highly	RB
work_mciwbq3j25fmfahnuo7lhyuotq	37	39	voltage	voltage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	37	40	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	37	41	dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	37	42	blockage	blockage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	37	43	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	37	44	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	37	45	reconsti-	reconsti-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	37	46	tuted	tut	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	37	47	into	into	IN
work_mciwbq3j25fmfahnuo7lhyuotq	37	48	planar	planar	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	37	49	lipid	lipid	NN
work_mciwbq3j25fmfahnuo7lhyuotq	37	50	bilayers	bilayer	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	37	51	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	38	1	Binding	bind	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	38	2	parameters	parameter	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	38	3	varied	vary	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	38	4	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	38	5	each	each	DT
work_mciwbq3j25fmfahnuo7lhyuotq	38	6	isoform	isoform	NN
work_mciwbq3j25fmfahnuo7lhyuotq	38	7	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	38	8	revealing	reveal	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	38	9	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	38	10	key	key	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	38	11	role	role	NN
work_mciwbq3j25fmfahnuo7lhyuotq	38	12	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	38	13	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	38	14	negatively	negatively	RB
work_mciwbq3j25fmfahnuo7lhyuotq	38	15	charged	charge	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	38	16	C	C	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	38	17	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	38	18	terminal	terminal	NN
work_mciwbq3j25fmfahnuo7lhyuotq	38	19	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	38	20	synucleins	synuclein	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	38	21	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	38	22	blocking	block	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	38	23	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	38	24	positively	positively	RB
work_mciwbq3j25fmfahnuo7lhyuotq	38	25	charged	charge	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	38	26	pore	pore	NN
work_mciwbq3j25fmfahnuo7lhyuotq	38	27	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	38	28	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	38	29	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	39	1	Synuclein	Synuclein	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	39	2	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	39	3	blocked	block	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	39	4	states	state	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	39	5	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	39	6	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	39	7	differ	differ	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	39	8	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	39	9	ionic	ionic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	39	10	selectivity	selectivity	NN
work_mciwbq3j25fmfahnuo7lhyuotq	39	11	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	39	12	implying	imply	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	39	13	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	39	14	existence	existence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	39	15	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	39	16	several	several	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	39	17	conforma-	conforma-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	39	18	tion	tion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	39	19	states	state	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	39	20	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	39	21	synuclein	synuclein	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	39	22	molecules	molecules	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	39	23	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	39	24	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	39	25	channel	channel	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	39	26	pore	pore	NN
work_mciwbq3j25fmfahnuo7lhyuotq	39	27	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	40	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	40	2	propose	propose	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	40	3	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	40	4	model	model	NN
work_mciwbq3j25fmfahnuo7lhyuotq	40	5	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	40	6	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	40	7	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	40	8	syn	syn	NN
work_mciwbq3j25fmfahnuo7lhyuotq	40	9	interaction	interaction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	40	10	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	40	11	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	40	12	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	40	13	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	40	14	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	40	15	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	40	16	negatively	negatively	RB
work_mciwbq3j25fmfahnuo7lhyuotq	40	17	charged	charge	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	40	18	C	C	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	40	19	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	40	20	terminus	terminus	NN
work_mciwbq3j25fmfahnuo7lhyuotq	40	21	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	40	22	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	40	23	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	40	24	syn	syn	NN
work_mciwbq3j25fmfahnuo7lhyuotq	40	25	enters	enter	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	40	26	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	40	27	net	net	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	40	28	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	40	29	positive	positive	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	40	30	channel	channel	NN
work_mciwbq3j25fmfahnuo7lhyuotq	40	31	pore	pore	NN
work_mciwbq3j25fmfahnuo7lhyuotq	40	32	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	40	33	providing	provide	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	40	34	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	40	35	steric	steric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	40	36	block	block	NN
work_mciwbq3j25fmfahnuo7lhyuotq	40	37	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	40	38	ATP	ATP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	40	39	flux	flux	NN
work_mciwbq3j25fmfahnuo7lhyuotq	40	40	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	41	1	Experiments	experiment	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	41	2	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	41	3	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	41	4	yeast	yeast	NN
work_mciwbq3j25fmfahnuo7lhyuotq	41	5	strain	strain	NN
work_mciwbq3j25fmfahnuo7lhyuotq	41	6	deficient	deficient	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	41	7	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	41	8	VDAC1	VDAC1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	41	9	demonstrate	demonstrate	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	41	10	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	41	11	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	41	12	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	41	13	syn	syn	NN
work_mciwbq3j25fmfahnuo7lhyuotq	41	14	toxicity	toxicity	NN
work_mciwbq3j25fmfahnuo7lhyuotq	41	15	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	41	16	yeast	yeast	NN
work_mciwbq3j25fmfahnuo7lhyuotq	41	17	depends	depend	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	41	18	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	41	19	VDAC	VDAC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	41	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	41	21	revealing	reveal	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	41	22	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	41	23	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	41	24	syn	syn	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	41	25	interaction	interaction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	41	26	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	41	27	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	41	28	channel	channel	NN
work_mciwbq3j25fmfahnuo7lhyuotq	41	29	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	41	30	living	live	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	41	31	cells	cell	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	41	32	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	42	1	Thus	thus	RB
work_mciwbq3j25fmfahnuo7lhyuotq	42	2	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	42	3	our	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	42	4	findings	finding	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	42	5	show	show	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	42	6	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	42	7	long	long	RB
work_mciwbq3j25fmfahnuo7lhyuotq	42	8	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	42	9	sought	seek	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	42	10	physiolog-	physiolog-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	42	11	ical	ical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	42	12	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	42	13	pathophysiological	pathophysiological	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	42	14	roles	role	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	42	15	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	42	16	monomeric	monomeric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	42	17	a	a	NN
work_mciwbq3j25fmfahnuo7lhyuotq	42	18	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	42	19	syn	syn	NN
work_mciwbq3j25fmfahnuo7lhyuotq	42	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	42	21	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	42	22	reconcile	reconcile	RB
work_mciwbq3j25fmfahnuo7lhyuotq	42	23	previ-	previ-	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	42	24	ous	ous	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	42	25	observations	observation	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	42	26	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	42	27	various	various	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	42	28	synuclein	synuclein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	42	29	effects	effect	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	42	30	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	42	31	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	42	32	bioenergetics	bioenergetic	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	42	33	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	43	1	3065-Pos	3065-Pos	NFP
work_mciwbq3j25fmfahnuo7lhyuotq	43	2	Board	Board	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	3	B495	B495	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	4	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	5	DNA	DNA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	6	:	:	:
work_mciwbq3j25fmfahnuo7lhyuotq	43	7	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	43	8	Heart	heart	NN
work_mciwbq3j25fmfahnuo7lhyuotq	43	9	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	43	10	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	43	11	Matter	Matter	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	12	Meagan	Meagan	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	13	McManus1	McManus1	:
work_mciwbq3j25fmfahnuo7lhyuotq	43	14	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	43	15	Martin	Martin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	16	Picard1	Picard1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	17	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	43	18	Alessia	Alessia	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	19	Angelin1	Angelin1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	43	21	Prasanth	Prasanth	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	22	Potluri1	Potluri1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	23	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	43	24	Jagat	Jagat	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	25	Narula2	Narula2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	26	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	43	27	Douglas	Douglas	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	28	Wallace1	Wallace1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	43	29	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	44	1	1CHOP	1CHOP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	44	2	/	/	SYM
work_mciwbq3j25fmfahnuo7lhyuotq	44	3	UPENN	UPENN	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	44	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	44	5	Philadelphia	Philadelphia	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	44	6	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	44	7	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	44	8	PA	PA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	44	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	44	10	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	44	11	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	44	12	2Mt	2mt	CD
work_mciwbq3j25fmfahnuo7lhyuotq	44	13	Sinai	Sinai	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	44	14	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	44	15	New	New	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	44	16	York	York	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	44	17	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	44	18	NY	NY	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	44	19	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	44	20	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	44	21	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	45	1	Cardiac	cardiac	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	45	2	conduction	conduction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	45	3	defects	defect	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	45	4	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	45	5	cardiomyopathy	cardiomyopathy	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	45	6	are	be	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	45	7	commonly	commonly	RB
work_mciwbq3j25fmfahnuo7lhyuotq	45	8	reported	report	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	45	9	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	45	10	pa-	pa-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	45	11	tients	tient	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	45	12	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	45	13	inborn	inborn	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	45	14	errors	error	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	45	15	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	45	16	metabolism	metabolism	NN
work_mciwbq3j25fmfahnuo7lhyuotq	45	17	harboring	harbor	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	45	18	pathogenic	pathogenic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	45	19	mutations	mutation	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	45	20	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	45	21	either	either	DT
work_mciwbq3j25fmfahnuo7lhyuotq	45	22	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	45	23	or	or	CC
work_mciwbq3j25fmfahnuo7lhyuotq	45	24	nuclear	nuclear	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	45	25	DNA	DNA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	45	26	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	45	27	mtDNA	mtDNA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	45	28	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	45	29	nDNA	ndna	RB
work_mciwbq3j25fmfahnuo7lhyuotq	45	30	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	45	31	respectively	respectively	RB
work_mciwbq3j25fmfahnuo7lhyuotq	45	32	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	45	33	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	46	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	46	2	hypothesized	hypothesize	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	46	3	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	46	4	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	46	5	pathophysiology	pathophysiology	NN
work_mciwbq3j25fmfahnuo7lhyuotq	46	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	46	7	inborn	inborn	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	46	8	errors	error	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	46	9	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	46	10	metabolism	metabolism	NN
work_mciwbq3j25fmfahnuo7lhyuotq	46	11	varies	varie	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	46	12	due	due	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	46	13	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	46	14	synergistic	synergistic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	46	15	heterozygosity	heterozygosity	NN
work_mciwbq3j25fmfahnuo7lhyuotq	46	16	between	between	IN
work_mciwbq3j25fmfahnuo7lhyuotq	46	17	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	46	18	two	two	CD
work_mciwbq3j25fmfahnuo7lhyuotq	46	19	genomes	genome	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	46	20	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	47	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	47	2	examined	examine	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	47	3	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	47	4	13-generation	13-generation	CD
work_mciwbq3j25fmfahnuo7lhyuotq	47	5	Mennonite	Mennonite	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	47	6	pedigree	pedigree	NN
work_mciwbq3j25fmfahnuo7lhyuotq	47	7	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	47	8	autosomal	autosomal	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	47	9	recessive	recessive	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	47	10	cardiomyopathy	cardiomyopathy	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	47	11	due	due	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	47	12	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	47	13	mutation	mutation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	47	14	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	47	15	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	47	16	adenine	adenine	NN
work_mciwbq3j25fmfahnuo7lhyuotq	47	17	nucleotide	nucleotide	IN
work_mciwbq3j25fmfahnuo7lhyuotq	47	18	translocator-1	translocator-1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	47	19	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	47	20	ANT1	ANT1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	47	21	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	47	22	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	48	1	Substantial	substantial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	48	2	variability	variability	NN
