id	sid	tid	token	lemma	pos
work_gfjn7ngtojauhn7kaf6bbbsq74	1	1	4532	4532	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	1	2	|	|	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	1	3	E.	E.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	1	4	Richardson	Richardson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	1	5	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	1	6	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	1	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	2	1	Molecular	Molecular	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	2	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	2	5	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	6	Evolutionary	Evolutionary	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	7	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	8	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	9	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	2	10	functional	functional	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	2	11	insight	insight	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	12	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	13	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	2	14	endless	endless	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	2	15	forms	form	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	2	16	most	most	RBS
work_gfjn7ngtojauhn7kaf6bbbsq74	2	17	beautiful	beautiful	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	2	18	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	2	19	Elisabeth	Elisabeth	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	20	Richardsona	Richardsona	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	22	Kelly	Kelly	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	23	Zerra	Zerra	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	25	Anastasios	Anastasios	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	26	Tsaousisb	Tsaousisb	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	28	Richard	Richard	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	29	G.	G.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	30	Dorrellc	Dorrellc	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	32	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	2	33	Joel	Joel	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	34	B.	B.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	35	Dacksa	Dacksa	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	36	aDepartment	aDepartment	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	37	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	38	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	39	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	40	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	41	University	University	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	42	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	43	Alberta	Alberta	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	44	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	45	Edmonton	Edmonton	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	46	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	47	AB	AB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	48	T6	T6	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	49	G	G	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	50	2H7	2h7	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	2	51	Canada	Canada	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	52	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	2	53	bLaboratory	bLaboratory	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	54	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	55	Molecular	Molecular	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	56	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	2	57	Evolutionary	Evolutionary	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	58	Parasitology	Parasitology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	59	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	60	School	School	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	61	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	62	Biosciences	Biosciences	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	63	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	64	University	University	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	65	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	66	Kent	Kent	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	67	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	68	Canterbury	Canterbury	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	69	CT2	CT2	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	70	7NJ	7NJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	71	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	72	UK	UK	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	73	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	2	74	cSchool	cSchool	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	75	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	76	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	77	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	78	École	École	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	79	Normale	Normale	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	80	Supérieure	Supérieure	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	81	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	82	Paris	Paris	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	83	75005	75005	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	2	84	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	85	France	France	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	86	ABSTRACT	ABSTRACT	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	87	In	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	88	animal	animal	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	89	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	2	90	fungal	fungal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	2	91	model	model	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	92	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	2	93	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	2	94	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	2	95	complexities	complexity	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	2	96	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	97	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	98	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	99	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	100	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	101	analyzed	analyze	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	102	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	103	exquisite	exquisite	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	2	104	detail	detail	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	105	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	2	106	much	much	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	2	107	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	2	108	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	109	about	about	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	110	how	how	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	2	111	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	2	112	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	2	113	function	function	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	2	114	at	at	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	115	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	2	116	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	2	117	level	level	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	2	118	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	3	1	However	however	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	3	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	3	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	3	4	model	model	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	3	5	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	3	6	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	3	7	biologists	biologist	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	3	8	generally	generally	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	3	9	use	use	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	3	10	include	include	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	3	11	only	only	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	3	12	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	3	13	tiny	tiny	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	3	14	fraction	fraction	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	3	15	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	3	16	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	3	17	true	true	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	3	18	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	3	19	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	3	20	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	3	21	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	3	22	forms	form	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	3	23	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	4	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	4	2	divergent	divergent	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	4	3	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	4	4	processes	process	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	4	5	observed	observe	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	4	6	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	4	7	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	4	8	more	more	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	4	9	distant	distant	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	4	10	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	4	11	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	4	12	still	still	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	4	13	largely	largely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	4	14	unknown	unknown	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	4	15	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	4	16	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	4	17	general	general	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	4	18	scientific	scientific	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	4	19	com-	com-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	4	20	munity	munity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	4	21	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	5	1	Despite	despite	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	5	3	relative	relative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	5	4	obscurity	obscurity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	5	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	6	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	5	7	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	5	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	5	9	comparative	comparative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	5	10	studies	study	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	5	11	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	12	them	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	5	13	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	14	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	5	15	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	16	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	5	17	had	have	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	18	profound	profound	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	5	19	implications	implication	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	5	20	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	21	our	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	5	22	understanding	understanding	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	23	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	24	fundamental	fundamental	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	5	25	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	26	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	27	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	28	all	all	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	5	29	species	specie	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	5	30	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	5	31	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	5	32	revealed	reveal	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	33	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	5	34	evolution	evolution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	35	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	5	36	origins	origin	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	5	37	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	38	previously	previously	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	5	39	observed	observe	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	5	40	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	5	41	processes	process	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	5	42	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	6	1	In	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	2	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	6	3	Perspective	perspective	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	6	5	we	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	6	6	will	will	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	6	7	discuss	discuss	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	6	8	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	6	9	complexity	complexity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	10	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	11	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	12	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	13	found	find	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	14	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	6	16	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	6	17	tree	tree	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	6	19	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	6	20	three	three	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	6	21	specific	specific	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	6	22	examples	example	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	6	23	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	24	where	where	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	6	25	studies	study	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	6	26	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	27	divergent	divergent	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	6	28	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	29	biol-	biol-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	30	ogy	ogy	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	31	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	6	32	altered	alter	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	33	our	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	6	34	understanding	understanding	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	35	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	36	key	key	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	6	37	functional	functional	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	6	38	aspects	aspect	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	6	39	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	40	mitochondria	mitochondrion	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	6	41	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	6	42	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	6	43	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	6	44	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	6	45	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	46	trafficking	trafficking	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	6	47	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	7	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	7	2	field	field	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	7	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	7	4	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	7	5	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	7	6	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	7	7	made	make	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	7	8	tremendous	tremendous	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	7	9	strides	stride	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	7	10	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	7	11	understand-	understand-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	7	12	ing	ing	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	7	13	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	7	14	cells	cell	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	7	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	7	16	especially	especially	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	7	17	animals	animal	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	7	18	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	7	19	yeast	yeast	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	7	20	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	8	1	Concurrently	concurrently	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	8	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	8	3	evo-	evo-	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	8	4	lutionary	lutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	8	5	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	8	6	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	8	7	opened	open	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	8	8	up	up	RP
work_gfjn7ngtojauhn7kaf6bbbsq74	8	9	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	8	10	window	window	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	8	11	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	8	12	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	8	13	origins	origin	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	8	14	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	8	15	our	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	8	16	spe-	spe-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	8	17	cies	cie	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	8	18	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	8	19	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	8	20	genes	gene	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	8	21	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	8	22	define	define	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	8	23	us	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	8	24	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	9	1	Though	though	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	2	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	9	3	fields	field	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	9	4	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	9	5	intersected	intersect	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	6	conceptually	conceptually	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	9	7	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	8	decades	decade	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	9	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	9	10	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	9	11	recent	recent	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	9	12	movement	movement	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	13	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	9	14	explicitly	explicitly	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	9	15	uniting	unite	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	9	16	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	9	17	two	two	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	9	18	fields	field	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	9	19	into	into	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	20	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	9	21	discipline	discipline	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	22	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	23	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	9	24	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	25	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	26	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	27	great	great	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	9	28	success	success	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	29	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	9	30	Brodsky	Brodsky	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	9	31	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	9	32	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	9	33	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	9	34	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	9	35	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	9	36	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	9	37	Lynch	Lynch	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	9	38	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	9	39	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	9	40	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	9	41	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	9	42	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	9	43	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	9	44	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	9	45	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	9	46	we	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	9	47	argue	argue	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	9	48	here	here	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	9	49	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	9	50	potentially	potentially	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	9	51	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	9	52	even	even	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	9	53	greater	great	JJR
work_gfjn7ngtojauhn7kaf6bbbsq74	9	54	future	future	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	9	55	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	10	1	One	one	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	10	2	drive	drive	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	10	3	behind	behind	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	10	4	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	10	5	movement	movement	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	10	6	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	10	7	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	10	8	harness	harness	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	10	9	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	10	10	comparative	comparative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	10	11	approach	approach	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	10	12	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	10	13	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	10	14	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	10	15	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	10	16	apply	apply	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	10	17	it	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	10	18	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	10	19	questions	question	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	10	20	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	10	21	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	10	22	origins	origin	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	10	23	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	10	24	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	10	25	func-	func-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	10	26	tion	tion	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	10	27	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	11	1	This	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	11	2	approach	approach	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	11	3	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	11	4	yielded	yield	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	11	5	beautiful	beautiful	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	11	6	insight	insight	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	11	7	into	into	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	11	8	animal	animal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	11	9	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	11	10	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	11	11	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	11	12	mitotic	mitotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	11	13	spindle	spindle	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	11	14	dynamics	dynamic	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	11	15	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	11	16	Helmke	Helmke	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	11	17	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	11	18	Heald	Heald	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	11	19	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	11	20	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	11	21	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	11	22	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	11	23	glycosylation	glycosylation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	11	24	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	11	25	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	11	26	Varki	Varki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	11	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	11	28	2006	2006	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	11	29	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	11	30	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	12	1	However	however	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	12	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	12	3	expanding	expand	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	12	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	12	5	scope	scope	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	12	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	12	7	investigation	investigation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	12	8	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	12	9	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	12	10	beyond	beyond	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	12	11	fungi	fungus	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	12	12	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	12	13	animals	animal	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	12	14	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	12	15	span	span	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	12	16	eu-	eu-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	12	17	karyotic	karyotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	12	18	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	12	19	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	12	20	allowed	allow	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	12	21	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	12	22	discoveries	discovery	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	12	23	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	12	24	force	force	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	12	25	us	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	12	26	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	12	27	adjust	adjust	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	12	28	some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	12	29	fundamental	fundamental	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	12	30	ideas	idea	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	12	31	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	12	32	how	how	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	12	33	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	12	34	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	12	35	work	work	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	12	36	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	12	37	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	12	38	why	why	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	12	39	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	13	1	Monitoring	Monitoring	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	2	Editor	Editor	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	3	David	David	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	4	G.	G.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	5	Drubin	Drubin	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	6	University	University	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	7	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	13	8	California	California	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	13	10	Berkeley	Berkeley	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	11	Received	receive	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	13	12	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	13	13	May	May	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	14	18	18	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	13	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	13	16	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	13	17	Revised	revise	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	13	18	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	13	19	Aug	Aug	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	20	21	21	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	13	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	13	22	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	13	23	Accepted	accept	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	13	24	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	13	25	Aug	Aug	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	26	22	22	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	13	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	13	28	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	13	29	DOI:10.1091	DOI:10.1091	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	30	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	13	31	mbc	mbc	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	13	32	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	13	33	E14	E14	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	34	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	13	35	10	10	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	13	36	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	13	37	1433	1433	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	13	38	Address	address	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	13	39	correspondence	correspondence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	13	40	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	13	41	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	13	42	Joel	Joel	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	43	B.	B.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	44	Dacks	Dacks	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	45	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	13	46	dacks@ualberta.ca	dacks@ualberta.ca	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	13	47	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	13	48	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	14	1	©	©	LS
work_gfjn7ngtojauhn7kaf6bbbsq74	14	2	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	14	3	Richardson	Richardson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	14	4	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	14	5	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	14	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	15	1	This	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	15	2	article	article	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	15	3	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	15	4	distributed	distribute	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	15	5	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	15	6	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	15	7	American	American	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	15	8	Society	Society	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	15	9	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	15	10	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	15	11	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	15	12	under	under	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	15	13	license	license	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	15	14	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	15	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	15	16	author(s	author(s	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	15	17	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	15	18	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	16	1	Two	two	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	16	2	months	month	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	16	3	after	after	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	16	4	publication	publication	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	16	5	it	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	16	6	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	16	7	avail-	avail-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	16	8	able	able	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	16	9	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	16	10	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	16	11	public	public	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	16	12	under	under	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	16	13	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	16	14	Attribution	Attribution	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	16	15	–	–	:
work_gfjn7ngtojauhn7kaf6bbbsq74	16	16	Noncommercial	Noncommercial	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	16	17	–	–	:
work_gfjn7ngtojauhn7kaf6bbbsq74	16	18	Share	share	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	16	19	Alike	alike	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	16	20	3.0	3.0	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	16	21	Unported	Unported	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	16	22	Creative	Creative	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	16	23	Commons	Commons	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	16	24	License	License	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	16	25	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	16	26	http://creativecommons.org/licenses/by-nc-sa/3.0	http://creativecommons.org/licenses/by-nc-sa/3.0	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	16	27	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	16	28	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	17	1	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	17	2	ASCB	ASCB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	3	®	®	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	17	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	17	5	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	17	6	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	17	7	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	17	8	American	American	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	9	Society	Society	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	10	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	17	11	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	12	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	13	®	®	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	17	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	17	15	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	17	16	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	17	17	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	17	18	Molecular	Molecular	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	19	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	20	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	17	21	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	17	22	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	23	®	®	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	17	24	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	17	25	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	26	registered	register	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	17	27	trademarks	trademark	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	17	28	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	17	29	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	17	30	American	American	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	31	Society	Society	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	32	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	17	33	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	34	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	17	35	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	18	1	Abbreviations	abbreviation	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	18	2	used	use	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	18	3	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	18	4	AP	AP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	18	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	18	6	adaptor	adaptor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	7	protein	protein	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	8	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	18	9	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	18	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	18	11	cytosolic	cytosolic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	18	12	iron	iron	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	13	–	–	:
work_gfjn7ngtojauhn7kaf6bbbsq74	18	14	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	15	assembly	assembly	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	16	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	18	17	LECA	LECA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	18	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	18	19	last	last	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	18	20	common	common	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	18	21	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	18	22	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	18	23	ancestor	ancestor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	24	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	18	25	MROs	MROs	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	18	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	18	27	mitochondria	mitochondria	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	28	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	18	29	related	relate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	30	organ-	organ-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	18	31	elles	elle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	18	32	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	18	33	NIF	NIF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	18	34	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	18	35	nitrogen	nitrogen	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	36	fixation	fixation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	37	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	18	38	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	18	39	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	18	40	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	41	utilization	utilization	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	42	factor	factor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	18	43	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	19	1	MBoC	MBoC	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	19	2	|	|	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	19	3	PERSPECTIVE	perspective	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	4	EUKARYOTIC	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	19	5	DIVERSITY	DIVERSITY	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	19	6	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	19	7	FROM	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	8	ANIMACULES	animacules	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	9	TO	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	10	AMITOCHONDRIATES	amitochondriate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	19	11	From	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	12	van	van	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	19	13	Leeuwenhoek	Leeuwenhoek	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	19	14	’s	’s	POS
work_gfjn7ngtojauhn7kaf6bbbsq74	19	15	description	description	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	16	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	17	his	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	19	18	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	19	19	animacules	animacule	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	19	20	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	19	21	soon	soon	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	19	22	after	after	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	23	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	19	24	development	development	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	25	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	26	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	19	27	microscope	microscope	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	28	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	19	29	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	30	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	31	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	19	32	always	always	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	19	33	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	34	linked	link	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	35	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	36	single	single	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	19	37	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	19	38	celled	celle	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	19	39	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	19	40	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	20	1	Nonetheless	nonetheless	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	20	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	20	3	studies	study	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	20	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	20	5	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	20	6	bi-	bi-	XX