work_mciwbq3j25fmfahnuo7lhyuotq	48	3	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	48	4	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	48	5	progression	progression	NN
work_mciwbq3j25fmfahnuo7lhyuotq	48	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	48	7	heart	heart	NN
work_mciwbq3j25fmfahnuo7lhyuotq	48	8	disease	disease	NN
work_mciwbq3j25fmfahnuo7lhyuotq	48	9	segregated	segregate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	48	10	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	48	11	maternal	maternal	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	48	12	lineage	lineage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	48	13	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	48	14	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	48	15	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	48	16	severity	severity	NN
work_mciwbq3j25fmfahnuo7lhyuotq	48	17	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	48	18	cardiomyopathy	cardiomyopathy	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	48	19	correlated	correlate	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	48	20	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	48	21	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	48	22	mtDNA	mtdna	NN
work_mciwbq3j25fmfahnuo7lhyuotq	48	23	haplogroups	haplogroup	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	48	24	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	48	25	Strauss	Strauss	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	48	26	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	48	27	et	et	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	48	28	al	al	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	48	29	2013	2013	CD
work_mciwbq3j25fmfahnuo7lhyuotq	48	30	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	48	31	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	49	1	To	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	49	2	determine	determine	VB
work_mciwbq3j25fmfahnuo7lhyuotq	49	3	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	49	4	causative	causative	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	49	5	nature	nature	NN
work_mciwbq3j25fmfahnuo7lhyuotq	49	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	49	7	this	this	DT
work_mciwbq3j25fmfahnuo7lhyuotq	49	8	correlation	correlation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	49	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	49	10	we	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	49	11	examined	examine	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	49	12	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	49	13	influence	influence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	49	14	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	49	15	inherited	inherit	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	49	16	mtDNA	mtdna	NN
work_mciwbq3j25fmfahnuo7lhyuotq	49	17	mutations	mutation	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	49	18	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	49	19	ANT1-	ant1-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	49	20	cardiomyopathy	cardiomyopathy	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	49	21	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	49	22	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	49	23	mouse	mouse	NN
work_mciwbq3j25fmfahnuo7lhyuotq	49	24	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	50	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	50	2	introduced	introduce	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	50	3	homoplasmic	homoplasmic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	50	4	mtDNA	mtdna	NN
work_mciwbq3j25fmfahnuo7lhyuotq	50	5	ND6	ND6	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	50	6	or	or	CC
work_mciwbq3j25fmfahnuo7lhyuotq	50	7	COI	COI	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	50	8	missense	missense	NN
work_mciwbq3j25fmfahnuo7lhyuotq	50	9	mutations	mutation	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	50	10	into	into	IN
work_mciwbq3j25fmfahnuo7lhyuotq	50	11	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	50	12	mouse	mouse	NN
work_mciwbq3j25fmfahnuo7lhyuotq	50	13	female	female	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	50	14	germ	germ	NN
work_mciwbq3j25fmfahnuo7lhyuotq	50	15	line	line	NN
work_mciwbq3j25fmfahnuo7lhyuotq	50	16	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	50	17	generating	generate	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	50	18	mice	mouse	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	50	19	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	50	20	complex	complex	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	50	21	I	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	50	22	or	or	CC
work_mciwbq3j25fmfahnuo7lhyuotq	50	23	IV	IV	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	50	24	deficiency	deficiency	NN
work_mciwbq3j25fmfahnuo7lhyuotq	50	25	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	50	26	respectively	respectively	RB
work_mciwbq3j25fmfahnuo7lhyuotq	50	27	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	50	28	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	50	29	analyzed	analyze	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	50	30	Ant1-dependent	ant1-dependent	CD
work_mciwbq3j25fmfahnuo7lhyuotq	50	31	cardiomyopathy	cardiomyopathy	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	50	32	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	50	33	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	50	34	different	different	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	50	35	mtDNA	mtdna	NN
work_mciwbq3j25fmfahnuo7lhyuotq	50	36	backgrounds	background	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	50	37	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	51	1	On	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	51	2	wt	wt	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	51	3	mtDNA	mtDNA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	51	4	back-	back-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	51	5	ground	ground	NN
work_mciwbq3j25fmfahnuo7lhyuotq	51	6	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	51	7	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	51	8	Ant1-/-	Ant1-/-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	51	9	mice	mouse	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	51	10	developed	develop	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	51	11	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	51	12	distinctive	distinctive	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	51	13	concentric	concentric	NN
work_mciwbq3j25fmfahnuo7lhyuotq	51	14	dilated	dilate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	51	15	cardiomy-	cardiomy-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	51	16	opathy	opathy	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	51	17	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	51	18	characterized	characterize	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	51	19	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	51	20	substantial	substantial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	51	21	myocardial	myocardial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	51	22	hypertrophy	hypertrophy	NN
work_mciwbq3j25fmfahnuo7lhyuotq	51	23	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	51	24	ventricular	ventricular	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	51	25	dilation	dilation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	51	26	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	52	1	Both	both	DT
work_mciwbq3j25fmfahnuo7lhyuotq	52	2	COI	COI	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	52	3	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	52	4	ND6	ND6	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	52	5	mtDNA	mtdna	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	6	mutations	mutation	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	52	7	accelerated	accelerate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	52	8	Ant1-/-	ant1-/-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	9	age-	age-	IN
work_mciwbq3j25fmfahnuo7lhyuotq	52	10	dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	52	11	cardiomyopathy	cardiomyopathy	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	52	12	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	52	13	as	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	52	14	evidenced	evidence	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	52	15	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	52	16	ultrastructrural	ultrastructrural	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	52	17	abnormalities	abnormality	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	52	18	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	52	19	bio-	bio-	CC
work_mciwbq3j25fmfahnuo7lhyuotq	52	20	energetic	energetic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	52	21	defects	defect	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	52	22	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	52	23	mtROS	mtros	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	24	production	production	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	25	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	52	26	sensitized	sensitized	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	52	27	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	28	permeability	permeability	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	29	transition	transition	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	30	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	52	31	increased	increase	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	52	32	mtDNA	mtdna	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	33	damage	damage	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	34	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	52	35	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	52	36	heart	heart	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	37	failure	failure	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	38	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	52	39	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	52	40	ultimately	ultimately	RB
work_mciwbq3j25fmfahnuo7lhyuotq	52	41	608a	608a	,
work_mciwbq3j25fmfahnuo7lhyuotq	52	42	Wednesday	Wednesday	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	52	43	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	52	44	February	February	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	52	45	11	11	CD
work_mciwbq3j25fmfahnuo7lhyuotq	52	46	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	52	47	2015	2015	CD
work_mciwbq3j25fmfahnuo7lhyuotq	52	48	attenuated	attenuate	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	52	49	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	52	50	lifespan	lifespan	NN
work_mciwbq3j25fmfahnuo7lhyuotq	52	51	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	52	52	Ant1-deficient	ant1-deficient	CD
work_mciwbq3j25fmfahnuo7lhyuotq	52	53	mice	mouse	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	52	54	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	53	1	Our	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	53	2	results	result	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	53	3	prove	prove	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	53	4	mtDNA	mtdna	CD
work_mciwbq3j25fmfahnuo7lhyuotq	53	5	dic-	dic-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	53	6	tates	tate	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	53	7	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	53	8	penetrance	penetrance	NN
work_mciwbq3j25fmfahnuo7lhyuotq	53	9	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	53	10	age	age	NN
work_mciwbq3j25fmfahnuo7lhyuotq	53	11	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	53	12	related	relate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	53	13	cardiomyopathy	cardiomyopathy	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	53	14	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	53	15	mammalian	mammalian	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	53	16	lifespan	lifespan	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	53	17	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	54	1	Therefore	therefore	RB
work_mciwbq3j25fmfahnuo7lhyuotq	54	2	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	54	3	therapeutics	therapeutic	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	54	4	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	54	5	most	most	RBS
work_mciwbq3j25fmfahnuo7lhyuotq	54	6	effectively	effectively	RB
work_mciwbq3j25fmfahnuo7lhyuotq	54	7	preserve	preserve	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	54	8	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	54	9	DNA	dna	NN
work_mciwbq3j25fmfahnuo7lhyuotq	54	10	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	54	11	bioenergetics	bioenergetic	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	54	12	will	will	MD
work_mciwbq3j25fmfahnuo7lhyuotq	54	13	provide	provide	VB
work_mciwbq3j25fmfahnuo7lhyuotq	54	14	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	54	15	most	most	JJS
work_mciwbq3j25fmfahnuo7lhyuotq	54	16	promise	promise	NN
work_mciwbq3j25fmfahnuo7lhyuotq	54	17	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	54	18	healthy	healthy	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	54	19	aging	aging	NN
work_mciwbq3j25fmfahnuo7lhyuotq	54	20	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	55	1	3066-Pos	3066-Pos	:
work_mciwbq3j25fmfahnuo7lhyuotq	55	2	Board	Board	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	3	B496	B496	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	4	Activation	Activation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	5	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	55	6	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	55	7	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	8	Permeability	Permeability	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	9	Transition	Transition	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	10	Pore	Pore	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	11	Leads	lead	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	55	12	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	55	13	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	55	14	Increase	increase	NN
work_mciwbq3j25fmfahnuo7lhyuotq	55	15	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	55	16	Amount	Amount	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	17	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	55	18	C	C	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	19	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	55	20	Subunit	Subunit	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	21	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	55	22	ATP	ATP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	23	Synthase	Synthase	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	24	Associated	Associated	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	25	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	55	26	Channel-	Channel-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	27	Forming	form	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	55	28	Complex	Complex	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	29	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	55	30	Polyhydroxybutyrate	Polyhydroxybutyrate	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	31	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	55	32	Inorganic	Inorganic	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	33	Polyphosphate	Polyphosphate	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	34	Pia	Pia	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	35	A.	a.	NN
work_mciwbq3j25fmfahnuo7lhyuotq	55	36	Elustondo1	Elustondo1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	37	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	55	38	Alexander	Alexander	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	39	Negoda1	Negoda1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	40	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	55	41	Alejandro	Alejandro	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	42	M.	M.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	43	Cohen1	Cohen1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	44	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	55	45	Evgeny	Evgeny	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	46	Pavlov2	Pavlov2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	55	47	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	56	1	1	1	CD
work_mciwbq3j25fmfahnuo7lhyuotq	56	2	Physiology	Physiology	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	3	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	56	4	Biophysics	Biophysics	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	56	5	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	56	6	Dalhousie	Dalhousie	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	7	University	University	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	8	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	56	9	Halifax	Halifax	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	10	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	56	11	NS	NS	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	12	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	56	13	Canada	Canada	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	14	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	56	15	2	2	CD
work_mciwbq3j25fmfahnuo7lhyuotq	56	16	Department	Department	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	17	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	56	18	Basic	Basic	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	19	Sciences	Sciences	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	56	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	56	21	College	College	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	22	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	56	23	Dentistry	Dentistry	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	24	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	56	25	New	New	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	26	York	York	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	27	Universty	Universty	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	28	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	56	29	New	New	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	30	York	York	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	31	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	56	32	NY	NY	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	33	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	56	34	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	56	35	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	57	1	Low	low	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	57	2	permeability	permeability	NN
work_mciwbq3j25fmfahnuo7lhyuotq	57	3	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	57	4	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	57	5	mitochondrial	mitochondrial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	57	6	inner	inner	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	57	7	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	57	8	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	57	9	critical	critical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	57	10	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	57	11	maintain-	maintain-	RB
work_mciwbq3j25fmfahnuo7lhyuotq	57	12	ing	e	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	57	13	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	57	14	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	57	15	electrochemical	electrochemical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	57	16	potential	potential	NN
work_mciwbq3j25fmfahnuo7lhyuotq	57	17	-	-	:
work_mciwbq3j25fmfahnuo7lhyuotq	57	18	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	57	19	driving	drive	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	57	20	force	force	NN
work_mciwbq3j25fmfahnuo7lhyuotq	57	21	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	57	22	ATP	ATP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	57	23	pro-	pro-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	57	24	duction	duction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	57	25	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	58	1	Acute	acute	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	58	2	stress	stress	NN
work_mciwbq3j25fmfahnuo7lhyuotq	58	3	conditions	condition	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	58	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	58	5	lead	lead	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	58	6	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	58	7	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	58	8	increase	increase	NN
work_mciwbq3j25fmfahnuo7lhyuotq	58	9	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	58	10	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	58	11	mitochondrial	mitochondrial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	58	12	inner	inner	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	58	13	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	58	14	permeability	permeability	NN
work_mciwbq3j25fmfahnuo7lhyuotq	58	15	due	due	IN
work_mciwbq3j25fmfahnuo7lhyuotq	58	16	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	58	17	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	58	18	opening	opening	NN
work_mciwbq3j25fmfahnuo7lhyuotq	58	19	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	58	20	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	58	21	permeability	permeability	NN
work_mciwbq3j25fmfahnuo7lhyuotq	58	22	transition	transition	NN
work_mciwbq3j25fmfahnuo7lhyuotq	58	23	pore	pore	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	58	24	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	58	25	PTP	PTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	58	26	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	58	27	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	59	1	PTP	PTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	59	2	allows	allow	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	59	3	free	free	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	59	4	movement	movement	NN
work_mciwbq3j25fmfahnuo7lhyuotq	59	5	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	59	6	ions	ion	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	59	7	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	59	8	small	small	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	59	9	molecules	molecule	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	59	10	leading	lead	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	59	11	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	59	12	mito-	mito-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	59	13	chondrial	chondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	59	14	depolarization	depolarization	NN
work_mciwbq3j25fmfahnuo7lhyuotq	59	15	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	59	16	ATP	atp	NN
work_mciwbq3j25fmfahnuo7lhyuotq	59	17	depletion	depletion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	59	18	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	59	19	cell	cell	NN
work_mciwbq3j25fmfahnuo7lhyuotq	59	20	death	death	NN
work_mciwbq3j25fmfahnuo7lhyuotq	59	21	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	60	1	Recent	recent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	60	2	studies	study	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	60	3	suggest	suggest	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	60	4	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	60	5	C	C	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	60	6	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	60	7	subunit	subunit	NN
work_mciwbq3j25fmfahnuo7lhyuotq	60	8	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	60	9	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	60	10	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	60	11	ATP	ATP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	60	12	synthase	synthase	NN
work_mciwbq3j25fmfahnuo7lhyuotq	60	13	plays	play	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	60	14	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	60	15	central	central	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	60	16	role	role	NN
work_mciwbq3j25fmfahnuo7lhyuotq	60	17	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	60	18	PTP	PTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	60	19	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	61	1	Previous	previous	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	61	2	work	work	NN
work_mciwbq3j25fmfahnuo7lhyuotq	61	3	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	61	4	our	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	61	5	laboratory	laboratory	NN
work_mciwbq3j25fmfahnuo7lhyuotq	61	6	showed	show	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	61	7	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	61	8	mitochondria	mitochondrion	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	61	9	contain	contain	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	61	10	non	non	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	61	11	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	61	12	protein	protein	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	61	13	complex	complex	NN
work_mciwbq3j25fmfahnuo7lhyuotq	61	14	composed	compose	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	61	15	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	61	16	polyhydroxybutyrate	polyhydroxybutyrate	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	61	17	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	61	18	inorganic	inorganic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	61	19	polyphosphate	polyphosphate	NN
work_mciwbq3j25fmfahnuo7lhyuotq	61	20	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	61	21	cal-	cal-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	61	22	cium	cium	NN
work_mciwbq3j25fmfahnuo7lhyuotq	61	23	that	that	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	61	24	forms	form	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	61	25	an	an	DT
work_mciwbq3j25fmfahnuo7lhyuotq	61	26	ion	ion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	61	27	channel	channel	NN
work_mciwbq3j25fmfahnuo7lhyuotq	61	28	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	61	29	properties	property	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	61	30	resembling	resemble	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	61	31	PTP	PTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	61	32	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	62	1	Here	here	RB
work_mciwbq3j25fmfahnuo7lhyuotq	62	2	we	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	62	3	explore	explore	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	62	4	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	62	5	possibility	possibility	NN
work_mciwbq3j25fmfahnuo7lhyuotq	62	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	62	7	interactions	interaction	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	62	8	between	between	IN
work_mciwbq3j25fmfahnuo7lhyuotq	62	9	these	these	DT
work_mciwbq3j25fmfahnuo7lhyuotq	62	10	non	non	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	62	11	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	62	12	protein	protein	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	62	13	components	component	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	62	14	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	62	15	C	C	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	62	16	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	62	17	subunit	subunit	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	62	18	during	during	IN
work_mciwbq3j25fmfahnuo7lhyuotq	62	19	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	62	20	induction	induction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	62	21	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	62	22	PTP	PTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	62	23	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	63	1	To	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	63	2	induce	induce	VB
work_mciwbq3j25fmfahnuo7lhyuotq	63	3	PTP	PTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	63	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	63	5	isolated	isolate	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	63	6	energized	energized	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	63	7	mitochondria	mitochondrion	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	63	8	were	be	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	63	9	treated	treat	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	63	10	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	63	11	calcium	calcium	NN
work_mciwbq3j25fmfahnuo7lhyuotq	63	12	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	64	1	Control	Control	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	64	2	mitochondria	mitochondrion	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	64	3	were	be	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	64	4	treated	treat	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	64	5	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	64	6	calcium	calcium	NN
work_mciwbq3j25fmfahnuo7lhyuotq	64	7	either	either	CC
work_mciwbq3j25fmfahnuo7lhyuotq	64	8	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	64	9	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	64	10	presence	presence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	64	11	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	64	12	ruthe-	ruthe-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	64	13	nium	nium	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	64	14	red	red	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	64	15	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	64	16	inhibitor	inhibitor	NN
work_mciwbq3j25fmfahnuo7lhyuotq	64	17	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	64	18	calcium	calcium	NN
work_mciwbq3j25fmfahnuo7lhyuotq	64	19	uptake	uptake	NN
work_mciwbq3j25fmfahnuo7lhyuotq	64	20	or	or	CC
work_mciwbq3j25fmfahnuo7lhyuotq	64	21	Cyclosporin	Cyclosporin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	64	22	A	A	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	64	23	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	64	24	inhibitor	inhibitor	NN
work_mciwbq3j25fmfahnuo7lhyuotq	64	25	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	64	26	PTP	PTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	64	27	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	65	1	This	this	DT
work_mciwbq3j25fmfahnuo7lhyuotq	65	2	was	be	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	65	3	followed	follow	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	65	4	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	65	5	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	65	6	water	water	NN
work_mciwbq3j25fmfahnuo7lhyuotq	65	7	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	65	8	free	free	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	65	9	chloroform	chloroform	NN
work_mciwbq3j25fmfahnuo7lhyuotq	65	10	extraction	extraction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	65	11	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	65	12	channel	channel	NN
work_mciwbq3j25fmfahnuo7lhyuotq	65	13	forming	form	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	65	14	fraction	fraction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	65	15	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	65	16	PTP	PTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	65	17	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	66	1	Components	component	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	66	2	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	66	3	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	66	4	extract	extract	NN
work_mciwbq3j25fmfahnuo7lhyuotq	66	5	were	be	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	66	6	analyzed	analyze	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	66	7	using	use	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	66	8	immunoblot	immunoblot	NN
work_mciwbq3j25fmfahnuo7lhyuotq	66	9	analysis	analysis	NN
work_mciwbq3j25fmfahnuo7lhyuotq	66	10	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	67	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	67	2	found	find	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	67	3	significantly	significantly	RB
work_mciwbq3j25fmfahnuo7lhyuotq	67	4	increased	increase	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	67	5	amount	amount	NN
work_mciwbq3j25fmfahnuo7lhyuotq	67	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	67	7	C	C	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	67	8	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	67	9	subunit	subunit	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	67	10	associated	associate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	67	11	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	67	12	channel	channel	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	67	13	forming	form	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	67	14	fraction	fraction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	67	15	extracted	extract	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	67	16	from	from	IN
work_mciwbq3j25fmfahnuo7lhyuotq	67	17	mitochondria	mitochondria	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	67	18	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	67	19	activated	activate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	67	20	PTP	PTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	67	21	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	68	1	In	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	68	2	contrast	contrast	NN
work_mciwbq3j25fmfahnuo7lhyuotq	68	3	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	68	4	C	C	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	68	5	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	68	6	subunit	subunit	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	68	7	was	be	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	68	8	not	not	RB
work_mciwbq3j25fmfahnuo7lhyuotq	68	9	detectable	detectable	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	68	10	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	68	11	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	68	12	extract	extract	NN
work_mciwbq3j25fmfahnuo7lhyuotq	68	13	when	when	WRB
work_mciwbq3j25fmfahnuo7lhyuotq	68	14	Ruthenium	Ruthenium	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	68	15	Red	Red	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	68	16	was	be	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	68	17	present	present	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	68	18	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	68	19	significantly	significantly	RB
work_mciwbq3j25fmfahnuo7lhyuotq	68	20	decreased	decrease	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	68	21	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	68	22	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	68	23	presence	presence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	68	24	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	68	25	Cyclosporin	Cyclosporin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	68	26	A	A	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	68	27	or	or	CC
work_mciwbq3j25fmfahnuo7lhyuotq	68	28	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	68	29	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	68	30	absence	absence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	68	31	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	68	32	calcium	calcium	NN
work_mciwbq3j25fmfahnuo7lhyuotq	68	33	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	69	1	These	these	DT
work_mciwbq3j25fmfahnuo7lhyuotq	69	2	results	result	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	69	3	show	show	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	69	4	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	69	5	C	C	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	69	6	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	69	7	subunit	subunit	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	69	8	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	69	9	likely	likely	RB
work_mciwbq3j25fmfahnuo7lhyuotq	69	10	an	an	DT
work_mciwbq3j25fmfahnuo7lhyuotq	69	11	interacting	interact	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	69	12	partner	partner	NN
work_mciwbq3j25fmfahnuo7lhyuotq	69	13	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	69	14	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	69	15	pore-	pore-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	69	16	forming	form	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	69	17	complex	complex	NN
work_mciwbq3j25fmfahnuo7lhyuotq	69	18	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	69	19	polyphosphate	polyphosphate	NN
work_mciwbq3j25fmfahnuo7lhyuotq	69	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	69	21	calcium	calcium	NN
work_mciwbq3j25fmfahnuo7lhyuotq	69	22	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	69	23	polyhydroxybutyrate	polyhydroxybutyrate	NN
work_mciwbq3j25fmfahnuo7lhyuotq	69	24	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	70	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	70	2	hy-	hy-	RB
work_mciwbq3j25fmfahnuo7lhyuotq	70	3	pothesize	pothesize	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	70	4	that	that	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	70	5	fully	fully	RB
work_mciwbq3j25fmfahnuo7lhyuotq	70	6	functional	functional	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	70	7	PTP	PTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	8	requires	require	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	70	9	calcium	calcium	NN
work_mciwbq3j25fmfahnuo7lhyuotq	70	10	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	70	11	induced	induce	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	70	12	formation	formation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	70	13	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	70	14	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	70	15	pore	pore	NN
work_mciwbq3j25fmfahnuo7lhyuotq	70	16	made	make	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	70	17	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	70	18	both	both	CC