work_gfjn7ngtojauhn7kaf6bbbsq74	20	7	ology	ology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	20	8	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	20	9	physiology	physiology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	20	10	remain	remain	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	20	11	restricted	restricted	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	20	12	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	20	13	relatively	relatively	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	20	14	few	few	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	20	15	model	model	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	20	16	or-	or-	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	20	17	ganisms	ganism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	20	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	20	19	such	such	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	20	20	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	20	21	flies	fly	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	20	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	20	23	worms	worm	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	20	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	20	25	yeasts	yeast	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	20	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	20	27	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	20	28	human	human	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	20	29	cells	cell	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	20	30	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	20	31	often	often	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	20	32	closely	closely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	20	33	related	related	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	20	34	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	20	35	humans	human	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	20	36	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	20	37	manipulated	manipulate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	20	38	under	under	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	20	39	restrictive	restrictive	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	20	40	circumstances	circumstance	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	20	41	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	20	42	Del	Del	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	20	43	Campo	Campo	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	20	44	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	20	45	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	20	46	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	20	47	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	20	48	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	20	49	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	20	50	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	21	1	This	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	21	2	means	mean	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	21	3	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	4	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	21	5	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	21	6	mechanisms	mechanism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	21	7	assumed	assume	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	8	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	21	9	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	21	10	essential	essential	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	21	11	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	12	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	21	13	presence	presence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	14	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	15	conventional	conventional	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	21	16	model	model	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	17	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	21	18	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	21	19	actually	actually	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	21	20	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	21	21	divergent	divergent	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	21	22	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	21	23	lineage	lineage	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	24	specific	specific	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	21	25	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	21	26	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	21	27	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	21	28	can	can	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	21	29	lead	lead	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	21	30	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	31	unjustified	unjustified	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	21	32	extrapolation	extrapolation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	33	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	34	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	35	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	21	36	principles	principle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	21	37	be-	be-	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	21	38	yond	yond	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	21	39	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	21	40	actual	actual	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	21	41	range	range	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	21	42	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	22	1	Conversely	conversely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	22	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	22	3	because	because	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	4	our	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	22	5	knowledge	knowledge	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	6	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	22	7	so	so	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	22	8	heavily	heavily	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	22	9	based	base	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	10	on	on	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	11	taxonomically	taxonomically	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	22	12	restricted	restrict	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	13	model	model	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	14	systems	system	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	22	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	22	16	we	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	22	17	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	22	18	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	22	19	missing	miss	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	22	20	key	key	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	22	21	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	22	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	22	23	components	component	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	22	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	22	25	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	22	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	22	27	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	22	28	phenom-	phenom-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	22	29	ena	ena	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	22	30	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	31	cells	cell	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	22	32	beyond	beyond	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	33	humans	human	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	22	34	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	22	35	yeast	yeast	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	36	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	22	37	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	22	38	overlooking	overlook	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	22	39	potentially	potentially	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	22	40	important	important	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	22	41	aspects	aspect	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	22	42	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	43	our	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	22	44	own	own	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	22	45	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	22	46	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	22	47	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	23	1	Reaping	reap	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	23	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	23	3	benefit	benefit	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	23	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	23	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	23	6	vast	vast	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	23	7	amounts	amount	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	23	8	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	23	9	genomic	genomic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	23	10	data	datum	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	23	11	now	now	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	23	12	available	available	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	23	13	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	23	14	diverse	diverse	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	23	15	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	23	16	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	23	17	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	23	18	biologists	biologist	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	23	19	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	23	20	per-	per-	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	23	21	formed	form	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	23	22	large	large	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	23	23	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	23	24	scale	scale	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	23	25	molecular	molecular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	23	26	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	23	27	analyses	analysis	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	23	28	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	24	1	Together	together	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	24	2	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	3	morphological	morphological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	24	4	information	information	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	5	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	6	light	light	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	24	7	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	24	8	electron	electron	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	9	microscopy	microscopy	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	24	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	24	11	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	24	12	molecular	molecular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	24	13	information	information	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	14	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	24	15	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	16	used	use	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	17	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	24	18	establish	establish	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	24	19	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	24	20	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	24	21	tree	tree	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	22	outlined	outline	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	23	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	24	Figure	Figure	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	24	25	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	24	26	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	24	27	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	24	28	formalize	formalize	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	24	29	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	24	30	coherent	coherent	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	24	31	framework	framework	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	32	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	24	33	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	24	34	relationships	relationship	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	24	35	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	24	36	Adl	Adl	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	24	37	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	24	38	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	24	39	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	24	40	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	24	41	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	24	42	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	24	43	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	25	1	Most	Most	JJS
work_gfjn7ngtojauhn7kaf6bbbsq74	25	2	model	model	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	25	3	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	25	4	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	25	5	systems	system	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	25	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	25	7	flies	fly	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	25	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	25	9	worms	worm	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	25	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	25	11	yeast	yeast	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	25	12	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	25	13	hu-	hu-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	25	14	man	man	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	25	15	cells	cell	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	25	16	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	25	17	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	25	18	grouped	group	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	25	19	within	within	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	25	20	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	25	21	supergroup	supergroup	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	25	22	Opisthokonta	Opisthokonta	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	25	23	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	25	24	Figure	Figure	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	25	25	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	25	26	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	25	27	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	26	1	However	however	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	26	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	26	3	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	26	4	only	only	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	26	5	scratches	scratch	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	26	6	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	26	7	surface	surface	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	26	8	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	26	9	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	26	10	Volume	volume	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	26	11	26	26	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	26	12	December	December	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	26	13	15	15	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	26	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	26	15	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	26	16	Evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	26	17	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	26	18	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	26	19	|	|	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	26	20	4533	4533	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	26	21	cultivated	cultivate	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	26	22	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	26	23	edible	edible	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	26	24	seaweed	seaweed	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	26	25	species	specie	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	26	26	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	26	27	e.g.	e.g.	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	26	28	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	26	29	nori	nori	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	26	30	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	26	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	26	32	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	26	33	glauco-	glauco-	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	26	34	phyte	phyte	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	26	35	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	26	36	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	27	1	Stramenopiles	stramenopile	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	27	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	27	3	alveolates	alveolate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	27	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	27	5	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	27	6	rhizarians	rhizarian	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	27	7	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	27	8	grouped	group	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	27	9	within	within	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	27	10	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	27	11	SAR	SAR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	27	12	supergroup	supergroup	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	27	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	27	14	related	relate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	27	15	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	27	16	archaeplastids	archaeplastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	27	17	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	27	18	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	27	19	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	27	20	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	27	21	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	28	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	28	2	SAR	SAR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	28	3	supergroup	supergroup	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	28	4	contains	contain	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	28	5	many	many	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	28	6	parasitic	parasitic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	28	7	species	specie	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	28	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	28	9	including	include	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	28	10	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	28	11	malaria	malaria	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	28	12	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	28	13	causing	cause	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	28	14	Plasmodium	Plasmodium	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	28	15	falciparum	falciparum	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	28	16	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	28	17	as	as	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	28	18	well	well	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	28	19	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	28	20	diatoms	diatom	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	28	21	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	28	22	dinoflagellates	dinoflagellate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	28	23	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	28	24	play	play	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	28	25	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	28	26	absolutely	absolutely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	28	27	vital	vital	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	28	28	role	role	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	28	29	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	28	30	nutrient	nutrient	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	28	31	cy-	cy-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	28	32	cling	cle	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	28	33	in	in	RP
work_gfjn7ngtojauhn7kaf6bbbsq74	28	34	aquatic	aquatic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	28	35	ecosystems	ecosystem	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	28	36	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	29	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	29	2	final	final	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	29	3	two	two	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	29	4	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	29	5	supergroups	supergroup	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	29	6	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	29	7	less	less	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	29	8	securely	securely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	29	9	placed	place	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	29	10	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	30	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	30	2	controversial	controversial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	30	3	CCTH	CCTH	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	30	4	supergroup	supergroup	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	30	5	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	30	6	thought	think	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	30	7	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	30	8	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	30	9	most	most	RBS
work_gfjn7ngtojauhn7kaf6bbbsq74	30	10	closely	closely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	30	11	related	related	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	30	12	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	30	13	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	30	14	SAR	SAR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	30	15	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	30	16	archaeplastid	archaeplastid	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	30	17	supergroups	supergroup	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	30	18	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	30	19	tentatively	tentatively	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	30	20	contains	contain	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	30	21	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	30	22	such	such	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	30	23	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	30	24	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	30	25	crypto-	crypto-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	30	26	phytes	phyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	30	27	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	30	28	haptophytes	haptophyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	30	29	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	31	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	31	2	latter	latter	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	31	3	can	can	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	31	4	grow	grow	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	31	5	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	31	6	blooms	bloom	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	31	7	large	large	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	31	8	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	31	9	dense	dense	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	31	10	enough	enough	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	31	11	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	31	12	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	31	13	visible	visible	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	31	14	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	31	15	space	space	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	31	16	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	32	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	32	2	CCTH	CCTH	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	32	3	supergroup	supergroup	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	32	4	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	32	5	contain	contain	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	32	6	lesser	less	JJR
work_gfjn7ngtojauhn7kaf6bbbsq74	32	7	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	32	8	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	32	9	marine	marine	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	32	10	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	32	11	such	such	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	32	12	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	32	13	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	32	14	centrohe-	centrohe-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	32	15	lids	lid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	32	16	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	32	17	telomerids	telomerid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	32	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	32	19	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	32	20	our	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	32	21	understanding	understanding	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	32	22	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	32	23	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	32	24	relationships	relationship	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	32	25	between	between	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	32	26	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	32	27	four	four	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	32	28	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	32	29	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	32	30	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	32	31	relative	relative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	32	32	flux	flux	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	32	33	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	33	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	33	2	last	last	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	33	3	supergroup	supergroup	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	33	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	33	5	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	33	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	34	1	While	while	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	34	3	taxonomy	taxonomy	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	4	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	34	5	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	34	6	daunting	daunt	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	34	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	34	8	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	34	9	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	34	10	classified	classify	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	11	outside	outside	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	12	Opisthokonta	Opisthokonta	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	34	13	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	34	14	tremendous	tremendous	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	34	15	medical	medical	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	34	16	impor-	impor-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	17	tance	tance	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	18	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	34	19	including	include	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	34	20	parasites	parasite	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	34	21	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	22	global	global	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	34	23	health	health	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	24	relevance	relevance	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	25	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	34	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	34	27	agricultural	agricultural	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	34	28	relevance	relevance	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	29	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	34	30	both	both	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	34	31	plants	plant	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	34	32	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	34	33	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	34	34	pathogens	pathogen	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	34	35	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	34	36	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	34	37	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	34	38	ecological	ecological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	34	39	impli-	impli-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	40	cations	cation	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	34	41	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	34	42	key	key	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	34	43	players	player	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	34	44	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	45	all	all	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	34	46	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	47	food	food	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	48	webs	webs	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	34	49	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	34	50	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	35	1	Understanding	understand	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	35	2	eu-	eu-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	35	3	karyotic	karyotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	35	4	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	35	5	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	35	6	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	35	7	understand	understand	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	35	8	critical	critical	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	35	9	aspects	aspect	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	35	10	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	35	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	35	12	world	world	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	35	13	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	35	14	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	35	15	we	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	35	16	live	live	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	35	17	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	36	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	36	2	opisthokonts	opisthokont	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	36	3	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	36	4	related	relate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	5	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	6	two	two	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	36	7	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	36	8	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	9	single	single	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	36	10	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	36	11	celled	celle	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	12	flagellates	flagellate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	36	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	36	14	apusozoa	apusozoa	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	36	15	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	36	16	breviates	breviate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	36	17	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	36	18	Brown	Brown	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	36	19	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	36	20	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	36	21	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	36	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	36	23	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	36	24	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	36	25	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	36	26	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	36	27	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	36	28	amoebozoans	amoebozoans	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	36	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	36	30	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	36	31	group	group	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	32	containing	contain	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	36	33	ecologically	ecologically	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	36	34	rel-	rel-	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	36	35	evant	evant	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	36	36	soil	soil	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	37	microbes	microbe	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	36	38	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	36	39	pathogenic	pathogenic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	36	40	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	36	41	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	36	42	e.g.	e.g.	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	36	43	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	36	44	Entamoeba	Entamoeba	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	36	45	histolytica	histolytica	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	36	46	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	36	47	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	36	48	causative	causative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	36	49	agent	agent	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	50	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	51	amebic	amebic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	36	52	dysentery	dysentery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	53	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	36	54	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	36	55	Dictyo-	Dictyo-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	36	56	stelium	stelium	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	57	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	36	58	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	36	59	emerging	emerge	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	36	60	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	61	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	36	62	model	model	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	63	organism	organism	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	64	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	36	65	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	36	66	im-	im-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	36	67	portant	portant	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	36	68	constituent	constituent	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	69	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	70	forest	forest	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	36	71	ecosystems	ecosystem	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	36	72	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	36	73	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	37	1	Archaeplastids	Archaeplastids	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	37	2	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	37	3	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	4	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	37	5	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	37	6	encompass	encompass	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	7	multicellular	multicellular	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	8	plants	plant	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	37	9	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	37	10	green	green	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	37	11	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	12	within	within	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	13	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	37	14	Viridi-	Viridi-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	37	15	plantae	plantae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	16	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	37	17	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	37	18	also	also	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	37	19	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	37	20	red	red	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	37	21	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	22	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	37	23	rhodophytes	rhodophytes	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	37	24	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	37	25	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	37	26	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	37	27	include	include	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	37	28	many	many	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	37	29	FIGURE	FIGURE	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	37	30	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	37	31	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	37	32	Diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	33	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	34	aspects	aspect	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	37	35	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	36	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	37	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	38	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	37	39	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	37	40	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	38	1	Phylogenetic	phylogenetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	38	2	relationships	relationship	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	38	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	38	4	major	major	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	38	5	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	38	6	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	38	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	38	8	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	38	9	emphasis	emphasis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	38	10	on	on	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	38	11	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	38	12	highlighted	highlight	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	38	13	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	38	14	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	38	15	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	38	16	examples	example	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	38	17	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	39	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	39	2	rooting	rooting	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	39	3	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	39	4	shown	show	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	39	5	within	within	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	39	6	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	39	7	supergroup	supergroup	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	39	8	Excavata	Excavata	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	39	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	39	10	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	39	11	Discobans	Discobans	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	39	12	on	on	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	39	13	one	one	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	39	14	side	side	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	39	15	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	39	16	Malawimonads	Malawimonads	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	39	17	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	39	18	Collodictyon	Collodictyon	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	39	19	on	on	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	39	20	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	39	21	other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	39	22	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	40	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	40	2	relationships	relationship	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	40	3	shown	show	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	40	4	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	40	5	based	base	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	40	6	on	on	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	40	7	information	information	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	40	8	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	40	9	Adl	Adl	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	40	10	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	40	11	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	40	12	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	41	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	41	2	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	41	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	41	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	41	5	Brown	Brown	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	41	6	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	41	7	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	41	8	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	42	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	42	2	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	42	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	42	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	42	5	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	42	6	Derelle	Derelle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	42	7	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	42	8	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	42	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	43	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	43	2	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	43	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	43	4	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	44	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	44	2	table	table	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	44	3	illustrates	illustrate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	44	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	44	5	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	44	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	44	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	44	8	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	44	9	processes	process	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	44	10	discussed	discuss	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	44	11	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	44	12	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	44	13	review	review	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	44	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	45	1	Column	column	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	45	2	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	45	3	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	45	4	Mitochondria	Mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	45	5	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	45	6	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	45	7	type	type	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	45	8	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	45	9	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	45	10	present	present	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	45	11	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	45	12	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	45	13	lineage	lineage	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	45	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	46	1	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	46	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	46	3	conventional	conventional	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	46	4	mitochondria	mitochondrion	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	46	5	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	46	6	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	46	7	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	46	8	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	46	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	46	10	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	46	11	mitochondria	mitochondria	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	46	12	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	46	13	hydrogenosome	hydrogenosome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	46	14	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	46	15	like	like	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	46	16	organelle	organelle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	46	17	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	46	18	H	h	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	46	19	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	46	20	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	46	21	hydrogenosome	hydrogenosome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	46	22	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	46	23	m	m	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	46	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	46	25	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	46	26	mitosome	mitosome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	46	27	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	47	1	Column	column	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	47	2	2	2	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	47	3	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	47	4	Fe	fe	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	47	5	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	47	6	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	47	7	System	System	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	47	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	47	9	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	47	10	Fe	fe	LS
work_gfjn7ngtojauhn7kaf6bbbsq74	47	11	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	47	12	S	s	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	47	13	production	production	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	47	14	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	47	15	present	present	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	47	16	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	47	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	47	18	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	47	19	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	47	20	its	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	47	21	localization	localization	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	47	22	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	48	1	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	48	3	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	48	4	conventional	conventional	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	48	5	iron	iron	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	6	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	48	7	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	8	cluster	cluster	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	9	pathway	pathway	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	10	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	48	11	cpSUF	cpSUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	48	13	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	48	14	SUF	suf	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	15	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	16	localized	localize	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	17	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	18	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	48	19	chloroplast	chloroplast	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	20	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	48	21	cSUF	cSUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	48	23	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	48	24	SUF	suf	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	25	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	26	localized	localize	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	27	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	28	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	48	29	cytosol	cytosol	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	30	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	48	31	c	c	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	32	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	48	33	m	m	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	34	NIF	NIF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	35	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	48	36	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	48	37	NIF	NIF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	38	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	39	localized	localize	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	48	40	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	41	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	48	42	chloroplast	chloroplast	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	43	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	48	44	mitosome	mitosome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	45	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	48	46	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	48	47	c	c	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	48	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	48	49	m	m	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	50	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	51	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	48	52	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	48	53	SUF	suf	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	54	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	55	localized	localize	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	48	56	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	57	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	48	58	cytosol	cytosol	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	48	59	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	48	60	mitosome	mitosome	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	48	61	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	49	1	Column	column	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	2	3	3	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	49	3	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	49	4	History	history	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	5	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	49	6	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	49	7	number	number	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	8	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	9	endosymbiotic	endosymbiotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	49	10	events	event	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	49	11	involved	involve	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	12	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	13	establishment	establishment	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	14	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	15	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	49	16	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	49	18	lineage	lineage	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	19	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	49	20	chromalveolate	chromalveolate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	21	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	49	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	49	23	where	where	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	49	24	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	49	25	exact	exact	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	49	26	phylogenetic	phylogenetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	49	27	derivation	derivation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	28	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	49	29	currently	currently	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	49	30	unknown	unknown	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	49	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	49	32	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	49	33	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	34	indicated	indicate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	35	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	36	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	49	37	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	49	38	C.	C.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	49	39	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	49	40	Column	column	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	41	4	4	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	49	42	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	49	43	Pigment	pigment	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	44	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	49	45	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	49	46	presence	presence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	47	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	49	48	absence	absence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	49	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	50	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	49	51	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	52	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	49	53	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	49	54	if	if	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	55	present	present	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	49	56	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	49	57	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	49	58	affinity	affinity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	59	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	60	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	49	61	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	49	62	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	50	1	Red	red	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	2	denotes	denote	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	3	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	50	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	50	5	red	red	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	6	algal	algal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	7	origin	origin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	50	8	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	50	9	green	green	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	10	denotes	denote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	50	11	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	50	12	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	50	13	green	green	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	14	algal	algal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	15	origin	origin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	50	16	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	50	17	teal	teal	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	50	18	indicates	indicate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	19	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	50	20	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	50	21	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	50	22	ancestral	ancestral	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	23	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	50	24	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	50	25	red	red	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	26	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	50	27	green	green	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	28	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	50	29	;	;	,
work_gfjn7ngtojauhn7kaf6bbbsq74	50	30	purple	purple	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	50	31	indicates	indicate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	32	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	50	33	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	50	34	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	35	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	50	36	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	50	37	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	50	38	red	red	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	39	algal	algal	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	50	40	origin	origin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	50	41	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	50	42	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	50	43	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	44	no	no	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	50	45	longer	long	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	50	46	photosynthetic	photosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	50	47	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	51	1	Multiple	multiple	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	51	2	colors	color	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	51	3	indicate	indicate	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	51	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	51	5	presence	presence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	51	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	51	7	multiple	multiple	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	51	8	plastid	plastid	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	51	9	types	type	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	51	10	within	within	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	51	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	51	12	taxonomic	taxonomic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	51	13	group	group	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	51	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	52	1	Column	column	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	52	2	5	5	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	52	3	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	52	4	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	52	5	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	52	6	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	52	7	complete	complete	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	52	8	presence	presence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	52	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	52	10	partial	partial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	52	11	presence	presence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	52	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	52	13	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	52	14	absence	absence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	52	15	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	52	16	AP-5	ap-5	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	52	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	52	18	respectively	respectively	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	52	19	represented	represent	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	52	20	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	52	21	fully	fully	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	52	22	colored	color	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	52	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	52	24	half	half	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	52	25	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	52	26	colored	colored	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	52	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	52	28	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	52	29	white	white	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	52	30	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	53	1	Gray	Gray	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	53	2	indicates	indicate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	53	3	taxa	taxa	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	53	4	not	not	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	53	5	searched	search	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	53	6	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	53	7	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	53	8	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	54	1	Column	column	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	54	2	6	6	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	54	3	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	54	4	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	54	5	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	54	6	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	54	7	complete	complete	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	54	8	presence	presence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	54	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	54	10	partial	partial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	54	11	presence	presence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	54	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	54	13	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	54	14	absence	absence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	54	15	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	54	16	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	54	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	54	18	respectively	respectively	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	54	19	represented	represent	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	54	20	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	54	21	fully	fully	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	54	22	colored	color	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	54	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	54	24	half	half	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	54	25	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	54	26	colored	colored	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	54	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	54	28	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	54	29	white	white	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	54	30	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	55	1	Gray	Gray	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	55	2	indicates	indicate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	55	3	taxa	taxa	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	55	4	not	not	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	55	5	searched	search	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	55	6	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	55	7	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	55	8	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	56	1	photosynthetic	photosynthetic	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	2	stramenopiles	stramenopiles	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	3	blastocystis	blastocystis	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	4	discoba	discoba	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	56	5	metamonads	metamonad	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	56	6	collodictyon	collodictyon	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	7	malawimonads	malawimonad	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	56	8	archamoebae	archamoebae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	56	9	amoebozoa	amoebozoa	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	56	10	apusozoa	apusozoa	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	56	11	animals	animal	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	56	12	basidomycetes	basidomycete	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	56	13	ascomycetes	ascomycetes	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	14	breviates	breviate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	56	15	apicomplexans	apicomplexans	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	56	16	rhizarians	rhizarians	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	56	17	ciliates	ciliate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	56	18	microsporidia	microsporidia	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	19	glaucophytes	glaucophyte	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	56	20	rhodophytes	rhodophyte	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	56	21	Viridiplantae	Viridiplantae	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	22	haptophytes	haptophyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	56	23	cryptophytes	cryptophyte	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	56	24	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	25	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	26	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	56	27	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	28	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	30	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	32	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	33	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	56	34	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	35	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	36	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	37	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	38	m	m	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	39	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	40	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	41	m	m	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	42	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	43	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	44	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	45	m	m	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	46	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	47	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	48	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	49	m	m	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	50	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	51	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	52	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	53	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	54	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	55	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	56	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	57	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	58	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	59	m	m	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	60	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	61	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	62	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	63	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	64	cpSUF	cpsuf	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	56	65	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	66	c	c	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	67	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	68	m	m	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	69	NIF	NIF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	70	c	c	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	56	71	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	72	m	m	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	73	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	74	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	75	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	56	76	cpSUF	cpSUF	.
work_gfjn7ngtojauhn7kaf6bbbsq74	56	77	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	78	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	79	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	80	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	81	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	82	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	83	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	84	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	85	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	86	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	87	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	88	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	89	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	90	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	91	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	92	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	56	93	cpSUF	cpSUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	94	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	95	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	56	96	cpSUF	cpSUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	97	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	98	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	56	99	cpSUF	cpSUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	100	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	101	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	56	102	cpSUF	cpSUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	103	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	104	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	56	105	cpSUF	cpSUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	106	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	107	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	108	2	2	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	56	109	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	56	110	3	3	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	56	111	C	c	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	56	112	2	2	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	56	113	2	2	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	56	114	C	c	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	56	115	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	56	116	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	56	117	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	56	118	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	119	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	120	Archaeplastida	Archaeplastida	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	121	CCTH	CCTH	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	122	SAR	SAR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	123	Excavata	Excavata	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	124	Amoebozoa	Amoebozoa	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	125	Apusozoa	Apusozoa	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	126	Opisthokonta	Opisthokonta	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	127	Organelle	Organelle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	128	Fe	Fe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	129	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	56	130	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	131	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	56	132	AP-5	ap-5	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	56	133	TSET	tset	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	56	134	Mitochondria	Mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	135	History	history	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	56	136	Pigment	Pigment	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	137	Plastid	Plastid	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	138	Membrane	Membrane	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	139	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	56	140	tra	tra	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	141	�	�	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	142	cking	cking	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	56	143	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	144	Mito	Mito	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	145	4534	4534	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	56	146	|	|	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	147	E.	E.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	148	Richardson	Richardson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	149	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	56	150	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	56	151	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	57	1	Molecular	Molecular	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	57	2	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	57	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	57	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	57	5	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	57	6	investigated	investigate	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	57	7	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	57	8	appear	appear	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	57	9	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	57	10	contain	contain	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	57	11	MROs	mro	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	57	12	raises	raise	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	57	13	questions	question	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	57	14	about	about	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	57	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	57	16	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	57	17	essential	essential	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	57	18	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	57	19	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	57	20	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	57	21	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	57	22	organelle	organelle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	57	23	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	57	24	if	if	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	57	25	not	not	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	57	26	energy	energy	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	57	27	gen-	gen-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	57	28	eration	eration	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	57	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	57	30	then	then	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	57	31	what	what	WP
work_gfjn7ngtojauhn7kaf6bbbsq74	57	32	?	?	.
work_gfjn7ngtojauhn7kaf6bbbsq74	58	1	Proteomic	proteomic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	58	2	analyses	analysis	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	58	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	4	mitochondria	mitochondrion	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	58	5	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	58	6	MROs	MROs	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	58	7	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	58	8	Sickmann	Sickmann	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	9	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	10	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	11	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	58	13	2003	2003	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	58	14	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	58	15	Heazlewood	Heazlewood	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	16	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	17	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	18	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	19	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	58	20	2004	2004	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	58	21	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	58	22	Smith	Smith	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	23	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	24	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	25	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	58	27	2007	2007	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	58	28	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	58	29	Jedelský	Jedelský	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	30	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	31	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	32	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	33	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	58	34	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	58	35	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	58	36	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	37	demonstrated	demonstrate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	38	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	39	formation	formation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	40	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	58	41	export	export	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	42	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	43	iron	iron	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	44	–	–	:
work_gfjn7ngtojauhn7kaf6bbbsq74	58	45	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	46	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	58	47	Fe	fe	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	58	48	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	58	49	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	50	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	58	51	clusters	cluster	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	58	52	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	58	53	essential	essential	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	58	54	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	55	several	several	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	58	56	enzymatic	enzymatic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	58	57	catalyses	catalysis	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	58	58	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	58	59	regula-	regula-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	58	60	tion	tion	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	61	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	62	gene	gene	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	63	expression	expression	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	64	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	58	65	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	66	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	58	67	only	only	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	58	68	universally	universally	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	58	69	conserved	conserve	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	70	biosyn-	biosyn-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	71	thetic	thetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	58	72	pathway	pathway	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	73	localized	localize	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	74	within	within	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	58	75	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	58	76	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	58	77	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	58	78	Hjort	Hjort	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	79	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	80	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	81	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	58	82	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	58	83	2010	2010	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	58	84	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	58	85	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	59	1	Although	although	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	59	2	iron	iron	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	59	3	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	59	4	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	59	5	can	can	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	59	6	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	59	7	assembled	assemble	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	59	8	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	59	9	nature	nature	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	59	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	59	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	59	12	individual	individual	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	59	13	components	component	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	59	14	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	59	15	toxic	toxic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	59	16	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	59	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	59	18	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	59	19	itself	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	59	20	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	60	1	In	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	2	typical	typical	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	60	3	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	60	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	60	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	60	6	mitochondrial	mitochondrial	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	7	iron	iron	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	8	–	–	:
work_gfjn7ngtojauhn7kaf6bbbsq74	60	9	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	10	cluster	cluster	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	11	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	60	12	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	60	13	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	60	14	biosynthetic	biosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	60	15	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	16	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	60	17	responsible	responsible	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	60	18	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	19	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	60	20	assembly	assembly	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	21	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	22	Fe	Fe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	60	23	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	60	24	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	60	25	clusters	cluster	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	60	26	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	27	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	60	28	mitochondria	mitochondria	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	29	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	60	30	supports	support	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	60	31	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	60	32	cytosolic	cytosolic	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	60	33	iron	iron	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	34	–	–	:
work_gfjn7ngtojauhn7kaf6bbbsq74	60	35	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	36	assembly	assembly	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	60	37	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	60	38	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	60	39	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	60	40	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	41	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	60	42	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	43	2Ai	2ai	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	60	44	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	60	45	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	60	46	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	47	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	60	48	assembly	assembly	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	49	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	50	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	60	51	cytosolic	cytosolic	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	52	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	60	53	nuclear	nuclear	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	60	54	Fe	Fe	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	60	55	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	60	56	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	60	57	clus-	clus-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	60	58	ters	ter	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	60	59	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	61	1	It	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	61	2	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	61	3	now	now	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	61	4	widely	widely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	61	5	accepted	accept	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	61	6	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	61	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	61	8	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	61	9	could	could	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	61	10	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	61	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	61	12	raison	raison	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	61	13	d’etre	d’etre	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	61	14	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	61	15	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	61	16	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	61	17	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	61	18	Lill	Lill	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	61	19	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	61	20	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	61	21	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	61	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	61	23	2005	2005	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	61	24	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	61	25	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	62	1	In	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	62	2	microbial	microbial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	62	3	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	62	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	62	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	62	6	story	story	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	62	7	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	62	8	more	more	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	62	9	complicated	complicated	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	62	10	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	63	1	Despite	despite	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	63	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	63	3	presence	presence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	63	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	63	5	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	63	6	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	63	7	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	63	8	export	export	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	63	9	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	63	10	all	all	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	63	11	mitochondria	mitochondrion	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	63	12	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	63	13	most	most	JJS
work_gfjn7ngtojauhn7kaf6bbbsq74	63	14	MROs	mro	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	63	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	63	16	including	include	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	63	17	remnant	remnant	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	63	18	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	63	19	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	63	20	Goldberg	Goldberg	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	63	21	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	63	22	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	63	23	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	63	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	63	25	2008	2008	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	63	26	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	63	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	63	28	new	new	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	63	29	Fe	Fe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	63	30	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	63	31	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	63	32	cluster	cluster	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	63	33	biosynthetic	biosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	63	34	machineries	machinery	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	63	35	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	63	36	recently	recently	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	63	37	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	63	38	de-	de-	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	63	39	scribed	scribe	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	63	40	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	63	41	microbial	microbial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	63	42	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	63	43	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	64	1	Blastocystis	blastocystis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	64	3	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	64	4	anaerobic	anaerobic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	64	5	member	member	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	64	8	SAR	SAR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	64	9	supergroup	supergroup	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	10	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	64	11	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	12	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	64	13	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	64	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	64	15	encodes	encode	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	64	16	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	64	17	fused	fuse	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	18	version	version	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	19	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	20	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	64	21	components	component	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	64	22	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	23	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	64	24	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	25	utilization	utilization	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	26	factor	factor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	27	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	64	28	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	64	29	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	64	30	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	31	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	64	32	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	64	33	2Aii	2aii	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	64	34	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	64	35	Tsaousis	Tsaousis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	64	36	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	64	37	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	64	38	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	64	39	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	64	40	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	64	41	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	64	42	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	65	1	This	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	65	2	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	65	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	65	4	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	65	5	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	65	6	also	also	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	65	7	involved	involve	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	65	8	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	65	9	Fe	fe	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	65	10	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	65	11	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	65	12	cluster	cluster	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	65	13	formation	formation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	65	14	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	65	15	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	65	16	evolutionarily	evolutionarily	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	65	17	unrelated	unrelated	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	65	18	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	65	19	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	65	20	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	65	21	machin-	machin-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	65	22	ery	ery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	65	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	65	24	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	65	25	typically	typically	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	65	26	found	find	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	65	27	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	65	28	bacteria	bacteria	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	65	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	65	30	methanoarchaea	methanoarchaea	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	65	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	65	32	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	65	33	plastid	plastid	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	65	34	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	65	35	bear-	bear-	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	65	36	ing	ing	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	65	37	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	65	38	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	66	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	66	2	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	66	3	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	4	localizes	localize	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	66	5	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	6	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	66	7	cytosol	cytosol	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	8	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	9	Blasto-	Blasto-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	66	10	cystis	cystis	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	66	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	66	12	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	66	13	induced	induce	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	14	under	under	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	15	oxygen	oxygen	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	16	stress	stress	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	17	conditions	condition	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	66	18	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	66	19	Tsaousis	Tsaousis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	66	20	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	66	21	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	66	22	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	66	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	66	24	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	66	25	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	66	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	66	27	potentially	potentially	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	66	28	affecting	affect	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	66	29	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	66	30	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	66	31	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	32	protein	protein	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	33	composition	composition	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	34	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	66	35	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	66	36	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	66	37	Tsaousis	Tsaousis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	66	38	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	66	39	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	66	40	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	66	41	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	66	42	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	66	43	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	66	44	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	