work_mciwbq3j25fmfahnuo7lhyuotq	70	19	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	70	20	complexed	complexed	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	70	21	polymers	polymer	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	70	22	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	70	23	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	70	24	c	c	NN
work_mciwbq3j25fmfahnuo7lhyuotq	70	25	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	70	26	subunit	subunit	NN
work_mciwbq3j25fmfahnuo7lhyuotq	70	27	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	70	28	ATP	ATP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	29	synthase	synthase	NN
work_mciwbq3j25fmfahnuo7lhyuotq	70	30	3067-Pos	3067-Pos	:
work_mciwbq3j25fmfahnuo7lhyuotq	70	31	Board	Board	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	32	B497	B497	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	33	Small	Small	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	34	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	70	35	Molecule	molecule	NN
work_mciwbq3j25fmfahnuo7lhyuotq	70	36	PKD	PKD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	37	Inhibitor	Inhibitor	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	38	Prevents	Prevents	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	39	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	40	Fragmentation	Fragmentation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	41	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	70	42	Dysfunction	Dysfunction	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	43	during	during	IN
work_mciwbq3j25fmfahnuo7lhyuotq	70	44	Gq	Gq	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	45	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	70	46	Protein	Protein	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	47	Coupled	Coupled	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	48	Receptor	Receptor	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	49	Stimulation	Stimulation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	50	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	70	51	Car-	Car-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	52	diac	diac	NN
work_mciwbq3j25fmfahnuo7lhyuotq	70	53	Cells	Cells	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	70	54	Bong	Bong	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	55	Sook	Sook	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	56	Jhun	Jhun	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	57	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	70	58	Xiaole	Xiaole	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	59	Xu	Xu	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	60	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	70	61	Jyotsna	Jyotsna	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	62	Mishra	Mishra	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	63	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	70	64	Stephen	Stephen	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	65	Hurst	Hurst	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	66	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	70	67	Jin	Jin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	68	O	O	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	69	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	70	70	Uchi	Uchi	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	71	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	70	72	Shey	Shey	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	73	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	70	74	Shing	Shing	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	75	Sheu	Sheu	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	70	76	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	71	1	Thomas	Thomas	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	71	2	Jefferson	Jefferson	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	71	3	University	University	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	71	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	71	5	Philadelphia	Philadelphia	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	71	6	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	71	7	PA	PA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	71	8	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	71	9	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	71	10	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	72	1	Regulation	regulation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	72	2	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	72	3	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	72	4	morphology	morphology	NN
work_mciwbq3j25fmfahnuo7lhyuotq	72	5	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	72	6	dynamics	dynamic	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	72	7	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	72	8	crucial	crucial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	72	9	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	72	10	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	72	11	main-	main-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	72	12	tenance	tenance	NN
work_mciwbq3j25fmfahnuo7lhyuotq	72	13	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	72	14	various	various	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	72	15	cellular	cellular	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	72	16	functions	function	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	72	17	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	72	18	cardiomyocytes	cardiomyocyte	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	72	19	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	73	1	Abnormal	abnormal	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	73	2	mito-	mito-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	73	3	chondrial	chondrial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	73	4	morphologies	morphology	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	73	5	concomitant	concomitant	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	73	6	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	73	7	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	73	8	dysfunction	dysfunction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	73	9	are	be	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	73	10	frequently	frequently	RB
work_mciwbq3j25fmfahnuo7lhyuotq	73	11	observed	observe	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	73	12	both	both	CC
work_mciwbq3j25fmfahnuo7lhyuotq	73	13	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	73	14	human	human	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	73	15	heart	heart	NN
work_mciwbq3j25fmfahnuo7lhyuotq	73	16	failure	failure	NN
work_mciwbq3j25fmfahnuo7lhyuotq	73	17	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	73	18	HF	HF	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	73	19	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	73	20	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	73	21	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	73	22	animal	animal	NN
work_mciwbq3j25fmfahnuo7lhyuotq	73	23	HF	HF	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	73	24	models	model	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	73	25	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	74	1	However	however	RB
work_mciwbq3j25fmfahnuo7lhyuotq	74	2	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	74	3	it	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	74	4	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	74	5	still	still	RB
work_mciwbq3j25fmfahnuo7lhyuotq	74	6	unclear	unclear	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	74	7	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	74	8	cardiac	cardiac	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	74	9	signaling	signal	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	74	10	pathways	pathway	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	74	11	regulate	regulate	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	74	12	mitochon-	mitochon-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	74	13	drial	drial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	74	14	morphology	morphology	NN
work_mciwbq3j25fmfahnuo7lhyuotq	74	15	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	74	16	function	function	NN
work_mciwbq3j25fmfahnuo7lhyuotq	74	17	under	under	IN
work_mciwbq3j25fmfahnuo7lhyuotq	74	18	pathophysiological	pathophysiological	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	74	19	conditions	condition	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	74	20	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	75	1	Recent	recent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	75	2	reports	report	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	75	3	suggest	suggest	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	75	4	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	75	5	Gq	Gq	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	75	6	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	75	7	protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	75	8	coupled	couple	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	75	9	receptor	receptor	NN
work_mciwbq3j25fmfahnuo7lhyuotq	75	10	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	75	11	GqPCR	GqPCR	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	75	12	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	75	13	signaling	signal	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	75	14	pathways	pathway	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	75	15	are	be	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	75	16	critical	critical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	75	17	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	75	18	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	75	19	development	development	NN
work_mciwbq3j25fmfahnuo7lhyuotq	75	20	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	75	21	progression	progression	NN
work_mciwbq3j25fmfahnuo7lhyuotq	75	22	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	75	23	HF	HF	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	75	24	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	76	1	Therefore	therefore	RB
work_mciwbq3j25fmfahnuo7lhyuotq	76	2	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	76	3	we	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	76	4	hypoth-	hypoth-	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	76	5	esize	esize	VB
work_mciwbq3j25fmfahnuo7lhyuotq	76	6	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	76	7	GqPCR	GqPCR	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	76	8	stimulation	stimulation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	76	9	induces	induce	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	76	10	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	76	11	fragmentation	fragmentation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	76	12	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	76	13	dysfunc-	dysfunc-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	76	14	tion	tion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	76	15	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	76	16	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	76	17	initiates	initiate	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	76	18	cardiomyocyte	cardiomyocyte	NN
work_mciwbq3j25fmfahnuo7lhyuotq	76	19	death	death	NN
work_mciwbq3j25fmfahnuo7lhyuotq	76	20	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	77	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	77	2	found	find	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	77	3	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	77	4	protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	5	kinase	kinase	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	6	D	D	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	77	7	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	77	8	PKD	PKD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	77	9	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	77	10	activated	activate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	77	11	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	77	12	GqPCR	GqPCR	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	77	13	signaling	signaling	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	14	was	be	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	77	15	translocated	translocate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	77	16	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	77	17	outer	outer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	77	18	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	19	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	20	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	77	21	OMM	OMM	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	77	22	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	77	23	observed	observe	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	77	24	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	77	25	Western	western	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	77	26	blot	blot	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	27	analysis	analysis	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	28	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	77	29	cytosolic	cytosolic	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	77	30	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	77	31	mitochondria	mitochondria	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	77	32	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	77	33	enriched	enrich	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	77	34	fractionated	fractionate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	77	35	proteins	protein	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	77	36	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	77	37	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	77	38	live	live	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	77	39	cell	cell	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	40	imaging	imaging	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	41	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	77	42	fluores-	fluores-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	77	43	cence	cence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	44	resonance	resonance	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	45	energy	energy	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	46	transfer	transfer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	77	47	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	77	48	FRET	FRET	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	77	49	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	77	50	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	78	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	78	2	also	also	RB
work_mciwbq3j25fmfahnuo7lhyuotq	78	3	found	find	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	78	4	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	78	5	GqPCR	GqPCR	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	78	6	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	78	7	mediated	mediate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	78	8	PKD	PKD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	78	9	activation	activation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	10	induced	induce	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	78	11	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	12	fragmentation	fragmentation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	13	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	78	14	leading	lead	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	78	15	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	78	16	increased	increase	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	78	17	reactive	reactive	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	78	18	oxygen	oxygen	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	19	species	specie	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	78	20	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	78	21	ROS	ros	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	22	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	78	23	generation	generation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	24	as	as	RB
work_mciwbq3j25fmfahnuo7lhyuotq	78	25	well	well	RB
work_mciwbq3j25fmfahnuo7lhyuotq	78	26	as	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	78	27	increased	increase	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	78	28	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	29	permeability	permeability	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	30	transition	transition	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	78	31	pore	pore	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	78	32	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	78	33	mPTP	mPTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	78	34	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	78	35	opening	opening	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	36	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	78	37	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	78	38	initiates	initiate	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	78	39	apoptotic	apoptotic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	78	40	signaling	signal	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	78	41	activation	activation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	42	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	78	43	cardiomyocyte	cardiomyocyte	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	44	death	death	NN
work_mciwbq3j25fmfahnuo7lhyuotq	78	45	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	79	1	These	these	DT
work_mciwbq3j25fmfahnuo7lhyuotq	79	2	morphological	morphological	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	79	3	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	79	4	func-	func-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	79	5	tional	tional	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	79	6	changes	change	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	79	7	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	79	8	cardiac	cardiac	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	79	9	mitochondria	mitochondria	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	79	10	were	be	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	79	11	mediated	mediate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	79	12	via	via	IN
work_mciwbq3j25fmfahnuo7lhyuotq	79	13	PKD	PKD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	79	14	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	79	15	dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	79	16	phos-	phos-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	79	17	phorylation	phorylation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	79	18	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	79	19	mitochondrial	mitochondrial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	79	20	fission	fission	NN
work_mciwbq3j25fmfahnuo7lhyuotq	79	21	protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	79	22	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	79	23	Dynamin	dynamin	NN