67	1	A	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	67	2	similar	similar	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	67	3	acquired	acquire	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	67	4	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	67	5	was	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	67	6	also	also	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	67	7	found	find	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	67	8	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	67	9	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	67	10	free	free	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	67	11	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	67	12	living	live	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	67	13	breviate	breviate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	67	14	Pygsuia	pygsuia	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	67	15	biforma	biforma	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	67	16	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	67	17	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	67	18	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	67	19	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	67	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	67	21	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	67	22	here	here	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	67	23	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	67	24	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	67	25	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	67	26	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	67	27	also	also	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	67	28	mitochondrially	mitochondrially	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	67	29	localized	localize	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	67	30	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	67	31	Stairs	Stairs	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	67	32	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	67	33	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	67	34	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	67	35	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	67	36	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	67	37	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	67	38	Figure	Figure	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	67	39	2Aiii	2Aiii	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	67	40	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	67	41	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	67	42	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	67	43	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	67	44	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	67	45	appears	appear	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	67	46	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	67	47	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	67	48	absent	absent	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	67	49	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	68	1	Finally	finally	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	68	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	68	3	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	68	5	amoebozoans	amoebozoan	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	68	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	68	7	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	8	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	68	9	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	68	10	Entamoeba	Entamoeba	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	68	12	Mastig-	Mastig-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	13	amoeba	amoeba	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	68	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	68	16	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	17	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	18	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	68	19	also	also	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	68	20	nonexistent	nonexistent	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	68	21	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	68	22	instead	instead	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	68	23	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	68	24	nitrogen	nitrogen	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	25	fixa-	fixa-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	26	tion	tion	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	27	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	68	28	NIF)-related	NIF)-related	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	29	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	30	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	31	epsilon	epsilon	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	32	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	68	33	proteobacteria	proteobacteria	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	34	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	68	35	localized	localize	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	36	both	both	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	68	37	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	38	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	68	39	MROs	mro	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	68	40	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	68	41	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	68	42	cytosol	cytosol	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	43	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	68	44	Figure	Figure	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	45	2A	2a	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	46	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	68	47	iv	iv	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	68	48	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	68	49	v	v	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	50	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	68	51	Maralikova	Maralikova	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	52	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	53	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	54	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	55	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	68	56	2010	2010	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	68	57	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	68	58	Nývltová	Nývltová	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	59	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	60	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	61	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	68	62	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	68	63	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	68	64	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	68	65	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	69	1	This	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	69	2	calls	call	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	69	3	into	into	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	69	4	question	question	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	69	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	69	6	pur-	pur-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	69	7	pose	pose	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	69	8	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	69	9	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	69	10	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	69	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	69	12	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	69	13	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	69	14	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	69	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	69	16	origin	origin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	69	17	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	69	18	existence	existence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	69	19	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	69	20	ancestral	ancestral	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	69	21	mitochondria	mitochondrion	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	69	22	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	70	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	70	2	reasons	reason	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	70	3	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	70	4	modifications	modification	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	70	5	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	70	6	undeter-	undeter-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	70	7	mined	mined	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	70	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	70	9	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	70	10	alternations	alternation	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	70	11	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	70	12	environmental	environmental	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	70	13	oxygen	oxygen	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	70	14	levels	level	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	70	15	could	could	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	70	16	have	have	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	70	17	played	play	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	70	18	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	70	19	fundamental	fundamental	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	70	20	role	role	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	70	21	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	70	22	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	70	23	acquisition	acquisition	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	70	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	70	25	selection	selection	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	70	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	70	27	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	70	28	retention	retention	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	70	29	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	71	1	Although	although	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	2	energy	energy	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	3	production	production	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	4	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	71	5	presently	presently	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	71	6	accepted	accept	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	7	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	8	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	71	9	driver	driver	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	10	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	71	12	origin	origin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	13	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	14	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	15	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	71	16	Lane	Lane	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	17	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	71	18	Martin	Martin	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	19	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	71	20	2010	2010	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	71	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	71	22	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	71	23	see	see	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	71	24	Gray	Gray	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	25	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	71	26	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	71	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	71	28	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	29	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	71	30	intriguing	intriguing	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	71	31	alternative	alternative	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	32	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	71	33	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	71	34	it	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	35	appears	appear	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	71	36	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	71	37	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	71	38	Fe	fe	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	71	39	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	71	40	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	41	cluster	cluster	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	42	as-	as-	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	71	43	sembly	sembly	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	71	44	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	71	45	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	71	46	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	71	47	organelle	organelle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	48	’s	’s	POS
work_gfjn7ngtojauhn7kaf6bbbsq74	71	49	conserved	conserve	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	50	essential	essential	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	71	51	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	71	52	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	71	53	Lill	Lill	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	54	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	55	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	56	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	57	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	71	58	2005	2005	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	71	59	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	71	60	Embley	Embley	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	61	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	71	62	Martin	Martin	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	71	63	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	71	64	2006	2006	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	71	65	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	71	66	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	72	1	Still	still	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	72	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	72	3	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	4	25–40	25–40	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	72	5	%	%	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	7	proteins	protein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	72	8	be-	be-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	9	ing	ing	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	10	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	11	unknown	unknown	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	72	12	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	13	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	14	all	all	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	72	15	MROs	mro	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	72	16	studied	study	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	17	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	18	date	date	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	19	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	72	20	Sickmann	Sickmann	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	21	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	22	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	23	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	72	25	2003	2003	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	72	26	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	72	27	Heazlewood	Heazlewood	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	28	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	29	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	30	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	72	32	2004	2004	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	72	33	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	72	34	Smith	Smith	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	35	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	36	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	37	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	38	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	72	39	2007	2007	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	72	40	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	72	41	Jedelský	Jedelský	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	42	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	43	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	44	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	45	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	72	46	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	72	47	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	72	48	Schneider	Schneider	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	49	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	50	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	51	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	52	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	72	53	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	72	54	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	72	55	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	72	56	investigating	investigate	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	72	57	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	72	58	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	72	59	unknown	unknown	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	72	60	functions	function	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	72	61	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	72	62	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	63	mitochondria	mitochondrion	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	72	64	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	72	65	MROs	mro	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	72	66	could	could	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	72	67	yet	yet	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	72	68	provide	provide	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	72	69	us	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	70	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	71	some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	72	72	unexpected	unexpected	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	72	73	answers	answer	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	72	74	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	75	understanding	understand	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	72	76	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	72	77	origins	origin	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	72	78	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	72	79	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	72	80	role	role	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	81	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	72	82	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	72	83	organelle	organelle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	72	84	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	73	1	PLASTID	PLASTID	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	73	2	ACQUISITION	ACQUISITION	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	73	3	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	73	4	COMPLEX	COMPLEX	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	73	5	ENDOSYMBIOTIC	ENDOSYMBIOTIC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	73	6	HISTORY	history	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	73	7	SHAPES	shapes	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	73	8	PHYSIOLOGY	PHYSIOLOGY	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	73	9	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	73	10	other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	73	11	well	well	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	73	12	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	73	13	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	73	14	endosymbiotic	endosymbiotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	73	15	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	73	16	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	73	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	73	18	chloro-	chloro-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	73	19	plasts	plast	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	73	20	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	73	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	73	22	more	more	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	73	23	generically	generically	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	73	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	73	25	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	73	26	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	74	1	Best	well	RBS
work_gfjn7ngtojauhn7kaf6bbbsq74	74	2	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	3	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	4	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	74	5	role	role	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	6	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	74	8	site	site	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	9	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	10	photosynthesis	photosynthesis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	11	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	12	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	74	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	74	14	they	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	74	15	can	can	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	74	16	carry	carry	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	74	17	out	out	RP
work_gfjn7ngtojauhn7kaf6bbbsq74	74	18	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	74	19	number	number	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	20	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	21	Excavata	Excavata	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	74	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	74	23	includes	include	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	74	24	important	important	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	74	25	parasites	parasite	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	74	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	74	27	such	such	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	74	28	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	29	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	74	30	diarrheal	diarrheal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	74	31	agent	agent	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	32	Giardia	Giardia	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	74	33	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	74	34	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	74	35	agent	agent	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	36	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	37	African	african	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	74	38	sleeping	sleep	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	74	39	sickness	sickness	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	40	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	74	41	Trypanosoma	Trypanosoma	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	74	42	brucei	brucei	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	74	43	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	75	1	FUNCTION	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	2	AND	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	75	3	DIVERSITY	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	4	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	75	5	HOW	how	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	75	6	ONE	one	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	75	7	INFORMS	inform	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	75	8	THE	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	75	9	OTHER	OTHER	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	75	10	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	75	11	question	question	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	12	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	13	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	75	14	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	75	15	lineage	lineage	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	16	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	75	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	75	18	most	most	RBS
work_gfjn7ngtojauhn7kaf6bbbsq74	75	19	ancient	ancient	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	75	20	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	75	21	i.e.	i.e.	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	75	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	75	23	where	where	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	75	24	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	75	25	root	root	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	26	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	27	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	75	28	tree	tree	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	29	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	30	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	75	31	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	75	32	placed	place	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	33	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	75	34	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	75	35	important	important	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	75	36	implications	implication	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	75	37	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	38	how	how	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	75	39	one	one	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	75	40	interprets	interpret	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	75	41	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	42	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	75	43	data	datum	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	75	44	between	between	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	45	or-	or-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	46	ganisms	ganism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	75	47	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	75	48	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	49	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	75	50	time	time	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	75	51	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	76	1	Cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	76	2	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	76	3	traits	trait	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	76	4	ob-	ob-	XX
work_gfjn7ngtojauhn7kaf6bbbsq74	76	5	served	serve	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	76	6	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	76	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	76	8	various	various	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	76	9	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	76	10	supergroups	supergroup	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	76	11	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	76	12	most	most	RBS
work_gfjn7ngtojauhn7kaf6bbbsq74	76	13	logically	logically	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	76	14	in-	in-	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	76	15	terpreted	terprete	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	76	16	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	76	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	76	18	starting	start	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	76	19	state	state	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	76	20	being	be	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	76	21	at	at	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	76	22	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	76	23	root	root	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	76	24	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	76	25	change	change	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	76	26	inferred	infer	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	76	27	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	76	28	there	there	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	76	29	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	77	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	77	2	latest	late	JJS
work_gfjn7ngtojauhn7kaf6bbbsq74	77	3	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	77	4	most	most	RBS
work_gfjn7ngtojauhn7kaf6bbbsq74	77	5	robust	robust	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	77	6	molecular	molecular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	77	7	evolution-	evolution-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	77	8	ary	ary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	77	9	analyses	analysis	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	77	10	place	place	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	77	11	Excavata	Excavata	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	77	12	straddling	straddle	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	77	13	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	77	14	root	root	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	77	15	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	77	16	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	77	17	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	77	18	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	77	19	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	77	20	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	77	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	77	22	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	77	23	would	would	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	77	24	place	place	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	77	25	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	77	26	ancient	ancient	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	77	27	divide	divide	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	77	28	between	between	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	77	29	its	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	77	30	mem-	mem-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	77	31	bers	ber	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	77	32	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	77	33	Derelle	Derelle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	77	34	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	77	35	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	77	36	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	77	37	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	77	38	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	77	39	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	77	40	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	78	1	This	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	78	2	rooting	rooting	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	3	implies	imply	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	78	4	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	78	6	last	last	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	78	7	common	common	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	78	8	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	78	9	ancestor	ancestor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	10	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	78	11	LECA	LECA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	78	12	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	78	13	had	have	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	78	14	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	78	15	complex	complex	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	78	16	set	set	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	17	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	18	cytoskeletal	cytoskeletal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	78	19	ar-	ar-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	20	rangements	rangement	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	78	21	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	78	22	was	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	78	23	likely	likely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	78	24	biflagellated	biflagellate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	25	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	78	26	Yubuki	Yubuki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	78	27	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	78	28	Leander	Leander	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	78	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	78	30	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	78	31	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	78	32	Derelle	Derelle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	78	33	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	78	34	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	78	35	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	78	36	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	78	37	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	78	38	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	78	39	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	78	40	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	41	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	78	42	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	78	43	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	78	44	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	45	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	46	we	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	78	47	observe	observe	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	78	48	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	49	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	78	50	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	78	51	even	even	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	78	52	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	53	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	78	54	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	78	55	diverged	diverge	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	78	56	extremely	extremely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	78	57	early	early	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	78	58	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	59	evolu-	evolu-	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	78	60	tionary	tionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	78	61	history	history	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	78	62	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	79	1	Comparative	comparative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	79	2	molecular	molecular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	79	3	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	79	4	studies	study	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	79	5	also	also	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	79	6	re-	re-	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	79	7	construct	construct	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	79	8	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	79	9	LECA	leca	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	79	10	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	79	11	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	79	12	anything	anything	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	79	13	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	79	14	simple	simple	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	79	15	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	79	16	primitive	primitive	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	79	17	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	80	1	Analyses	analysis	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	80	2	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	3	proteins	protein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	80	4	associated	associate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	5	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	6	nuclear	nuclear	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	80	7	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	80	9	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	10	trafficking	trafficking	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	11	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	80	12	metabolism	metabolism	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	80	14	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	80	15	more	more	JJR
work_gfjn7ngtojauhn7kaf6bbbsq74	80	16	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	80	17	reconstructed	reconstruct	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	18	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	80	19	sophisticated	sophisticated	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	80	20	comple-	comple-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	21	ment	ment	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	80	22	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	23	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	24	present	present	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	80	25	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	26	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	80	27	LECA	LECA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	80	28	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	80	29	Koumandou	Koumandou	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	80	30	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	80	31	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	80	32	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	80	33	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	80	34	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	80	35	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	80	36	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	80	37	estimated	estimate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	38	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	80	39	have	have	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	80	40	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	41	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	42	existence	existence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	80	43	∼1.5	∼1.5	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	80	44	billion	billion	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	80	45	years	year	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	80	46	ago	ago	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	80	47	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	80	48	Eme	Eme	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	80	49	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	80	50	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	80	51	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	80	52	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	80	53	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	80	54	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	80	55	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	81	1	Delving	delve	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	81	2	into	into	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	3	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	81	4	complexity	complexity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	81	6	particularly	particularly	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	81	7	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	8	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	81	9	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	10	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	81	11	genomic	genomic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	81	12	information	information	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	13	can	can	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	81	14	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	81	15	combined	combine	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	16	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	17	molecular	molecular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	81	18	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	19	biologi-	biologi-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	81	20	cal	cal	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	81	21	analyses	analyses	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	81	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	81	23	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	81	24	provided	provide	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	25	surprising	surprising	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	81	26	findings	finding	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	81	27	about	about	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	28	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	81	29	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	30	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	81	31	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	32	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	81	33	modern	modern	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	81	34	cells	cell	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	81	35	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	82	1	We	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	82	2	highlight	highlight	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	82	3	three	three	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	82	4	examples	example	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	82	5	below	below	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	82	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	82	7	show-	show-	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	82	8	ing	e	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	82	9	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	82	10	different	different	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	82	11	ways	way	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	82	12	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	82	13	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	82	14	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	82	15	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	82	16	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	82	17	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	82	18	ap-	ap-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	82	19	proach	proach	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	82	20	can	can	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	82	21	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	82	22	fruitful	fruitful	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	82	23	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	83	1	In	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	83	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	83	3	first	first	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	83	4	two	two	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	83	5	examples	example	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	83	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	83	7	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	83	8	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	83	9	di-	di-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	83	10	vergent	vergent	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	83	11	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	83	12	were	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	83	13	studied	study	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	83	14	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	83	15	order	order	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	83	16	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	83	17	better	well	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	83	18	understand	understand	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	83	19	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	83	20	evolution	evolution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	83	21	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	83	22	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	83	23	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	83	24	organellar	organellar	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	83	25	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	83	26	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	84	1	In	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	84	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	84	3	last	last	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	84	4	case	case	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	84	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	84	6	purely	purely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	84	7	exploratory	exploratory	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	84	8	studies	study	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	84	9	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	84	10	genomic	genomic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	84	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	84	12	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	84	13	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	84	14	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	84	15	revealed	reveal	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	84	16	unforeseen	unforeseen	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	84	17	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	84	18	components	component	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	84	19	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	84	20	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	84	21	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	85	1	MITOCHONDRIA	mitochondria	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	85	2	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	85	3	HIGHLY	HIGHLY	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	85	4	RETAINED	RETAINED	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	85	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	85	6	BUT	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	85	7	WHY	why	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	85	8	?	?	.