work_mciwbq3j25fmfahnuo7lhyuotq	79	24	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	79	25	Like	like	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	79	26	Protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	79	27	1	1	CD
work_mciwbq3j25fmfahnuo7lhyuotq	79	28	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	79	29	DLP1	DLP1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	79	30	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	79	31	at	at	IN
work_mciwbq3j25fmfahnuo7lhyuotq	79	32	S637	S637	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	79	33	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	80	1	Moreover	moreover	RB
work_mciwbq3j25fmfahnuo7lhyuotq	80	2	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	80	3	pretreatment	pretreatment	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	80	4	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	80	5	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	80	6	novel	novel	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	80	7	potent	potent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	80	8	PKD	PKD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	80	9	inhibitor	inhibitor	NN
work_mciwbq3j25fmfahnuo7lhyuotq	80	10	CRT0066101	CRT0066101	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	80	11	effectively	effectively	RB
work_mciwbq3j25fmfahnuo7lhyuotq	80	12	inhibited	inhibit	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	80	13	GqPCR	GqPCR	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	80	14	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	80	15	mediated	mediate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	80	16	PKD	PKD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	80	17	translocation	translocation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	80	18	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	80	19	OMM	OMM	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	80	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	80	21	DLP1	DLP1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	80	22	phosphorylation	phosphorylation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	80	23	at	at	IN
work_mciwbq3j25fmfahnuo7lhyuotq	80	24	S637	S637	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	80	25	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	80	26	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	80	27	fragmentation	fragmentation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	80	28	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	80	29	ROS	ros	NN
work_mciwbq3j25fmfahnuo7lhyuotq	80	30	generation	generation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	80	31	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	80	32	mPTP	mptp	NN
work_mciwbq3j25fmfahnuo7lhyuotq	80	33	activation	activation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	80	34	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	81	1	In	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	81	2	conclusion	conclusion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	81	3	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	81	4	we	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	81	5	demonstrate	demonstrate	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	81	6	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	81	7	GqPCR	GqPCR	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	81	8	stimulation	stimulation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	81	9	induces	induce	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	81	10	mitochondrial	mitochondrial	NN
work_mciwbq3j25fmfahnuo7lhyuotq	81	11	fragmentation	fragmentation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	81	12	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	81	13	dysfunction	dysfunction	NN
work_mciwbq3j25fmfahnuo7lhyuotq	81	14	through	through	IN
work_mciwbq3j25fmfahnuo7lhyuotq	81	15	PKD	PKD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	81	16	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	81	17	dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	81	18	phosphorylation	phosphorylation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	81	19	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	81	20	DLP1	DLP1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	81	21	at	at	IN
work_mciwbq3j25fmfahnuo7lhyuotq	81	22	S637	S637	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	81	23	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	81	24	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	81	25	likely	likely	RB
work_mciwbq3j25fmfahnuo7lhyuotq	81	26	contributes	contribute	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	81	27	to	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	81	28	cardiomyocyte	cardiomyocyte	VB
work_mciwbq3j25fmfahnuo7lhyuotq	81	29	injury	injury	NN
work_mciwbq3j25fmfahnuo7lhyuotq	81	30	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	82	1	Thus	thus	RB
work_mciwbq3j25fmfahnuo7lhyuotq	82	2	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	82	3	small	small	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	82	4	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	82	5	molecule	molecule	NN
work_mciwbq3j25fmfahnuo7lhyuotq	82	6	PKD	PKD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	82	7	inhibitor	inhibitor	NN
work_mciwbq3j25fmfahnuo7lhyuotq	82	8	may	may	MD
work_mciwbq3j25fmfahnuo7lhyuotq	82	9	become	become	VB
work_mciwbq3j25fmfahnuo7lhyuotq	82	10	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	82	11	novel	novel	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	82	12	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	82	13	potent	potent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	82	14	therapeutic	therapeutic	NN
work_mciwbq3j25fmfahnuo7lhyuotq	82	15	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	82	16	preventing	prevent	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	82	17	cardiac	cardiac	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	82	18	cell	cell	NN
work_mciwbq3j25fmfahnuo7lhyuotq	82	19	injury	injury	NN
work_mciwbq3j25fmfahnuo7lhyuotq	82	20	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	82	21	death	death	NN
work_mciwbq3j25fmfahnuo7lhyuotq	82	22	during	during	IN
work_mciwbq3j25fmfahnuo7lhyuotq	82	23	HF	HF	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	82	24	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	83	1	3068-Pos	3068-Pos	NFP
work_mciwbq3j25fmfahnuo7lhyuotq	83	2	Board	board	NN
work_mciwbq3j25fmfahnuo7lhyuotq	83	3	B498	B498	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	4	EPR	EPR	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	5	Data	Data	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	6	Support	Support	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	7	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	83	8	Existence	Existence	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	9	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	83	10	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	83	11	Symmetric	Symmetric	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	12	BH3-in	BH3-in	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	13	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	83	14	Groove	Groove	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	15	Homo-	Homo-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	16	dimer	dimer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	83	17	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	83	18	Oligomeric	Oligomeric	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	19	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	20	Tirtha	Tirtha	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	21	Mandal	Mandal	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	22	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	83	23	Kyoung	Kyoung	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	24	Joon	Joon	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	83	25	Oh	oh	UH
work_mciwbq3j25fmfahnuo7lhyuotq	83	26	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	84	1	Biochemistry	Biochemistry	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	2	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	84	3	Molecular	Molecular	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	4	Biology	Biology	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	5	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	84	6	Rosalind	Rosalind	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	7	Franklin	Franklin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	8	University	University	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	9	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	84	10	Medicine	Medicine	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	11	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	84	12	Science	Science	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	13	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	84	14	North	North	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	15	Chicago	Chicago	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	16	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	84	17	IL	IL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	18	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	84	19	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	84	20	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	85	1	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	85	2	BAX	BAX	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	85	3	or	or	CC
work_mciwbq3j25fmfahnuo7lhyuotq	85	4	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	85	5	oligomeric	oligomeric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	85	6	pore	pore	NN
work_mciwbq3j25fmfahnuo7lhyuotq	85	7	formation	formation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	85	8	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	85	9	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	85	10	mitochondrialouter	mitochondrialouter	NN
work_mciwbq3j25fmfahnuo7lhyuotq	85	11	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	85	12	isacriticalstepinapoptosis	isacriticalstepinapoptosis	NN
work_mciwbq3j25fmfahnuo7lhyuotq	85	13	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	85	14	yettheirstructuresarenotclearlyunderstood	yettheirstructuresarenotclearlyunderstood	NN
work_mciwbq3j25fmfahnuo7lhyuotq	85	15	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	85	16	Czabotar	Czabotar	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	85	17	et	et	FW
work_mciwbq3j25fmfahnuo7lhyuotq	85	18	al	al	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	85	19	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	86	1	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	86	2	Cell	cell	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	3	2013	2013	CD
work_mciwbq3j25fmfahnuo7lhyuotq	86	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	86	5	152	152	CD
work_mciwbq3j25fmfahnuo7lhyuotq	86	6	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	86	7	519	519	CD
work_mciwbq3j25fmfahnuo7lhyuotq	86	8	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	86	9	reported	report	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	86	10	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	86	11	crystal	crystal	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	12	structure	structure	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	13	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	86	14	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	86	15	water	water	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	16	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	86	17	soluble	soluble	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	86	18	tetramer	tetramer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	19	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	86	20	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	86	21	BAX	BAX	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	22	fragment	fragment	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	23	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	86	24	helices	helix	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	86	25	a2-a5	a2-a5	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	26	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	86	27	fused	fuse	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	86	28	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	86	29	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	86	30	green	green	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	86	31	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	86	32	fluorescent	fluorescent	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	33	protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	34	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	86	35	GFP	GFP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	36	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	86	37	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	86	38	inwhichthea2-a3extendedhelicesandthea5helix	inwhichthea2-a3extendedhelicesandthea5helix	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	86	39	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	86	40	respectively	respectively	RB
work_mciwbq3j25fmfahnuo7lhyuotq	86	41	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	86	42	werejuxtaposed	werejuxtapose	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	86	43	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	86	44	each	each	DT
work_mciwbq3j25fmfahnuo7lhyuotq	86	45	other	other	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	86	46	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	86	47	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	86	48	an	an	DT
work_mciwbq3j25fmfahnuo7lhyuotq	86	49	anti	anti	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	86	50	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	86	51	parallel	parallel	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	86	52	orientation	orientation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	53	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	86	54	forming	form	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	86	55	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	86	56	symmetric	symmetric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	86	57	‘	'	``
work_mciwbq3j25fmfahnuo7lhyuotq	86	58	‘	'	``
work_mciwbq3j25fmfahnuo7lhyuotq	86	59	BH3-in	BH3-in	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	60	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	86	61	groove	groove	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	62	homodimer	homodimer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	63	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	86	64	BGH	BGH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	65	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	86	66	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	86	67	’	'	''
work_mciwbq3j25fmfahnuo7lhyuotq	86	68	’	'	''
work_mciwbq3j25fmfahnuo7lhyuotq	86	69	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	86	70	have	have	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	86	71	constructed	construct	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	86	72	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	86	73	GFP	GFP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	74	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	86	75	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	76	fusion	fusion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	77	protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	78	using	use	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	86	79	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	86	80	a2-a5	a2-a5	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	81	helices	helix	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	86	82	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	86	83	mouse	mouse	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	84	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	85	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	86	86	designated	designate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	86	87	as	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	86	88	GFP	GFP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	89	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	86	90	BAKa2-a5	BAKa2-a5	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	86	91	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	86	92	which	which	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	86	93	also	also	RB
work_mciwbq3j25fmfahnuo7lhyuotq	86	94	forms	form	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	86	95	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	86	96	soluble	soluble	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	86	97	tetramer	tetramer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	86	98	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	87	1	To	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	87	2	determine	determine	VB
work_mciwbq3j25fmfahnuo7lhyuotq	87	3	whether	whether	IN
work_mciwbq3j25fmfahnuo7lhyuotq	87	4	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	87	5	BGH	BGH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	87	6	exists	exist	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	87	7	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	87	8	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	87	9	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	87	10	oligomers	oligomer	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	87	11	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	87	12	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	87	13	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	87	14	or	or	CC
work_mciwbq3j25fmfahnuo7lhyuotq	87	15	not	not	RB
work_mciwbq3j25fmfahnuo7lhyuotq	87	16	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	87	17	we	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	87	18	spin	spin	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	87	19	labeled	label	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	87	20	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	87	21	C	c	NN
work_mciwbq3j25fmfahnuo7lhyuotq	87	22	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	87	23	terminal	terminal	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	87	24	hexahistidine	hexahistidine	NN
work_mciwbq3j25fmfahnuo7lhyuotq	87	25	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	87	26	tagged	tag	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	87	27	solu-	solu-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	87	28	ble	ble	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	87	29	form	form	NN
work_mciwbq3j25fmfahnuo7lhyuotq	87	30	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	87	31	mouse	mouse	NN
work_mciwbq3j25fmfahnuo7lhyuotq	87	32	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	87	33	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	87	34	helices	helix	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	87	35	a1-a8	a1-a8	NN
work_mciwbq3j25fmfahnuo7lhyuotq	87	36	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	87	37	at	at	IN
work_mciwbq3j25fmfahnuo7lhyuotq	87	38	residues	residues	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	87	39	84	84	CD
work_mciwbq3j25fmfahnuo7lhyuotq	87	40	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	87	41	122	122	CD
work_mciwbq3j25fmfahnuo7lhyuotq	87	42	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	87	43	128	128	CD
work_mciwbq3j25fmfahnuo7lhyuotq	87	44	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	87	45	135	135	CD
work_mciwbq3j25fmfahnuo7lhyuotq	87	46	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	87	47	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	87	48	corresponding	correspond	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	87	49	residues	residue	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	87	50	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	87	51	GFP	GFP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	87	52	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	87	53	BAKa2-a5	BAKa2-a5	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	87	54	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	88	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	88	2	then	then	RB
work_mciwbq3j25fmfahnuo7lhyuotq	88	3	compared	compare	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	88	4	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	88	5	continuous	continuous	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	88	6	wave	wave	NN
work_mciwbq3j25fmfahnuo7lhyuotq	88	7	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	88	8	CW	CW	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	88	9	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	88	10	EPR	EPR	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	88	11	spectra	spectra	NN
work_mciwbq3j25fmfahnuo7lhyuotq	88	12	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	88	13	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	88	14	spin	spin	NN
work_mciwbq3j25fmfahnuo7lhyuotq	88	15	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	88	16	labeled	label	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	88	17	residues	residue	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	88	18	from	from	IN
work_mciwbq3j25fmfahnuo7lhyuotq	88	19	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	88	20	tetrameric	tetrameric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	88	21	GFP-	GFP-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	88	22	BAKa2-a5	BAKa2-a5	NFP
work_mciwbq3j25fmfahnuo7lhyuotq	88	23	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	88	24	those	those	DT
work_mciwbq3j25fmfahnuo7lhyuotq	88	25	from	from	IN
work_mciwbq3j25fmfahnuo7lhyuotq	88	26	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	88	27	oligomeric	oligomeric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	88	28	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	88	29	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	88	30	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	88	31	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	89	1	Spin	spin	NN
work_mciwbq3j25fmfahnuo7lhyuotq	89	2	labeled	label	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	89	3	resi-	resi-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	89	4	due	due	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	89	5	122R1	122R1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	89	6	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	89	7	located	locate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	89	8	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	89	9	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	89	10	loop	loop	NN
work_mciwbq3j25fmfahnuo7lhyuotq	89	11	interconnecting	interconnect	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	89	12	helices	helix	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	89	13	a4	a4	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	89	14	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	89	15	a5	a5	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	89	16	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	89	17	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	89	18	homology	homology	NN
work_mciwbq3j25fmfahnuo7lhyuotq	89	19	model	model	NN
work_mciwbq3j25fmfahnuo7lhyuotq	89	20	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	89	21	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	89	22	GFP	GFP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	89	23	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	89	24	BAKa2-a5	BAKa2-a5	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	89	25	tetramer	tetramer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	89	26	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	89	27	displayed	display	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	89	28	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	89	29	mobile	mobile	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	89	30	lineshape	lineshape	NN
work_mciwbq3j25fmfahnuo7lhyuotq	89	31	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	90	1	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	90	2	corre-	corre-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	90	3	sponding	sponde	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	90	4	residue	residue	NN
work_mciwbq3j25fmfahnuo7lhyuotq	90	5	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	90	6	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	90	7	oligomeric	oligomeric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	90	8	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	90	9	also	also	RB
work_mciwbq3j25fmfahnuo7lhyuotq	90	10	had	have	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	90	11	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	90	12	remarkably	remarkably	RB
work_mciwbq3j25fmfahnuo7lhyuotq	90	13	similar	similar	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	90	14	lineshape	lineshape	NN
work_mciwbq3j25fmfahnuo7lhyuotq	90	15	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	90	16	indicating	indicate	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	90	17	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	90	18	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	90	19	two	two	CD
work_mciwbq3j25fmfahnuo7lhyuotq	90	20	residues	residue	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	90	21	are	be	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	90	22	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	90	23	similar	similar	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	90	24	structural	structural	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	90	25	environments	environment	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	90	26	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	91	1	Residues	Residues	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	91	2	84R1	84r1	CD
work_mciwbq3j25fmfahnuo7lhyuotq	91	3	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	91	4	128R1	128R1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	91	5	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	91	6	135R1	135R1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	91	7	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	91	8	located	locate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	91	9	at	at	IN
work_mciwbq3j25fmfahnuo7lhyuotq	91	10	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	91	11	anti	anti	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	91	12	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	91	13	parallel	parallel	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	91	14	helical	helical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	91	15	interfaces	interface	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	91	16	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	91	17	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	91	18	BGH	BGH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	91	19	also	also	RB
work_mciwbq3j25fmfahnuo7lhyuotq	91	20	had	have	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	91	21	remarkably	remarkably	RB
work_mciwbq3j25fmfahnuo7lhyuotq	91	22	similar	similar	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	91	23	immobile	immobile	NN
work_mciwbq3j25fmfahnuo7lhyuotq	91	24	lineshapes	lineshape	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	91	25	both	both	DT
work_mciwbq3j25fmfahnuo7lhyuotq	91	26	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	91	27	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	91	28	GFP	GFP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	91	29	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	91	30	BAKa2-	BAKa2-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	91	31	a5	a5	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	91	32	tetramer	tetramer	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	91	33	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	91	34	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	91	35	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	91	36	oligomeric	oligomeric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	91	37	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	91	38	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	91	39	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	91	40	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	91	41	further	further	RB
work_mciwbq3j25fmfahnuo7lhyuotq	91	42	strengthening	strengthen	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	91	43	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	91	44	above	above	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	91	45	conclusion	conclusion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	91	46	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	92	1	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	92	2	intra	intra	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	92	3	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	92	4	dimer	dimer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	92	5	distances	distance	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	92	6	between	between	IN
work_mciwbq3j25fmfahnuo7lhyuotq	92	7	84R1	84r1	CD
work_mciwbq3j25fmfahnuo7lhyuotq	92	8	spin	spin	NN
work_mciwbq3j25fmfahnuo7lhyuotq	92	9	label	label	NN
work_mciwbq3j25fmfahnuo7lhyuotq	92	10	pairs	pair	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	92	11	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	92	12	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	92	13	GFP	GFP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	92	14	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	92	15	BAKa2-a5	BAKa2-a5	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	92	16	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	92	17	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	92	18	oligomeric	oligomeric	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	92	19	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	92	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	92	21	determined	determine	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	92	22	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	92	23	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	92	24	double	double	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	92	25	electron	electron	NN
work_mciwbq3j25fmfahnuo7lhyuotq	92	26	electron	electron	NN
work_mciwbq3j25fmfahnuo7lhyuotq	92	27	resonance	resonance	NN
work_mciwbq3j25fmfahnuo7lhyuotq	92	28	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	92	29	DEER	DEER	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	92	30	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	92	31	method	method	NN
work_mciwbq3j25fmfahnuo7lhyuotq	92	32	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	92	33	also	also	RB
work_mciwbq3j25fmfahnuo7lhyuotq	92	34	support	support	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	92	35	this	this	DT
work_mciwbq3j25fmfahnuo7lhyuotq	92	36	interpretation	interpretation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	92	37	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	93	1	3069-Pos	3069-Pos	NFP
work_mciwbq3j25fmfahnuo7lhyuotq	93	2	Board	board	NN
work_mciwbq3j25fmfahnuo7lhyuotq	93	3	B499	B499	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	4	Modulation	Modulation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	5	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	93	6	Membrane	Membrane	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	7	Interactions	Interactions	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	93	8	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	93	9	Anti	anti	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	93	10	-	-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	11	Apoptotic	Apoptotic	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	12	Regulator	Regulator	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	13	Bcl	Bcl	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	14	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	93	15	xL	xL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	16	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	93	17	Lipids	Lipids	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	93	18	Mauricio	Mauricio	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	19	Vargas	Vargas	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	20	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	93	21	Uribe	Uribe	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	22	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	93	23	Mykola	Mykola	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	24	V.	V.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	25	Rodnin	Rodnin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	26	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	93	27	Alexey	Alexey	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	28	S.	S.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	29	Ladokhin	Ladokhin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	93	30	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	94	1	Biochemistry	Biochemistry	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	94	2	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	94	3	Molecular	Molecular	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	94	4	Biology	Biology	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	94	5	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	94	6	KUMC	KUMC	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	94	7	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	94	8	Kansas	Kansas	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	94	9	City	City	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	94	10	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	94	11	KS	KS	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	94	12	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	94	13	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	94	14	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	95	1	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	95	2	Bcl-2	Bcl-2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	95	3	family	family	NN
work_mciwbq3j25fmfahnuo7lhyuotq	95	4	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	95	5	proteins	protein	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	95	6	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	95	7	e.g.	e.g.	RB
work_mciwbq3j25fmfahnuo7lhyuotq	95	8	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	95	9	pro	pro	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	95	10	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	95	11	apoptotic	apoptotic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	95	12	Bax	Bax	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	95	13	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	95	14	anti	anti	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	95	15	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	95	16	apoptotic	apoptotic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	95	17	Bcl	Bcl	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	95	18	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	95	19	xL	xL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	95	20	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	95	21	regulates	regulate	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	95	22	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	95	23	mitochondrial	mitochondrial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	95	24	outer	outer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	95	25	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	95	26	permeabilization	permeabilization	NN
work_mciwbq3j25fmfahnuo7lhyuotq	95	27	during	during	IN
work_mciwbq3j25fmfahnuo7lhyuotq	95	28	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	95	29	early	early	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	95	30	stages	stage	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	95	31	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	95	32	apoptosis	apoptosis	NN
work_mciwbq3j25fmfahnuo7lhyuotq	95	33	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	96	1	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	96	2	prevalent	prevalent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	96	3	Embedded	Embedded	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	96	4	Together	Together	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	96	5	Model	Model	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	96	6	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	96	7	Bcl-2	Bcl-2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	96	8	action	action	NN
work_mciwbq3j25fmfahnuo7lhyuotq	96	9	suggests	suggest	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	96	10	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	96	11	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	96	12	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	96	13	environment	environment	NN
work_mciwbq3j25fmfahnuo7lhyuotq	96	14	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	96	15	critical	critical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	96	16	for	for	IN
work_mciwbq3j25fmfahnuo7lhyuotq	96	17	their	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	96	18	proper	proper	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	96	19	functional	functional	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	96	20	interactions	interaction	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	96	21	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	96	22	consistent	consistent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	96	23	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	96	24	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	96	25	increasing	increase	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	96	26	evidence	evidence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	96	27	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	96	28	lipids	lipid	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	96	29	being	be	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	96	30	involved	involve	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	96	31	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	96	32	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	96	33	regulation	regulation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	96	34	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	96	35	apoptotic	apoptotic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	96	36	response	response	NN
work_mciwbq3j25fmfahnuo7lhyuotq	96	37	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	97	1	In	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	97	2	this	this	DT