work_gfjn7ngtojauhn7kaf6bbbsq74	86	1	Best	well	RBS
work_gfjn7ngtojauhn7kaf6bbbsq74	86	2	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	3	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	86	5	powerhouse	powerhouse	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	86	8	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	86	10	due	due	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	11	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	12	its	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	86	13	involvement	involvement	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	14	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	15	aerobic	aerobic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	86	16	respiration	respiration	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	17	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	86	18	energy	energy	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	19	generation	generation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	86	21	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	86	22	were	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	86	23	among	among	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	24	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	86	25	first	first	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	86	26	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	86	27	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	86	28	capture	capture	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	86	29	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	86	30	attention	attention	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	31	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	86	32	inspiration	inspiration	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	33	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	34	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	86	35	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	86	36	biologists	biologist	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	86	37	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	87	1	Evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	87	2	analysis	analysis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	3	was	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	87	4	key	key	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	87	5	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	6	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	87	7	startling	startling	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	87	8	discovery	discovery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	9	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	10	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	87	11	1980s	1980	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	87	12	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	87	13	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	87	14	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	87	15	derived	derive	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	16	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	17	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	87	18	endosymbiotic	endosymbiotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	87	19	alpha	alpha	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	20	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	87	21	proteobacterium	proteobacterium	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	22	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	87	23	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	87	24	further	further	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	87	25	revela-	revela-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	87	26	tion	tion	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	27	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	87	28	Muller	Muller	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	87	29	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	87	30	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	87	31	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	87	32	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	87	33	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	87	34	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	87	35	among	among	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	36	others	other	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	87	37	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	87	38	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	39	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	87	40	diverse	diverse	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	87	41	double	double	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	87	42	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	43	–	–	:
work_gfjn7ngtojauhn7kaf6bbbsq74	87	44	bound	bind	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	45	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	87	46	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	47	disparately	disparately	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	87	48	related	relate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	49	anaerobic	anaerobic	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	50	eu-	eu-	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	51	karyotes	karyote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	87	52	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	87	53	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	87	54	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	55	fact	fact	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	87	56	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	87	57	derived	derive	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	87	58	mitochondria	mitochondrion	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	87	59	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	88	1	Hydrogen	hydrogen	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	88	2	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	88	3	producing	produce	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	88	4	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	88	5	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	88	6	i.e.	i.e.	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	88	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	88	8	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	88	9	hydrogenosomes	hydrogenosomes	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	88	10	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	88	11	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	88	12	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	88	13	found	find	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	88	14	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	88	15	ciliates	ciliate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	88	16	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	88	17	members	member	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	88	18	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	88	19	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	88	20	SAR	SAR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	88	21	supergroup	supergroup	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	88	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	88	23	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	88	24	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	88	25	several	several	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	88	26	members	member	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	88	27	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	88	28	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	88	29	Excavata	Excavata	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	88	30	group	group	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	88	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	88	32	including	include	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	88	33	Trichomonas	Trichomonas	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	88	34	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	88	35	Figure	Figure	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	88	36	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	88	37	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	88	38	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	89	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	89	2	even	even	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	89	3	more	more	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	89	4	reduced	reduced	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	89	5	mitochondria	mitochondrion	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	89	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	89	7	so	so	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	89	8	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	89	9	called	call	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	89	10	mitosomes	mitosome	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	89	11	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	89	12	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	89	13	found	find	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	89	14	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	89	15	diverse	diverse	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	89	16	groups	group	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	89	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	89	18	including	include	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	89	19	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	89	20	metamonad	metamonad	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	89	21	Giardia	Giardia	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	89	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	89	23	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	89	24	amoebozoan	amoebozoan	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	89	25	Entamoeba	Entamoeba	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	89	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	89	27	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	89	28	apicomplexan	apicomplexan	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	89	29	Cryptosporidium	Cryptosporidium	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	89	30	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	89	31	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	89	32	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	89	33	opisthokont	opisthokont	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	89	34	micro-	micro-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	89	35	sporidia	sporidia	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	89	36	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	89	37	Figure	Figure	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	89	38	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	89	39	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	89	40	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	90	1	These	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	90	2	mitochondria	mitochondria	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	3	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	90	4	related	relate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	5	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	90	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	90	7	here-	here-	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	8	after	after	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	9	collectively	collectively	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	90	10	called	call	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	11	MROs	mro	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	90	12	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	90	13	can	can	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	90	14	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	90	15	found	find	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	16	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	17	at	at	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	90	18	least	least	RBS
work_gfjn7ngtojauhn7kaf6bbbsq74	90	19	one	one	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	90	20	taxon	taxon	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	21	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	22	almost	almost	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	90	23	all	all	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	90	24	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	90	25	supergroups	supergroup	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	90	26	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	90	27	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	28	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	90	29	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	90	30	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	90	31	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	90	32	harbor	harbor	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	90	33	no	no	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	90	34	more	more	JJR
work_gfjn7ngtojauhn7kaf6bbbsq74	90	35	than	than	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	36	130	130	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	90	37	proteins	protein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	90	38	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	90	39	Jedelský	Jedelský	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	90	40	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	90	41	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	90	42	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	90	43	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	90	44	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	90	45	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	90	46	out	out	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	47	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	48	1200	1200	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	90	49	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	90	50	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	90	51	usually	usually	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	90	52	found	find	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	53	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	90	54	canonical	canonical	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	90	55	mitochondria	mitochondrion	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	90	56	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	91	1	Contrary	contrary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	91	2	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	91	4	well-	well-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	5	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	6	role	role	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	7	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	8	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	91	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	91	10	some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	91	11	MROs	mro	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	91	12	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	91	13	not	not	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	91	14	involved	involve	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	15	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	16	energy	energy	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	17	generation	generation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	18	at	at	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	91	19	all	all	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	91	20	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	91	21	some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	91	22	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	91	23	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	91	24	steal	steal	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	91	25	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	91	26	ATP	atp	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	27	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	28	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	91	29	organism	organism	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	30	’s	’s	POS
work_gfjn7ngtojauhn7kaf6bbbsq74	91	31	cyto-	cyto-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	91	32	sol	sol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	91	33	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	34	order	order	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	91	35	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	91	36	function	function	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	91	37	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	91	38	Tsaousis	Tsaousis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	91	39	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	91	40	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	91	41	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	91	42	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	91	43	2008	2008	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	91	44	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	91	45	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	92	1	That	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	92	2	all	all	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	92	3	currently	currently	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	92	4	Volume	volume	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	92	5	26	26	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	92	6	December	December	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	92	7	15	15	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	92	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	92	9	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	92	10	Evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	92	11	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	92	12	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	92	13	|	|	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	92	14	4535	4535	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	92	15	other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	92	16	functions	function	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	92	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	92	18	including	include	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	92	19	synthesis	synthesis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	92	20	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	92	21	cofactors	cofactor	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	92	22	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	92	23	Fe	fe	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	92	24	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	92	25	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	92	26	clusters	cluster	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	92	27	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	92	28	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	92	29	fatty	fatty	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	92	30	acids	acid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	92	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	92	32	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	92	33	heme	heme	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	92	34	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	92	35	Dorrell	Dorrell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	92	36	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	92	37	Howe	Howe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	92	38	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	92	39	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	92	40	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	92	41	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	93	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	93	2	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	93	3	history	history	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	5	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	93	6	given	give	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	7	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	8	provides	provide	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	93	9	context	context	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	10	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	11	its	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	93	12	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	13	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	93	15	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	93	16	thus	thus	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	93	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	93	18	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	19	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	20	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	93	21	key	key	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	93	22	organelle	organelle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	93	23	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	24	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	93	25	dazzling	dazzling	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	93	26	array	array	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	27	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	93	28	ecologically	ecologically	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	93	29	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	93	30	agriculturally	agriculturally	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	93	31	important	important	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	93	32	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	93	33	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	94	1	Plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	94	2	initially	initially	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	94	3	arose	arise	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	94	4	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	94	6	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	7	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	94	8	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	9	2Bi	2bi	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	94	10	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	94	11	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	12	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	94	13	cyanobacterium	cyanobacterium	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	14	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	94	16	common	common	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	94	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	94	18	heterotrophic	heterotrophic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	94	19	ancestor	ancestor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	20	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	21	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	94	22	archaeplastids	archaeplastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	94	23	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	94	24	green	green	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	94	25	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	94	27	red	red	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	94	28	al-	al-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	94	29	gae	gae	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	94	30	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	94	31	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	94	32	plants	plant	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	94	33	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	94	34	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	94	35	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	94	36	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	94	37	presence	presence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	38	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	94	39	not	not	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	94	40	limited	limit	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	41	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	42	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	94	43	supergroup	supergroup	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	94	44	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	94	45	Walker	Walker	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	94	46	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	94	47	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	94	48	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	94	49	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	94	50	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	94	51	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	94	52	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	95	1	Members	member	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	95	2	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	95	4	green	green	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	95	5	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	95	6	red	red	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	95	7	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	8	were	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	95	9	subsequently	subsequently	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	95	10	taken	take	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	11	up	up	RP
work_gfjn7ngtojauhn7kaf6bbbsq74	95	12	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	95	13	converted	convert	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	14	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	15	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	95	16	through	through	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	17	higher-	higher-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	95	18	order	order	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	19	endosymbioses	endosymbiose	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	95	20	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	95	21	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	22	2Bii	2bii	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	95	23	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	95	24	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	25	at	at	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	95	26	least	least	JJS
work_gfjn7ngtojauhn7kaf6bbbsq74	95	27	seven	seven	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	95	28	other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	95	29	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	95	30	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	95	31	distributed	distribute	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	32	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	33	multiple	multiple	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	95	34	supergroups	supergroup	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	95	35	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	95	36	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	95	37	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	95	38	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	95	39	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	96	1	Endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	96	2	was	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	96	3	initially	initially	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	96	4	considered	consider	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	96	5	rare	rare	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	96	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	96	7	due	due	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	96	8	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	96	9	it	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	96	10	being	be	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	96	11	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	96	12	mu-	mu-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	96	13	tationally	tationally	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	96	14	onerous	onerous	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	96	15	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	96	16	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	96	17	Cavalier	Cavalier	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	96	18	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	96	19	Smith	Smith	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	96	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	96	21	1999	1999	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	96	22	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	96	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	96	24	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	96	25	early	early	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	96	26	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	96	27	models	model	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	96	28	accordingly	accordingly	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	96	29	minimized	minimize	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	96	30	plastid	plastid	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	96	31	acquisition	acquisition	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	96	32	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	97	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	97	2	chromalveo-	chromalveo-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	97	3	late	late	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	97	4	hypothesis	hypothesis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	97	5	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	97	6	Cavalier	Cavalier	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	97	7	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	97	8	Smith	Smith	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	97	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	97	10	1999	1999	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	97	11	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	97	12	explained	explain	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	97	13	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	97	14	distribution	distribution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	97	15	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	97	16	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	97	17	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	97	18	parsimoniously	parsimoniously	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	97	19	suggesting	suggest	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	97	20	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	97	21	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	97	22	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	97	23	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	97	24	several	several	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	97	25	ecologically	ecologically	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	97	26	important	important	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	97	27	algal	algal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	97	28	groups	group	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	97	29	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	97	30	cryptophytes	cryptophyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	97	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	97	32	haptophytes	haptophyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	97	33	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	97	34	stramenopiles	stramenopile	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	97	35	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	97	36	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	97	37	dinoflagellates	dinoflagellate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	97	38	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	97	39	originated	originate	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	97	40	through	through	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	97	41	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	97	42	single	single	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	97	43	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	97	44	sec-	sec-	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	97	45	ondary	ondary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	97	46	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	97	47	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	97	48	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	97	49	red	red	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	97	50	alga	alga	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	97	51	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	98	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	98	2	use	use	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	4	chlorophyll	chlorophyll	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	5	c	c	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	98	6	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	7	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	98	8	light	light	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	9	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	98	10	harvesting	harvesting	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	11	pigment	pigment	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	12	suggests	suggest	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	98	13	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	98	14	common	common	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	98	15	origin	origin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	16	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	98	17	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	18	do	do	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	98	19	plas-	plas-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	98	20	tid	tid	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	98	21	gene	gene	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	22	phylogenies	