work_mciwbq3j25fmfahnuo7lhyuotq	97	3	study	study	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	97	5	we	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	97	6	apply	apply	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	97	7	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	97	8	collection	collection	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	9	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	97	10	fluorescence	fluorescence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	11	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	97	12	based	base	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	97	13	methods	method	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	97	14	to	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	97	15	investigate	investigate	VB
work_mciwbq3j25fmfahnuo7lhyuotq	97	16	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	97	17	effect	effect	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	18	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	97	19	various	various	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	97	20	lipids	lipid	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	97	21	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	97	22	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	97	23	pH	pH	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	97	24	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	97	25	triggeredmembraneinteractionsofBcl	triggeredmembraneinteractionsofBcl	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	97	26	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	97	27	xL.Theinitialmembraneassociation	xL.Theinitialmembraneassociation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	97	28	was	be	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	97	29	studied	study	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	97	30	using	use	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	97	31	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	97	32	FRET	FRET	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	97	33	assay	assay	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	34	with	with	IN
work_mciwbq3j25fmfahnuo7lhyuotq	97	35	donor	donor	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	36	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	97	37	labeled	label	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	97	38	Bcl	Bcl	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	97	39	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	97	40	xL	xL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	97	41	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	97	42	acceptor	acceptor	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	43	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	97	44	labeled	label	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	97	45	vesicles	vesicle	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	97	46	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	97	47	while	while	IN
work_mciwbq3j25fmfahnuo7lhyuotq	97	48	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	97	49	insertion	insertion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	50	/	/	SYM
work_mciwbq3j25fmfahnuo7lhyuotq	97	51	refolding	refolding	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	52	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	97	53	Bcl	Bcl	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	97	54	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	97	55	xL	xL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	97	56	into	into	IN
work_mciwbq3j25fmfahnuo7lhyuotq	97	57	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	97	58	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	59	was	be	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	97	60	moni-	moni-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	97	61	toredusingtheenvironment	toredusingtheenvironment	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	62	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	97	63	sensitive	sensitive	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	97	64	probeNBDselectivelyattachedinthemid-	probenbdselectivelyattachedinthemid-	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	65	dle	dle	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	66	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	97	67	hydrophobic	hydrophobic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	97	68	helix	helix	NN
work_mciwbq3j25fmfahnuo7lhyuotq	97	69	a6	a6	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	97	70	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	98	1	Our	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	98	2	results	result	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	98	3	demonstrate	demonstrate	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	98	4	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	98	5	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	98	6	lipid	lipid	NN
work_mciwbq3j25fmfahnuo7lhyuotq	98	7	composition	composition	NN
work_mciwbq3j25fmfahnuo7lhyuotq	98	8	affects	affect	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	98	9	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	98	10	pH	ph	NN
work_mciwbq3j25fmfahnuo7lhyuotq	98	11	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	98	12	dependence	dependence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	98	13	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	98	14	both	both	CC
work_mciwbq3j25fmfahnuo7lhyuotq	98	15	initial	initial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	98	16	membrane	membrane	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	98	17	association	association	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	98	18	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	98	19	subsequent	subsequent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	98	20	insertion	insertion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	98	21	/	/	SYM
work_mciwbq3j25fmfahnuo7lhyuotq	98	22	refolding	refolding	NN
work_mciwbq3j25fmfahnuo7lhyuotq	98	23	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	98	24	Bcl	Bcl	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	98	25	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	98	26	xL.	xL.	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	99	1	We	-PRON-	PRP
work_mciwbq3j25fmfahnuo7lhyuotq	99	2	found	find	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	99	3	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	99	4	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	99	5	linear	linear	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	99	6	correlation	correlation	NN
work_mciwbq3j25fmfahnuo7lhyuotq	99	7	exists	exist	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	99	8	between	between	IN
work_mciwbq3j25fmfahnuo7lhyuotq	99	9	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	99	10	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	99	11	surface	surface	NN
work_mciwbq3j25fmfahnuo7lhyuotq	99	12	potential	potential	NN
work_mciwbq3j25fmfahnuo7lhyuotq	99	13	created	create	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	99	14	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	99	15	anionic	anionic	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	99	16	lipids	lipid	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	99	17	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	99	18	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	99	19	pKa	pKa	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	99	20	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	99	21	mem-	mem-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	99	22	brane	brane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	99	23	binding	binding	NN
work_mciwbq3j25fmfahnuo7lhyuotq	99	24	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	99	25	suggesting	suggest	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	99	26	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	99	27	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	99	28	initial	initial	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	99	29	step	step	NN
work_mciwbq3j25fmfahnuo7lhyuotq	99	30	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	99	31	controlled	control	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	99	32	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	99	33	an	an	DT
work_mciwbq3j25fmfahnuo7lhyuotq	99	34	electrostatic	electrostatic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	99	35	mechanism	mechanism	NN
work_mciwbq3j25fmfahnuo7lhyuotq	99	36	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	100	1	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	100	2	effect	effect	NN
work_mciwbq3j25fmfahnuo7lhyuotq	100	3	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	100	4	lipids	lipid	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	100	5	on	on	IN
work_mciwbq3j25fmfahnuo7lhyuotq	100	6	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	100	7	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	100	8	insertion	insertion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	100	9	/	/	SYM
work_mciwbq3j25fmfahnuo7lhyuotq	100	10	refolding	refolde	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	100	11	step	step	NN
work_mciwbq3j25fmfahnuo7lhyuotq	100	12	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	100	13	more	more	RBR
work_mciwbq3j25fmfahnuo7lhyuotq	100	14	complex	complex	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	100	15	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	100	16	appears	appear	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	100	17	to	to	TO
work_mciwbq3j25fmfahnuo7lhyuotq	100	18	be	be	VB
work_mciwbq3j25fmfahnuo7lhyuotq	100	19	influenced	influence	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	100	20	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	100	21	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	100	22	size	size	NN
work_mciwbq3j25fmfahnuo7lhyuotq	100	23	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	100	24	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	100	25	lipid	lipid	NN
work_mciwbq3j25fmfahnuo7lhyuotq	100	26	headgroup	headgroup	NN
work_mciwbq3j25fmfahnuo7lhyuotq	100	27	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	101	1	Thekinetics	thekinetic	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	101	2	ofboth	ofboth	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	101	3	themembrane	themembrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	101	4	associationandmembrane	associationandmembrane	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	101	5	insertion	insertion	NN
work_mciwbq3j25fmfahnuo7lhyuotq	101	6	/	/	SYM
work_mciwbq3j25fmfahnuo7lhyuotq	101	7	refolding	refolding	NN
work_mciwbq3j25fmfahnuo7lhyuotq	101	8	is	be	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	101	9	affected	affect	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	101	10	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	101	11	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	101	12	presence	presence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	101	13	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	101	14	non	non	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	101	15	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	101	16	bilayer	bilayer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	101	17	forming	forming	NN
work_mciwbq3j25fmfahnuo7lhyuotq	101	18	lipids	lipid	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	101	19	commonly	commonly	RB
work_mciwbq3j25fmfahnuo7lhyuotq	101	20	found	find	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	101	21	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	101	22	mitochondria	mitochondria	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	101	23	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	102	1	While	while	IN
work_mciwbq3j25fmfahnuo7lhyuotq	102	2	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	102	3	presence	presence	NN
work_mciwbq3j25fmfahnuo7lhyuotq	102	4	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	102	5	phosphatidylethanolamine	phosphatidylethanolamine	NN
work_mciwbq3j25fmfahnuo7lhyuotq	102	6	accelerated	accelerate	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	102	7	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	102	8	process	process	NN
work_mciwbq3j25fmfahnuo7lhyuotq	102	9	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	102	10	addition	addition	NN
work_mciwbq3j25fmfahnuo7lhyuotq	102	11	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	102	12	lysophosphatidylcholine	lysophosphatidylcholine	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	102	13	had	have	VBD
work_mciwbq3j25fmfahnuo7lhyuotq	102	14	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	102	15	opposite	opposite	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	102	16	effect	effect	NN
work_mciwbq3j25fmfahnuo7lhyuotq	102	17	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	102	18	suggesting	suggest	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	102	19	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	102	20	mechanical	mechanical	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	102	21	properties	property	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	102	22	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	102	23	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	102	24	bilayer	bilayer	NN
work_mciwbq3j25fmfahnuo7lhyuotq	102	25	also	also	RB
work_mciwbq3j25fmfahnuo7lhyuotq	102	26	play	play	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	102	27	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	102	28	role	role	NN
work_mciwbq3j25fmfahnuo7lhyuotq	102	29	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	103	1	Taken	take	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	103	2	together	together	RB
work_mciwbq3j25fmfahnuo7lhyuotq	103	3	our	-PRON-	PRP$
work_mciwbq3j25fmfahnuo7lhyuotq	103	4	results	result	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	103	5	indicate	indicate	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	103	6	that	that	IN
work_mciwbq3j25fmfahnuo7lhyuotq	103	7	lipids	lipid	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	103	8	can	can	MD
work_mciwbq3j25fmfahnuo7lhyuotq	103	9	modulate	modulate	VB
work_mciwbq3j25fmfahnuo7lhyuotq	103	10	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	103	11	membrane	membrane	NN
work_mciwbq3j25fmfahnuo7lhyuotq	103	12	interactions	interaction	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	103	13	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	103	14	Bcl	Bcl	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	103	15	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	103	16	xL	xL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	103	17	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	103	18	multiple	multiple	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	103	19	ways	way	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	103	20	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	103	21	providing	provide	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	103	22	an	an	DT
work_mciwbq3j25fmfahnuo7lhyuotq	103	23	additional	additional	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	103	24	regulatory	regulatory	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	103	25	mechanism	mechanism	NN
work_mciwbq3j25fmfahnuo7lhyuotq	103	26	that	that	WDT
work_mciwbq3j25fmfahnuo7lhyuotq	103	27	ensures	ensure	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	103	28	proper	proper	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	103	29	control	control	NN
work_mciwbq3j25fmfahnuo7lhyuotq	103	30	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	103	31	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	103	32	complex	complex	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	103	33	cascade	cascade	NN
work_mciwbq3j25fmfahnuo7lhyuotq	103	34	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	103	35	apoptotic	apoptotic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	103	36	reactions	reaction	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	103	37	leading	lead	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	103	38	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	103	39	cell	cell	NN
work_mciwbq3j25fmfahnuo7lhyuotq	103	40	death	death	NN
work_mciwbq3j25fmfahnuo7lhyuotq	103	41	or	or	CC
work_mciwbq3j25fmfahnuo7lhyuotq	103	42	survival	survival	NN
work_mciwbq3j25fmfahnuo7lhyuotq	103	43	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	104	1	NIHGM-069783	NIHGM-069783	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	104	2	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	104	3	Fulbright	Fulbright	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	104	4	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	104	5	CONICYT	CONICYT	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	104	6	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	104	7	BRTP	BRTP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	104	8	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	105	1	3070-Pos	3070-Pos	NFP
work_mciwbq3j25fmfahnuo7lhyuotq	105	2	Board	Board	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	3	B500	B500	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	4	Binding	bind	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	105	5	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	105	6	Pro	pro	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	105	7	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	105	8	Apoptotic	Apoptotic	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	9	Protein	Protein	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	10	Bax	Bax	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	11	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	105	12	Cytoprotective	Cytoprotective	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	13	UDCA	UDCA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	14	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	105	15	TUDCA	TUDCA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	16	Tânia	Tânia	,
work_mciwbq3j25fmfahnuo7lhyuotq	105	17	Sousa1	Sousa1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	18	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	105	19	Ana	Ana	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	20	Coutinho2	Coutinho2	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	21	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	105	22	Soojay	Soojay	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	23	Banerjee3	Banerjee3	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	24	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	105	25	Rui	Rui	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	26	Castro4	Castro4	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	27	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	105	28	Richard	Richard	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	29	Youle3	Youle3	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	30	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	105	31	Cecı́lia	cecı́lia	NN
work_mciwbq3j25fmfahnuo7lhyuotq	105	32	Rodrigues4	rodrigues4	NN
work_mciwbq3j25fmfahnuo7lhyuotq	105	33	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	105	34	Manuel	Manuel	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	35	Prieto1	Prieto1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	36	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	105	37	Fábio	Fábio	.