phylogeny	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	98	23	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	98	24	consistently	consistently	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	98	25	recover	recover	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	98	26	monophyletic	monophyletic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	98	27	rela-	rela-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	98	28	tionships	tionship	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	98	29	between	between	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	30	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	98	31	chloroplast	chloroplast	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	98	32	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	98	33	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	98	34	Bachvaroff	Bachvaroff	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	98	35	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	98	36	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	98	37	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	98	38	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	98	39	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	98	40	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	98	41	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	99	1	However	however	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	99	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	99	3	evidence	evidence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	99	4	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	99	5	come	come	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	99	6	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	99	7	light	light	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	99	8	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	99	9	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	99	10	last	last	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	99	11	decade	decade	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	99	12	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	99	13	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	99	14	story	story	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	99	15	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	99	16	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	99	17	more	more	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	99	18	complex	complex	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	99	19	than	than	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	99	20	it	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	99	21	first	first	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	99	22	appeared	appear	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	99	23	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	100	1	Multigene	multigene	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	100	2	phylogenies	phylogeny	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	100	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	100	4	nuclear	nuclear	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	100	5	genes	gene	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	100	6	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	100	7	conclusively	conclusively	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	100	8	shown	show	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	100	9	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	100	10	each	each	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	100	11	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	100	12	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	100	13	putative	putative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	100	14	chromalveolate	chromalveolate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	100	15	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	100	16	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	100	17	more	more	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	100	18	closely	closely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	100	19	related	related	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	100	20	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	100	21	nonphotosynthetic	nonphotosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	100	22	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	100	23	than	than	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	100	24	they	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	100	25	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	100	26	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	100	27	each	each	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	100	28	other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	100	29	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	101	1	For	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	101	2	example	example	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	101	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	101	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	101	5	stramenopiles	stramenopile	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	101	6	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	101	7	dinoflagellates	dinoflagellate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	101	8	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	101	9	very	very	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	101	10	closely	closely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	101	11	related	related	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	101	12	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	101	13	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	101	14	rhizarians	rhizarians	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	101	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	101	16	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	101	17	group	group	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	101	18	composed	compose	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	101	19	almost	almost	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	101	20	en-	en-	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	101	21	tirely	tirely	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	101	22	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	101	23	nonphotosynthetic	nonphotosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	101	24	protists	protist	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	101	25	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	101	26	Burki	Burki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	101	27	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	101	28	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	101	29	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	101	30	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	101	31	2007	2007	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	101	32	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	101	33	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	102	1	Multiple	multiple	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	102	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	102	3	independently	independently	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	102	4	conducted	conduct	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	102	5	studies	study	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	102	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	102	7	nuclear	nuclear	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	102	8	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	102	9	mitochondrial	mitochondrial	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	102	10	ge-	ge-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	102	11	nomes	nome	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	102	12	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	13	now	now	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	102	14	rejected	reject	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	102	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	102	16	monophyly	monophyly	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	102	17	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	102	18	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	102	19	putative	putative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	102	20	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	102	21	chromalveolate	chromalveolate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	102	22	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	102	23	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	102	24	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	102	25	Baurain	Baurain	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	26	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	27	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	28	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	102	30	2010	2010	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	102	31	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	102	32	Burki	Burki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	33	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	102	34	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	35	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	36	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	102	37	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	102	38	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	102	39	Stiller	Stiller	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	40	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	41	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	42	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	102	43	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	102	44	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	102	45	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	102	46	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	103	1	Some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	103	2	authors	author	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	103	3	argue	argue	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	103	4	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	103	5	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	103	6	single	single	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	103	7	ancestral	ancestral	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	103	8	acqui-	acqui-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	103	9	sition	sition	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	103	10	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	103	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	103	12	common	common	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	103	13	ancestor	ancestor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	103	14	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	103	15	chromalveolate	chromalveolate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	103	16	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	103	17	related	related	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	103	18	lin-	lin-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	103	19	eages	eage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	103	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	103	21	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	103	22	extensive	extensive	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	103	23	loss	loss	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	103	24	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	103	25	Cavalier	Cavalier	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	103	26	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	103	27	Smith	Smith	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	103	28	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	103	29	1999	1999	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	103	30	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	103	31	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	104	1	Nonetheless	nonetheless	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	104	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	104	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	104	4	monophyletic	monophyletic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	104	5	nature	nature	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	104	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	104	7	chromalveolate	chromalveolate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	104	8	plas-	plas-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	104	9	tids	tid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	104	10	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	104	11	disparate	disparate	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	104	12	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	104	13	origins	origin	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	104	14	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	104	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	104	16	corresponding	correspond	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	104	17	nuclear	nuclear	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	104	18	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	104	19	suggest	suggest	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	104	20	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	104	21	complex	complex	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	104	22	progression	progression	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	104	23	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	104	24	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	104	25	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	105	1	Recent	recent	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	105	2	studies	study	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	105	3	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	105	4	found	find	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	105	5	evidence	evidence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	105	6	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	105	7	multiple	multiple	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	105	8	endosymbiotic	endosymbiotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	105	9	transfers	transfer	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	105	10	FIGURE	FIGURE	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	105	11	2	2	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	105	12	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	105	13	Illustrations	illustration	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	105	14	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	105	15	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	105	16	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	105	17	complexity	complexity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	105	18	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	106	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	106	2	A	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	106	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	106	4	Diagram	diagram	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	106	5	demonstrating	demonstrate	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	106	6	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	106	7	alternative	alternative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	106	8	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	106	9	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	106	10	biosynthesis	biosynthesis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	106	11	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	106	12	Fe	Fe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	106	13	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	106	14	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	106	15	clusters	cluster	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	106	16	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	106	17	microbial	microbial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	106	18	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	106	19	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	107	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	107	2	i	i	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	107	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	107	4	A	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	107	5	typical	typical	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	107	6	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	107	7	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	107	8	requires	require	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	107	9	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	107	10	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	107	11	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	107	12	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	107	13	support	support	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	107	14	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	107	15	mitochondrial	mitochondrial	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	107	16	apo-(Fe	apo-(fe	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	107	17	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	107	18	S)-proteins	S)-proteins	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	107	19	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	107	20	proteins	protein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	107	21	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	107	22	require	require	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	107	23	Fe	fe	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	107	24	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	107	25	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	107	26	clusters	cluster	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	107	27	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	107	28	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	107	29	functionally	functionally	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	107	30	active	active	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	107	31	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	107	32	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	107	33	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	107	34	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	107	35	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	107	36	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	107	37	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	107	38	cytosolic	cytosolic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	107	39	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	107	40	nuclear	nuclear	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	107	41	apoproteins	apoprotein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	107	42	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	108	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	108	2	ii	ii	LS
work_gfjn7ngtojauhn7kaf6bbbsq74	108	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	108	4	Blastocystis	blastocystis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	108	5	requires	require	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	108	6	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	108	7	modified	modify	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	108	8	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	108	9	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	108	10	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	108	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	108	12	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	108	13	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	108	14	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	108	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	108	16	maturation	maturation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	108	17	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	108	18	its	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	108	19	cytosolic	cytosolic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	108	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	108	21	nuclear	nuclear	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	108	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	108	23	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	108	24	oxygen-	oxygen-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	108	25	sensitive	sensitive	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	108	26	apoproteins	apoprotein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	108	27	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	109	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	109	2	iii	iii	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	109	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	109	4	Pygsuia	Pygsuia	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	109	5	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	109	6	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	109	7	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	109	8	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	109	9	localized	localize	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	109	10	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	109	11	its	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	109	12	mitochondria	mitochondria	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	109	13	instead	instead	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	109	14	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	109	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	109	16	typical	typical	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	109	17	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	109	18	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	109	19	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	109	20	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	109	21	support	support	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	109	22	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	109	23	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	109	24	organellar	organellar	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	109	25	apoproteins	apoprotein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	109	26	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	110	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	110	2	iv	iv	LS
work_gfjn7ngtojauhn7kaf6bbbsq74	110	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	110	4	Entamoeba	Entamoeba	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	110	5	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	110	6	lost	lose	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	110	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	110	8	traditional	traditional	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	110	9	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	110	10	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	110	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	110	12	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	110	13	acquired	acquire	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	110	14	NIF	NIF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	110	15	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	110	16	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	110	17	its	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	110	18	cytosol	cytosol	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	110	19	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	110	20	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	110	21	support	support	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	110	22	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	110	23	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	110	24	apoproteins	apoprotein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	110	25	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	111	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	111	2	v	v	LS
work_gfjn7ngtojauhn7kaf6bbbsq74	111	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	111	4	Mastigamoeba	Mastigamoeba	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	111	5	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	111	6	lost	lose	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	111	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	111	8	traditional	traditional	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	111	9	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	111	10	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	111	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	111	12	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	111	13	acquired	acquire	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	111	14	two	two	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	111	15	NIF	NIF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	111	16	machineries	machinery	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	111	17	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	111	18	its	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	111	19	cytosol	cytosol	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	111	20	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	111	21	its	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	111	22	hydrogenosome	hydrogenosome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	111	23	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	111	24	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	111	25	support	support	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	111	26	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	111	27	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	111	28	apoproteins	apoprotein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	111	29	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	112	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	112	2	B	B	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	112	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	112	4	Diagram	Diagram	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	112	5	demonstrating	demonstrate	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	112	6	various	various	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	112	7	methods	method	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	112	8	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	112	9	plastid	plastid	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	112	10	acquisition	acquisition	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	112	11	found	find	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	112	12	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	112	13	various	various	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	112	14	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	112	15	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	113	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	113	2	i	i	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	113	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	113	4	Primary	primary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	113	5	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	113	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	113	7	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	113	8	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	113	9	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	113	10	cyanobacteria	cyanobacteria	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	113	11	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	113	12	engulfed	engulf	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	113	13	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	113	14	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	113	15	heterotrophic	heterotrophic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	113	16	eukaryote	eukaryote	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	113	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	113	18	resulting	result	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	113	19	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	113	20	establishment	establishment	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	113	21	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	113	22	chloroplasts	chloroplast	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	113	23	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	114	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	114	2	ii	ii	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	114	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	114	4	Secondary	secondary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	114	5	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	114	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	114	7	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	114	8	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	114	9	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	114	10	photosynthetic	photosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	114	11	eukaryote	eukaryote	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	114	12	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	114	13	engulfed	engulf	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	114	14	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	114	15	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	114	16	heterotrophic	heterotrophic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	114	17	eukaryote	eukaryote	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	114	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	114	19	resulting	result	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	114	20	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	114	21	establishment	establishment	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	114	22	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	114	23	chloroplasts	chloroplast	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	114	24	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	115	1	Other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	115	2	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	115	3	structures	structure	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	115	4	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	115	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	115	6	original	original	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	115	7	eukaryote	eukaryote	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	115	8	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	115	9	also	also	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	115	10	remain	remain	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	115	11	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	116	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	116	2	iii	iii	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	116	4	Tertiary	tertiary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	116	5	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	116	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	116	7	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	116	8	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	9	ISC	ISC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	10	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	11	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	12	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	13	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	14	NIF	NIF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	15	NIF	NIF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	16	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	17	Typical	typical	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	116	18	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	116	19	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	116	20	Blastocystis	blastocystis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	116	21	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	116	22	stramenopiles	stramenopile	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	116	23	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	116	24	Pygsuia	Pygsuia	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	25	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	116	26	breviates	breviate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	116	27	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	116	28	Entamoeba	Entamoeba	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	29	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	116	30	Amoebozoa	Amoebozoa	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	31	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	116	32	Mastigamoeba	Mastigamoeba	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	33	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	116	34	Amoebozoa	Amoebozoa	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	35	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	116	36	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	116	37	Fe	fe	LS
work_gfjn7ngtojauhn7kaf6bbbsq74	116	38	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	116	39	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	40	clusters	cluster	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	116	41	Nu	Nu	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	42	Nu	Nu	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	43	Nu	Nu	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	44	Nu	Nu	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	45	*	*	NFP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	46	*	*	NFP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	47	*	*	NFP
work_gfjn7ngtojauhn7kaf6bbbsq74	116	48	A	a	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	116	49	ii	ii	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	116	50	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	117	1	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	118	1	v.	v.	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	118	2	v.	v.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	118	3	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	118	4	?	?	.
work_gfjn7ngtojauhn7kaf6bbbsq74	119	1	?	?	.
work_gfjn7ngtojauhn7kaf6bbbsq74	120	1	CIA	CIA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	120	2	NIFNu	NIFNu	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	120	3	*	*	NFP
work_gfjn7ngtojauhn7kaf6bbbsq74	120	4	?	?	.
work_gfjn7ngtojauhn7kaf6bbbsq74	120	5	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	120	6	i.	i.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	121	1	B	B	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	121	2	T	T	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	121	3	AP-5	ap-5	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	121	4	Nucleus	Nucleus	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	121	5	Golgi	Golgi	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	121	6	Lysosomes	Lysosomes	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	121	7	Late	Late	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	121	8	endosome	endosome	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	121	9	Early	early	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	121	10	endosome	endosome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	121	11	Recycling	recycling	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	121	12	endosome	endosome	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	121	13	TSET	tset	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	121	14	Plasma	Plasma	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	121	15	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	121	16	ii.i	ii.i	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	121	17	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	122	1	iv	iv	XX
work_gfjn7ngtojauhn7kaf6bbbsq74	122	2	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	123	1	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	123	2	primary	primary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	123	3	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	123	4	secondary	secondary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	123	5	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	123	6	serial	serial	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	123	7	endosymbiosis	endosymbiosis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	123	8	iii	iii	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	123	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	124	1	tertiary	tertiary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	124	2	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	124	3	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	124	4	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	124	5	photosynthetic	photosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	124	6	organism	organism	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	124	7	containing	contain	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	124	8	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	124	9	secondary	secondary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	124	10	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	124	11	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	124	12	itself	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	124	13	engulfed	engulf	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	124	14	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	124	15	another	another	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	124	16	eukaryote	eukaryote	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	124	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	124	18	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	124	19	produce	produce	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	124	20	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	124	21	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	124	22	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	125	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	125	2	iv	iv	LS
work_gfjn7ngtojauhn7kaf6bbbsq74	125	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	125	4	Serial	serial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	125	5	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	125	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	125	7	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	125	8	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	125	9	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	125	10	photosynthetic	photosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	125	11	eukaryote	eukaryote	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	125	12	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	125	13	engulfed	engulf	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	125	14	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	125	15	another	another	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	125	16	photosynthetic	photosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	125	17	eukaryote	eukaryote	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	125	18	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	126	1	This	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	126	2	results	result	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	126	3	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	126	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	126	5	establishment	establishment	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	126	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	126	7	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	126	8	replacement	replacement	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	126	9	chloroplast	chloroplast	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	126	10	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	126	11	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	126	12	different	different	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	126	13	phylogenetic	phylogenetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	126	14	derivation	derivation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	126	15	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	127	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	127	2	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	127	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	127	4	Diagram	Diagram	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	127	5	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	127	6	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	127	7	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	127	8	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	127	9	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	127	10	trafficking	traffic	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	127	11	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	127	12	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	128	1	Major	major	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	128	2	endomembrane	endomembrane	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	128	3	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	128	4	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	128	5	labeled	label	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	128	6	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	128	7	trafficking	traffic	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	128	8	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	128	9	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	128	10	denoted	denote	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	128	11	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	128	12	curved	curved	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	128	13	arrows	arrow	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	128	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	129	1	Localization	localization	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	129	2	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	129	3	structure	structure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	129	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	129	5	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	129	6	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	129	7	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	129	8	indicated	indicate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	129	9	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	129	10	blue	blue	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	129	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	129	12	magenta	magenta	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	129	13	structures	structure	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	129	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	129	15	respectively	respectively	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	129	16	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	130	1	All	all	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	130	2	adaptin	adaptin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	130	3	complexes	complex	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	130	4	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	130	5	TSET	TSET	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	130	6	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	130	7	COPII	COPII	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	130	8	share	share	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	130	9	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	130	10	heterotetrameric	heterotetrameric	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	130	11	quaternary	quaternary	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	130	12	structure	structure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	130	13	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	130	14	two	two	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	130	15	large	large	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	130	16	subunits	subunit	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	130	17	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	130	18	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	130	19	medium	medium	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	130	20	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	130	21	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	130	22	small	small	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	130	23	subunit	subunit	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	130	24	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	130	25	illustrated	illustrate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	130	26	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	130	27	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	130	28	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	130	29	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	130	30	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	131	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	131	2	FCHO	fcho	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	4	animals	animal	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	131	5	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	131	6	derived	derive	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	7	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	8	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	131	9	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	131	10	medium	medium	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	11	subunit	subunit	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	12	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	131	13	drawn	draw	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	14	here	here	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	131	15	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	16	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	131	17	blue	blue	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	131	18	exclamation	exclamation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	19	point	point	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	20	–	–	:
work_gfjn7ngtojauhn7kaf6bbbsq74	131	21	shaped	shaped	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	131	22	component	component	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	131	23	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	131	24	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	132	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	132	2	shared	shared	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	132	3	quaternary	quaternary	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	4	structure	structure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	5	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	132	6	sequence	sequence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	7	conservation	conservation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	8	between	between	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	9	subunits	subunit	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	132	10	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	132	12	complex	complex	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	13	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	132	14	evidence	evidence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	15	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	16	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	132	17	being	be	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	132	18	derived	derive	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	19	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	20	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	132	21	ancient	ancient	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	132	22	common	common	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	132	23	ancestor	ancestor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	132	24	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	133	1	Recent	recent	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	133	2	analyses	analysis	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	133	3	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	133	4	begun	begin	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	133	5	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	133	6	resolve	resolve	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	133	7	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	133	8	interrelationships	interrelationship	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	133	9	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	133	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	133	11	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	133	12	inference	inference	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	133	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	133	14	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	133	15	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	133	16	order	order	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	133	17	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	133	18	emergence	emergence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	133	19	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	133	20	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	133	21	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	133	22	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	133	23	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	133	24	they	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	133	25	act	act	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	133	26	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	134	1	For	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	134	2	more	more	JJR
work_gfjn7ngtojauhn7kaf6bbbsq74	134	3	details	detail	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	134	4	see	see	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	134	5	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	134	6	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	134	7	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	134	8	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	135	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	135	2	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	135	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	135	4	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	136	1	4536	4536	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	136	2	|	|	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	136	3	E.	E.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	136	4	Richardson	Richardson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	136	5	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	136	6	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	136	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	137	1	Molecular	Molecular	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	137	2	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	137	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	137	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	137	5	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	137	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	137	7	Boehm	Boehm	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	137	8	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	137	9	Bonifacino	Bonifacino	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	137	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	137	11	2001	2001	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	137	12	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	137	13	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	138	1	However	however	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	138	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	138	3	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	138	4	fifth	fifth	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	138	5	AP	AP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	138	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	138	7	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	138	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	138	9	was	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	138	10	recently	recently	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	138	11	discovered	discover	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	138	12	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	139	1	Together	together	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	139	2	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	139	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	139	4	ancient	ancient	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	139	5	nature	nature	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	139	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	139	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	139	8	other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	139	9	four	four	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	139	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	139	11	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	139	12	indicates	indicate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	139	13	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	139	14	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	139	15	LECA	LECA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	139	16	contained	contain	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	139	17	at	at	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	139	18	least	least	JJS
work_gfjn7ngtojauhn7kaf6bbbsq74	139	19	five	five	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	139	20	AP	AP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	139	21	com-	com-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	139	22	plexes	plexe	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	139	23	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	139	24	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	139	25	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	139	26	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	139	27	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	139	28	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	139	29	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	139	30	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	139	31	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	140	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	140	2	twist	twist	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	3	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	140	4	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	140	6	human	human	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	140	7	genes	gene	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	140	8	encoding	encode	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	140	9	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	140	10	subunits	subunit	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	140	11	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	12	AP-5	ap-5	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	13	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	140	14	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	15	2C	2c	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	16	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	140	17	were	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	140	18	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	19	earlier	early	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	140	20	but	but	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	140	21	went	go	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	140	22	unstudied	unstudied	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	140	23	until	until	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	24	AP-5	ap-5	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	140	25	homologues	homologue	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	140	26	were	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	140	27	detected	detect	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	28	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	29	Naegleria	Naegleria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	140	30	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	140	31	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	140	32	discoban	discoban	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	33	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	140	34	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	35	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	140	36	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	140	37	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	38	distant	distant	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	140	39	relation	relation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	40	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	41	humans	human	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	140	42	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	140	43	was	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	140	44	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	45	interest	interest	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	46	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	47	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	140	48	key	key	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	140	49	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	140	50	sampling	sampling	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	51	point	point	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	140	52	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	141	1	This	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	141	2	hinted	hint	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	141	3	at	at	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	141	4	widespread	widespread	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	141	5	occurrence	occurrence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	141	6	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	141	7	presumptive	presumptive	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	141	8	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	141	9	importance	importance	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	141	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	141	11	prompting	prompt	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	141	12	functional	functional	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	141	13	investigation	investigation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	141	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	142	1	Characterization	characterization	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	142	2	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	142	3	HeLa	HeLa	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	142	4	cells	cell	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	142	5	showed	show	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	142	6	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	142	7	localized	localize	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	142	8	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	142	9	late	late	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	142	10	endosomes	endosome	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	142	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	142	12	lysosomes	lysosome	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	142	13	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	142	14	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	142	15	2C	2c	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	142	16	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	142	17	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	142	18	knockdown	knockdown	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	142	19	causing	cause	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	142	20	defects	defect	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	142	21	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	142	22	endosomal	endosomal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	142	23	traf-	traf-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	142	24	ficking	ficke	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	142	25	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	142	26	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	142	27	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	142	28	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	142	29	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	142	30	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	142	31	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	142	32	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	142	33	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	143	1	Abnormalities	abnormality	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	143	2	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	143	3	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	143	4	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	143	5	consequently	consequently	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	143	6	associated	associate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	143	7	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	143	8	human	human	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	143	9	disease	disease	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	143	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	143	11	such	such	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	143	12	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	143	13	hereditary	hereditary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	143	14	spastic	spastic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	143	15	para-	para-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	143	16	plegia	plegia	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	143	17	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	143	18	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	143	19	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	143	20	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	143	21	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	143	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	143	23	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	143	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	143	25	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	143	26	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	143	27	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	144	1	Further	further	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	144	2	taxonomic	taxonomic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	144	3	investigation	investigation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	4	also	also	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	144	5	detected	detect	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	144	6	AP-5	ap-5	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	7	components	component	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	144	8	beyond	beyond	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	9	humans	human	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	144	10	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	144	11	Naegleria	Naegleria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	144	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	144	13	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	14	diverse	diverse	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	144	15	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	144	16	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	144	17	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	18	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	144	19	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	144	20	including	include	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	144	21	Arabidopsis	Arabidopsis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	144	22	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	144	23	Viridiplan-	Viridiplan-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	144	24	tae	tae	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	144	25	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	144	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	144	27	Entamoeba	Entamoeba	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	144	28	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	144	29	amoebozoan	amoebozoan	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	144	30	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	144	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	144	32	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	144	33	Toxoplasma	Toxoplasma	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	144	34	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	144	35	apicomplexan	apicomplexan	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	144	36	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	144	37	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	144	38	suggesting	suggest	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	144	39	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	40	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	144	41	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	144	42	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	144	43	central	central	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	144	44	component	component	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	45	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	46	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	47	traf-	traf-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	48	ficking	ficke	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	144	49	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	144	50	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	144	51	cells	cell	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	144	52	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	145	1	Following	follow	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	145	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	145	3	discovery	discovery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	145	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	145	5	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	145	6	was	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	145	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	145	8	report	report	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	145	9	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	145	10	yet	yet	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	145	11	another	another	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	145	12	relative	relative	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	145	13	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	145	14	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	145	15	APs	ap	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	145	16	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	145	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	145	18	heterohexameric	heterohexameric	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	145	19	TSET	tset	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	145	20	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	145	21	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	145	22	2C	2c	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	145	23	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	145	24	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	146	1	Analyses	analysis	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	146	2	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	146	3	TSET	TSET	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	146	4	function	function	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	5	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	146	6	Arabidopsis	Arabidopsis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	7	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	146	8	Dictyostelium	Dictyostelium	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	9	showed	show	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	146	10	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	11	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	146	12	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	146	13	located	locate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	146	14	at	at	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	146	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	146	16	plasma	plasma	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	146	17	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	146	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	146	19	facilitating	facilitate	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	146	20	cargo	cargo	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	146	21	transport	transport	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	146	22	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	146	23	Gadeyne	Gadeyne	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	24	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	25	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	26	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	146	28	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	146	29	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	146	30	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	31	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	32	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	33	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	146	34	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	146	35	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	146	36	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	146	37	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	147	1	Similar	similar	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	147	2	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	147	3	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	147	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	147	5	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	147	6	was	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	147	7	detected	detect	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	147	8	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	147	9	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	147	10	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	147	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	147	12	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	147	13	thus	thus	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	147	14	ancient	ancient	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	147	15	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	147	16	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	147	17	contrast	contrast	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	147	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	147	19	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	147	20	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	147	21	not	not	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	147	22	as	as	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	147	23	well	well	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	147	24	retained	retain	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	147	25	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	147	26	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	147	27	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	147	28	animals	animal	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	147	29	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	147	30	fungi	fungi	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	147	31	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	147	32	Figure	Figure	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	147	33	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	147	34	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	147	35	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	148	1	Nevertheless	nevertheless	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	148	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	148	3	study	study	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	148	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	148	5	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	148	6	revealed	reveal	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	148	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	148	8	origins	origin	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	148	9	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	148	10	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	148	11	human	human	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	148	12	FCHO	FCHO	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	148	13	protein	protein	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	148	14	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	148	15	Gadeyne	Gadeyne	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	148	16	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	148	17	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	148	18	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	148	19	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	148	20	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	148	21	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	148	22	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	148	23	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	148	24	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	148	25	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	148	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	148	27	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	148	28	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	148	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	148	30	which	which	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	148	31	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	148	32	important	important	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	148	33	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	148	34	endocytosis	endocytosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	148	35	regulation	regulation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	148	36	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	149	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	149	2	monomeric	monomeric	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	149	3	FCHO	FCHO	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	149	4	ap-	ap-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	5	pears	pear	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	149	6	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	149	7	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	149	8	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	149	9	remnant	remnant	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	10	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	149	12	once	once	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	149	13	full	full	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	149	14	TSET	TSET	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	149	15	complex	complex	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	16	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	149	17	essentially	essentially	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	149	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	149	19	FCHO	FCHO	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	149	20	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	149	21	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	149	22	vestigial	vestigial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	149	23	C	c	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	24	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	149	25	terminus	terminus	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	26	domain	domain	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	27	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	28	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	149	29	TCUP	TCUP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	149	30	subunit	subunit	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	149	32	fused	fuse	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	33	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	34	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	149	35	associated	associate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	36	F	F	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	149	37	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	149	38	BAR	BAR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	149	39	domain	domain	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	40	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	41	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	149	42	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	43	animal	animal	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	44	cells	cell	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	149	45	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	149	46	had	have	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	149	47	earlier	early	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	149	48	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	49	discovered	discover	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	50	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	149	51	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	149	52	involved	involve	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	53	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	54	clathrin	clathrin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	55	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	149	56	mediated	mediate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	57	endocytosis	endocytosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	58	at	at	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	59	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	149	60	plasma	plasma	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	61	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	149	62	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	149	63	McMahon	McMahon	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	149	64	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	149	65	Boucrot	Boucrot	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	149	66	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	149	67	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	149	68	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	149	69	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	150	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	150	2	search	search	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	3	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	4	distant	distant	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	150	5	homologues	homologue	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	150	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	7	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	8	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	9	-	-	:
work_gfjn7ngtojauhn7kaf6bbbsq74	150	10	traffick-	traffick-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	11	ing	ing	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	150	12	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	13	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	150	14	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	150	15	found	find	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	16	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	150	18	span	span	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	19	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	20	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	150	21	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	22	did	do	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	150	23	more	more	JJR