work_mciwbq3j25fmfahnuo7lhyuotq	105	38	Fernandes1	Fernandes1	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	105	39	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	106	1	1Centro	1Centro	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	2	de	de	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	3	Quı́mica	Quı́mica	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	4	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	106	5	Fı́sica	Fı́sica	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	6	Molecular	Molecular	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	7	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	106	8	Institute	Institute	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	9	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	106	10	Nanoscience	Nanoscience	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	11	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	106	12	Nanotechnology	Nanotechnology	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	13	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	106	14	Instituto	Instituto	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	15	Superior	Superior	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	16	Tecnico	Tecnico	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	17	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	106	18	Universidade	Universidade	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	19	de	de	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	20	Lisboa	Lisboa	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	21	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	106	22	Lisbon	Lisbon	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	23	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	106	24	Portugal	Portugal	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	25	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	106	26	2	2	CD
work_mciwbq3j25fmfahnuo7lhyuotq	106	27	Dep	Dep	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	106	28	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	107	1	Quı́mica	Quı́mica	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	2	e	e	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	3	Bioquı́mica	Bioquı́mica	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	5	Faculdade	Faculdade	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	6	de	de	FW
work_mciwbq3j25fmfahnuo7lhyuotq	107	7	Ciências	Ciências	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	8	da	da	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	9	Universidade	Universidade	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	10	de	de	IN
work_mciwbq3j25fmfahnuo7lhyuotq	107	11	Lisboa	Lisboa	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	12	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	13	Ins	Ins	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	14	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	15	Lisbon	Lisbon	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	16	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	17	Portugal	Portugal	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	18	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	19	3	3	CD
work_mciwbq3j25fmfahnuo7lhyuotq	107	20	NINDS	NINDS	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	107	21	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	22	National	National	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	23	Institutes	Institutes	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	107	24	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	107	25	Health	Health	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	26	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	27	Bethesda	Bethesda	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	28	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	29	MD	MD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	30	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	31	USA	USA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	32	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	33	4Faculdade	4Faculdade	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	34	de	de	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	35	Farmácia	Farmácia	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	36	da	da	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	37	Universidade	Universidade	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	38	de	de	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	39	Lisboa	Lisboa	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	40	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	41	Lisbon	Lisbon	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	42	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	107	43	Portugal	Portugal	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	107	44	.	.	.
work_mciwbq3j25fmfahnuo7lhyuotq	108	1	Hydrophobic	hydrophobic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	2	bile	bile	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	3	acids	acid	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	108	4	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	108	5	such	such	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	6	as	as	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	7	deoxycholic	deoxycholic	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	8	acid	acid	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	9	(	(	-LRB-
work_mciwbq3j25fmfahnuo7lhyuotq	108	10	DCA	DCA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	11	)	)	-RRB-
work_mciwbq3j25fmfahnuo7lhyuotq	108	12	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	108	13	strongly	strongly	RB
work_mciwbq3j25fmfahnuo7lhyuotq	108	14	induce	induce	VBP
work_mciwbq3j25fmfahnuo7lhyuotq	108	15	apoptosis	apoptosis	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	16	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	17	both	both	CC
work_mciwbq3j25fmfahnuo7lhyuotq	108	18	hepatic	hepatic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	19	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	108	20	non	non	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	21	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	22	hepatic	hepatic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	23	cells	cell	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	108	24	while	while	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	25	hydrophilic	hydrophilic	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	26	bile	bile	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	27	acids	acid	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	108	28	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	108	29	Cardiolipin	Cardiolipin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	30	Reorganization	Reorganization	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	31	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	108	32	Phase	Phase	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	33	Transition	transition	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	34	Induced	induce	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	108	35	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	36	Dynamin	Dynamin	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	37	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	38	Related	relate	VBN
work_mciwbq3j25fmfahnuo7lhyuotq	108	39	Protein	protein	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	40	1	1	CD
work_mciwbq3j25fmfahnuo7lhyuotq	108	41	Facilitates	Facilitates	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	42	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	43	Membrane	Membrane	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	44	Fission	Fission	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	45	VDAC3	vdac3	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	46	Forms	Forms	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	108	47	Typical	Typical	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	48	Voltage	Voltage	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	49	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	50	Gated	Gated	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	51	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	108	52	Anion	Anion	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	53	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	54	Selective	Selective	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	55	,	,	,
work_mciwbq3j25fmfahnuo7lhyuotq	108	56	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	108	57	Tubulin	tubulin	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	58	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	59	Sensitive	Sensitive	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	60	Channels	channel	NNS
work_mciwbq3j25fmfahnuo7lhyuotq	108	61	Channeling	Channeling	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	62	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	63	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	64	Energy	Energy	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	65	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	66	Cardiac	Cardiac	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	67	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	108	68	Cancer	Cancer	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	69	Cells	Cells	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	108	70	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	71	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	108	72	Metabolically	metabolically	RB
work_mciwbq3j25fmfahnuo7lhyuotq	108	73	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	74	Dependent	dependent	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	75	Outer	outer	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	76	Membrane	Membrane	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	77	Potential	Potential	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	78	Alpha	Alpha	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	79	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	80	Synuclein	Synuclein	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	81	Blocks	Blocks	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	82	VDAC	vdac	RB
work_mciwbq3j25fmfahnuo7lhyuotq	108	83	Suggesting	suggest	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	108	84	Mechanism	Mechanism	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	85	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	86	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	87	Regulation	Regulation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	88	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	108	89	Toxicity	Toxicity	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	90	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	91	Parkinson	Parkinson	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	92	Disease	Disease	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	93	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	94	DNA	DNA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	95	:	:	:
work_mciwbq3j25fmfahnuo7lhyuotq	108	96	The	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	108	97	Heart	heart	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	98	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	99	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	108	100	Matter	Matter	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	101	Activation	Activation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	102	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	103	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	108	104	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	105	Permeability	Permeability	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	106	Transition	Transition	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	107	Pore	Pore	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	108	Leads	lead	VBZ
work_mciwbq3j25fmfahnuo7lhyuotq	108	109	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	110	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	108	111	Increase	increase	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	112	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	113	Amount	Amount	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	114	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	115	C	C	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	116	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	117	Subunit	Subunit	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	118	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	119	ATP	ATP	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	120	Synthase	Synthase	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	121	A	A	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	122	...	...	:
work_mciwbq3j25fmfahnuo7lhyuotq	108	123	Small	small	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	124	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	125	Molecule	molecule	NN
work_mciwbq3j25fmfahnuo7lhyuotq	108	126	PKD	PKD	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	127	Inhibitor	Inhibitor	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	128	Prevents	Prevents	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	129	Mitochondrial	Mitochondrial	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	130	Fragmentation	Fragmentation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	131	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	108	132	Dysfunction	Dysfunction	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	133	during	during	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	134	Gq	Gq	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	135	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	136	Protein	Protein	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	137	Coupled	Coupled	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	138	Receptor	Receptor	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	139	Stimul	Stimul	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	140	...	...	:
work_mciwbq3j25fmfahnuo7lhyuotq	108	141	EPR	EPR	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	142	Data	Data	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	143	Support	Support	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	144	the	the	DT
work_mciwbq3j25fmfahnuo7lhyuotq	108	145	Existence	Existence	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	146	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	147	a	a	DT
work_mciwbq3j25fmfahnuo7lhyuotq	108	148	Symmetric	Symmetric	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	149	BH3-in	BH3-in	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	150	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	151	Groove	Groove	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	152	Homodimer	Homodimer	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	153	in	in	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	154	Oligomeric	Oligomeric	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	155	BAK	BAK	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	156	Modulation	Modulation	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	157	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	158	Membrane	Membrane	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	159	Interactions	Interactions	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	108	160	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	161	Anti	anti	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	162	-	-	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	163	Apoptotic	Apoptotic	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	164	Regulator	Regulator	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	165	Bcl	Bcl	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	166	-	-	HYPH
work_mciwbq3j25fmfahnuo7lhyuotq	108	167	xL	xL	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	168	by	by	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	169	Lipids	Lipids	NNPS
work_mciwbq3j25fmfahnuo7lhyuotq	108	170	Binding	bind	VBG
work_mciwbq3j25fmfahnuo7lhyuotq	108	171	of	of	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	172	Pro	pro	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	173	-	-	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	174	Apoptotic	Apoptotic	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	175	Protein	Protein	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	176	Bax	Bax	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	177	to	to	IN
work_mciwbq3j25fmfahnuo7lhyuotq	108	178	Cytoprotective	cytoprotective	JJ
work_mciwbq3j25fmfahnuo7lhyuotq	108	179	UDCA	UDCA	NNP
work_mciwbq3j25fmfahnuo7lhyuotq	108	180	and	and	CC
work_mciwbq3j25fmfahnuo7lhyuotq	108	181	TUDCA	TUDCA	NNP