work_gfjn7ngtojauhn7kaf6bbbsq74	150	24	than	than	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	150	25	identify	identify	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	150	26	ancient	ancient	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	150	27	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	150	28	components	component	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	150	29	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	151	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	151	2	broad	broad	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	151	3	evo-	evo-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	4	lutionary	lutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	151	5	distribution	distribution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	7	AP-5	ap-5	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	8	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	151	9	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	151	10	components	component	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	151	11	implied	imply	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	151	12	some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	151	13	conserved	conserve	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	14	essential	essential	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	151	15	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	16	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	151	17	brought	bring	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	151	18	candidate	candidate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	19	genes	gene	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	151	20	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	21	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	151	22	fore	fore	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	151	24	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	25	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	151	26	existence	existence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	27	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	28	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	151	29	having	have	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	151	30	since	since	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	31	proven	prove	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	151	32	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	151	33	have	have	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	151	34	powerful	powerful	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	151	35	implications	implication	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	151	36	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	152	1	Other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	152	2	such	such	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	152	3	genes	gene	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	152	4	exist	exist	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	152	5	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	152	6	await	await	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	152	7	functional	functional	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	152	8	characterization	characterization	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	152	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	152	10	hopefully	hopefully	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	152	11	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	152	12	benefits	benefit	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	152	13	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	152	14	agriculture	agriculture	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	152	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	152	16	ecology	ecology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	152	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	152	18	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	152	19	human	human	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	152	20	health	health	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	152	21	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	152	22	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	152	23	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	152	24	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	152	25	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	152	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	152	27	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	152	28	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	152	29	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	153	1	CONCLUSIONS	CONCLUSIONS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	153	2	Evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	153	3	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	4	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	5	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	153	6	provided	provide	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	7	unique	unique	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	153	8	insights	insight	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	153	9	into	into	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	10	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	153	11	core	core	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	153	12	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	13	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	14	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	153	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	153	16	how	how	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	153	17	history	history	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	18	explains	explain	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	153	19	physiology	physiology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	20	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	21	plas-	plas-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	22	tids	tid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	153	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	153	24	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	153	25	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	153	26	identity	identity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	27	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	28	novel	novel	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	153	29	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	30	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	153	31	trafficking	traffic	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	153	32	complexes	complex	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	153	33	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	153	34	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	153	35	relevant	relevant	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	153	36	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	37	human	human	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	153	38	health	health	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	153	39	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	154	1	Key	key	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	154	2	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	154	3	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	154	4	findings	finding	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	154	5	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	154	6	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	154	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	154	8	complementary	complementary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	154	9	use	use	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	154	10	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	154	11	genomic	genomic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	154	12	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	154	13	informatic	informatic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	154	14	analyses	analysis	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	154	15	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	154	16	molecular	molecular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	154	17	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	154	18	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	154	19	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	154	20	microscopic	microscopic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	154	21	data	datum	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	154	22	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	155	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	155	2	emergence	emergence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	155	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	155	4	model	model	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	155	5	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	155	6	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	155	7	outside	outside	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	155	8	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	155	9	animals	animal	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	155	10	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	155	11	fungi	fungi	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	155	12	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	155	13	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	155	14	in-	in-	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	155	15	valuable	valuable	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	155	16	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	155	17	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	155	18	regard	regard	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	155	19	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	156	1	Dictyostelium	Dictyostelium	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	2	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	156	3	http://dictybase.org	http://dictybase.org	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	4	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	156	5	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	156	6	Arabidopsis	Arabidopsis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	7	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	156	8	www.arabidopsis.org	www.arabidopsis.org	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	9	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	156	10	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	11	particularly	particularly	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	156	12	well	well	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	156	13	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	156	14	developed	develop	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	15	systems	system	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	156	16	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	156	17	although	although	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	18	not	not	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	156	19	mentioned	mention	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	20	explicitly	explicitly	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	156	21	here	here	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	156	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	156	23	work	work	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	24	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	25	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	156	26	api-	api-	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	156	27	complexan	complexan	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	156	28	Toxoplasma	Toxoplasma	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	29	gondii	gondii	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	156	30	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	156	31	Kim	Kim	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	32	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	156	33	Weiss	Weiss	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	34	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	156	35	2004	2004	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	156	36	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	156	37	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	156	38	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	156	39	exca-	exca-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	40	vate	vate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	41	Trypanosoma	Trypanosoma	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	42	brucei	brucei	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	43	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	156	44	Barry	Barry	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	45	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	46	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	47	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	156	48	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	156	49	2007	2007	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	156	50	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	156	51	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	156	52	greatly	greatly	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	156	53	contributed	contribute	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	54	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	55	comparative	comparative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	156	56	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	57	biological	biological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	156	58	understanding	understanding	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	156	59	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	157	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	157	2	development	development	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	157	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	157	4	further	further	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	157	5	genetic	genetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	157	6	databases	database	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	157	7	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	157	8	tools	tool	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	157	9	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	157	10	manipulating	manipulate	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	157	11	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	157	12	organ-	organ-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	157	13	isms	ism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	157	14	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	157	15	others	other	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	157	16	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	157	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	157	18	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	157	19	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	157	20	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	157	21	will	will	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	157	22	provide	provide	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	157	23	ex-	ex-	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	157	24	perimental	perimental	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	157	25	data	datum	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	157	26	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	157	27	contextualize	contextualize	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	157	28	fundamental	fundamental	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	157	29	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	157	30	traits	trait	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	157	31	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	157	32	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	157	33	between	between	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	157	34	different	different	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	157	35	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	157	36	chromalveolate	chromalveolate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	157	37	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	157	38	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	157	39	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	158	1	These	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	158	2	studies	study	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	158	3	sug-	sug-	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	158	4	gest	gest	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	158	5	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	6	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	158	7	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	8	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	9	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	158	10	red	red	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	158	11	alga	alga	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	158	12	initially	initially	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	158	13	occurred	occur	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	158	14	within	within	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	158	16	cryptophyte	cryptophyte	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	158	17	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	18	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	158	19	that	that	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	20	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	158	21	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	22	was	be	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	158	23	then	then	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	158	24	acquired	acquire	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	25	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	26	other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	158	27	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	158	28	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	158	29	such	such	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	158	30	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	31	dinoflagellates	dinoflagellate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	158	32	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	158	33	haptophytes	haptophyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	158	34	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	158	35	stramenopiles	stramenopile	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	158	36	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	158	37	through	through	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	38	higher	high	JJR
work_gfjn7ngtojauhn7kaf6bbbsq74	158	39	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	158	40	order	order	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	158	41	endosymbioses	endosymbiose	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	158	42	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	158	43	tertiary	tertiary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	158	44	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	158	45	quaternary	quaternary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	158	46	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	158	47	see	see	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	158	48	Figure	Figure	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	158	49	2Biii	2Biii	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	158	50	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	158	51	Stiller	Stiller	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	158	52	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	158	53	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	158	54	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	158	55	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	158	56	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	158	57	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	158	58	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	159	1	There	there	EX
work_gfjn7ngtojauhn7kaf6bbbsq74	159	2	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	159	3	even	even	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	159	4	more	more	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	159	5	complex	complex	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	159	6	endo-	endo-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	159	7	symbiotic	symbiotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	159	8	events	event	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	159	9	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	159	10	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	160	1	Some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	160	2	dinoflagellates	dinoflagellate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	160	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	160	4	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	5	example	example	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	160	7	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	160	8	lost	lose	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	9	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	160	10	original	original	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	160	11	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	160	12	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	160	13	presumably	presumably	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	160	14	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	15	red	red	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	160	16	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	17	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	160	18	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	160	19	replaced	replace	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	160	20	them	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	160	21	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	22	ones	one	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	160	23	derived	derive	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	24	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	25	other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	160	26	photosynthetic	photosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	160	27	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	28	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	160	29	hapto-	hapto-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	160	30	phytes	phyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	160	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	160	32	stramenopiles	stramenopile	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	160	33	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	160	34	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	160	35	green	green	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	160	36	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	37	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	160	38	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	39	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	160	40	process	process	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	41	termed	term	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	42	“	"	``
work_gfjn7ngtojauhn7kaf6bbbsq74	160	43	serial	serial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	160	44	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	45	”	"	''
work_gfjn7ngtojauhn7kaf6bbbsq74	160	46	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	160	47	Burki	Burki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	160	48	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	160	49	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	160	50	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	160	51	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	160	52	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	160	53	;	;	:
work_gfjn7ngtojauhn7kaf6bbbsq74	160	54	Figure	figure	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	160	55	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	160	56	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	160	57	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	161	1	Regardless	regardless	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	161	2	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	161	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	161	4	emerg-	emerg-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	161	5	ing	ing	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	161	6	story	story	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	161	7	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	161	8	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	161	9	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	161	10	other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	161	11	studies	study	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	161	12	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	161	13	that	that	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	161	14	plastid	plastid	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	161	15	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	161	16	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	161	17	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	161	18	much	much	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	161	19	more	more	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	161	20	widespread	widespread	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	161	21	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	161	22	complex	complex	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	161	23	process	process	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	161	24	than	than	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	161	25	previously	previously	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	161	26	thought	think	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	161	27	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	162	1	Resolving	resolve	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	162	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	162	3	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	162	4	histories	history	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	162	5	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	6	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	162	7	informs	inform	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	162	8	our	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	162	9	mechanistic	mechanistic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	162	10	understanding	understanding	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	11	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	12	algal	algal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	162	13	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	14	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	162	16	since	since	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	17	each	each	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	162	18	time	time	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	19	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	162	20	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	21	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	162	22	acquired	acquire	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	23	through	through	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	24	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	25	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	162	26	both	both	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	162	27	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	162	28	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	29	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	30	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	162	31	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	32	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	162	33	host	host	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	162	34	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	162	35	change	change	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	162	36	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	162	37	accommodate	accommodate	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	162	38	one	one	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	162	39	another	another	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	162	40	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	163	1	Pro-	pro-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	2	teins	tein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	163	3	derived	derive	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	4	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	163	6	host	host	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	7	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	163	8	likely	likely	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	163	9	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	163	10	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	163	11	retargeted	retargete	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	12	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	13	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	163	14	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	163	16	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	163	17	genes	gene	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	163	18	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	19	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	163	20	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	21	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	163	22	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	23	turn	turn	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	24	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	163	25	adapted	adapt	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	26	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	163	27	support	support	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	163	28	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	163	29	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	30	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	31	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	163	32	host	host	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	163	33	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	164	1	Lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	164	2	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	164	3	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	164	4	undergone	undergo	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	164	5	complex	complex	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	164	6	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	164	7	serial	serial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	164	8	endosymbiotic	endosymbiotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	164	9	events	event	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	164	10	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	164	11	therefore	therefore	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	164	12	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	164	13	supported	support	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	164	14	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	164	15	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	164	16	mo-	mo-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	164	17	saic	saic	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	164	18	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	164	19	different	different	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	164	20	biochemical	biochemical	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	164	21	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	164	22	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	164	23	different	different	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	164	24	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	164	25	sources	source	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	164	26	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	165	1	For	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	2	example	example	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	165	4	some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	165	5	dinoflagellates	dinoflagellate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	165	6	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	165	7	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	165	8	undergone	undergo	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	9	serial	serial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	165	10	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	11	retain	retain	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	165	12	unusual	unusual	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	165	13	gene	gene	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	14	expression	expression	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	15	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	165	16	as-	as-	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	165	17	sociated	sociate	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	165	18	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	19	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	165	20	original	original	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	165	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	165	22	red	red	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	165	23	algal	algal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	165	24	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	165	25	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	165	26	RNA	RNA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	165	27	editing	editing	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	28	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	165	29	3′	3′	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	165	30	tail	tail	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	31	addition	addition	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	32	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	165	33	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	165	34	now	now	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	165	35	use	use	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	165	36	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	165	37	pathways	pathway	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	165	38	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	39	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	165	40	replacement	replacement	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	165	41	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	165	42	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	165	43	Dorrell	Dorrell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	165	44	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	165	45	Howe	Howe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	165	46	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	165	47	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	165	48	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	165	49	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	166	1	While	while	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	2	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	166	3	diverse	diverse	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	166	4	algal	algal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	166	5	lineages	lineage	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	166	6	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	166	7	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	166	8	unfamiliar	unfamiliar	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	166	9	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	10	many	many	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	166	11	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	12	biologists	biologist	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	166	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	166	14	they	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	166	15	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	166	16	well	well	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	166	17	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	166	18	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	19	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	20	oceanog-	oceanog-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	166	21	raphers	rapher	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	166	22	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	166	23	public	public	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	166	24	health	health	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	25	officials	official	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	166	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	166	27	accounting	account	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	166	28	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	29	half	half	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	30	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	31	primary	primary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	166	32	carbon	carbon	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	33	fixation	fixation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	34	worldwide	worldwide	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	166	35	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	166	36	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	166	37	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	166	38	some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	166	39	cases	case	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	166	40	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	166	41	producing	produce	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	166	42	harmful	harmful	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	166	43	algal	algal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	166	44	blooms	bloom	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	166	45	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	166	46	Place	Place	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	166	47	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	166	48	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	166	49	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	166	50	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	166	51	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	166	52	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	166	53	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	167	1	As	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	2	climate	climate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	3	change	change	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	4	modifies	modify	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	167	5	our	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	167	6	oceans	ocean	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	167	7	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	167	8	skies	sky	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	167	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	167	10	understanding	understand	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	167	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	167	12	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	13	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	14	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	15	these	these	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	167	16	chimeric	chimeric	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	167	17	organisms	organism	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	167	18	forged	forge	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	19	through	through	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	20	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	21	will	will	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	167	22	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	167	23	essential	essential	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	167	24	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	25	main-	main-	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	167	26	taining	taine	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	167	27	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	167	28	healthy	healthy	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	167	29	global	global	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	167	30	environment	environment	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	167	31	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	168	1	UNEXPECTED	unexpected	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	168	2	MEMBRANE	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	3	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	168	4	TRAFFICKING	trafficking	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	5	MACHINERY	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	6	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	168	7	SOMETHING	something	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	8	OLD	old	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	168	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	168	10	SOMETHING	something	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	11	NEW	new	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	168	12	Although	although	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	13	understanding	understanding	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	14	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	15	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	168	16	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	17	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	168	18	key	key	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	168	19	success	success	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	20	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	21	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	168	22	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	23	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	24	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	25	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	168	26	past	past	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	168	27	40	40	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	168	28	+	+	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	168	29	years	year	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	168	30	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	168	31	some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	168	32	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	168	33	must	must	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	168	34	have	have	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	168	35	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	36	derived	derive	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	37	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	38	building	build	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	168	39	blocks	block	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	168	40	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	41	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	168	42	proto	proto	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	168	43	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	168	44	eukary-	eukary-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	168	45	otes	ote	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	168	46	themselves	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	168	47	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	168	48	Dacks	Dacks	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	168	49	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	168	50	Field	Field	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	168	51	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	168	52	2007	2007	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	168	53	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	168	54	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	169	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	169	2	best	good	JJS
work_gfjn7ngtojauhn7kaf6bbbsq74	169	3	candidates	candidate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	169	4	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	169	5	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	169	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	169	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	169	8	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	169	9	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	169	10	trafficking	traffic	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	169	11	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	169	12	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	170	1	Consisting	consist	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	170	2	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	3	mem-	mem-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	170	4	brane	brane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	5	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	170	6	bound	bind	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	7	components	component	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	170	8	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	170	9	include	include	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	170	10	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	170	11	endoplasmic	endoplasmic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	170	12	reticulum	reticulum	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	170	14	Golgi	Golgi	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	170	15	complex	complex	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	16	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	170	17	lysosomes	lysosome	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	170	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	170	19	endosomes	endosome	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	170	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	170	21	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	170	22	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	170	23	plasma	plasma	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	170	24	mem-	mem-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	170	25	brane	brane	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	170	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	170	27	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	170	28	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	29	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	170	30	trafficking	traffic	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	170	31	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	32	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	170	33	responsible	responsible	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	170	34	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	35	sub-	sub-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	170	36	stance	stance	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	37	intake	intake	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	38	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	170	39	transport	transport	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	40	within	within	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	41	cells	cell	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	170	42	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	170	43	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	170	44	secretion	secretion	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	45	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	170	46	them	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	170	47	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	171	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	171	2	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	3	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	171	4	critical	critical	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	171	5	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	6	normal	normal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	171	7	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	171	8	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	171	10	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	171	11	its	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	171	12	malfunction	malfunction	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	13	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	14	humans	human	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	171	15	can	can	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	171	16	manifest	manifest	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	171	17	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	18	diseases	disease	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	171	19	such	such	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	171	20	as	as	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	21	cancer	cancer	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	22	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	171	23	cardiac	cardiac	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	24	dis-	dis-	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	25	ease	ease	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	171	26	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	171	27	Aridor	Aridor	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	171	28	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	171	29	Hannan	Hannan	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	171	30	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	171	31	2000	2000	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	171	32	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	171	33	2002	2002	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	171	34	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	171	35	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	172	1	Evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	172	2	analysis	analysis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	172	5	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	6	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	172	7	trafficking	traffic	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	172	8	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	9	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	172	10	revealed	reveal	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	172	12	proteins	protein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	172	13	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	14	mem-	mem-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	172	15	brane	brane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	16	trafficking	trafficking	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	17	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	172	18	e.g.	e.g.	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	172	19	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	172	20	SNAREs	SNAREs	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	172	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	172	22	Rabs	Rabs	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	172	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	172	24	coatomers	coatomer	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	172	25	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	172	26	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	172	27	adaptor	adaptor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	28	pro-	pro-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	29	teins	tein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	172	30	[	[	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	172	31	APs	ap	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	172	32	]	]	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	172	33	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	172	34	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	172	35	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	172	36	conserved	conserve	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	37	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	172	38	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	172	39	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	172	40	Koumandou	Koumandou	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	172	41	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	172	42	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	172	43	.	.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	172	44	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	172	45	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	172	46	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	172	47	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	173	1	This	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	173	2	suggested	suggest	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	173	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	173	4	presence	presence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	173	5	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	173	6	sophisticated	sophisticated	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	173	7	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	173	8	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	173	9	LECA	LECA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	173	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	173	11	prompting	prompt	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	173	12	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	173	13	proposed	propose	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	173	14	mechanism	mechanism	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	173	15	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	173	16	how	how	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	173	17	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	173	18	might	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	173	19	evolve	evolve	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	173	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	173	21	if	if	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	173	22	not	not	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	173	23	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	173	24	endosymbiosis	endosymbiosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	173	25	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	173	26	Dacks	Dacks	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	173	27	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	173	28	Field	Field	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	173	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	173	30	2007	2007	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	173	31	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	173	32	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	174	1	This	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	174	2	ap-	ap-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	174	3	proach	proach	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	4	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	5	exploring	explore	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	174	6	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	7	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	8	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	174	9	sake	sake	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	10	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	11	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	174	12	under-	under-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	174	13	standing	standing	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	14	has	have	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	174	15	also	also	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	174	16	yielded	yield	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	17	some	some	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	174	18	surprises	surprise	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	174	19	about	about	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	20	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	21	traffick-	traffick-	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	174	22	ing	e	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	174	23	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	174	24	modern	modern	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	174	25	cells	cell	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	174	26	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	175	1	Four	four	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	175	2	heterotetrameric	heterotetrameric	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	175	3	AP	AP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	175	4	complexes	complex	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	175	5	have	have	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	175	6	been	be	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	7	known	know	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	8	since	since	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	9	2001	2001	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	175	10	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	175	11	recruit	recruit	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	175	12	specific	specific	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	175	13	cargoes	cargo	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	175	14	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	15	their	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	175	16	corresponding	corresponding	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	175	18	newly	newly	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	175	19	form-	form-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	175	20	ing	ing	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	175	22	vesicles	vesicle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	175	23	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	24	transport	transport	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	25	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	26	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	175	27	post	post	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	175	28	-	-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	175	29	Golgi	golgi	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	175	30	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	175	31	endocytic	endocytic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	175	32	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	33	Volume	volume	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	34	26	26	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	175	35	December	December	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	175	36	15	15	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	175	37	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	175	38	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	175	39	Evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	175	40	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	41	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	42	|	|	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	175	43	4537	4537	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	175	44	find	find	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	175	45	new	new	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	175	46	features	feature	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	175	47	lost	lose	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	48	or	or	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	175	49	ignored	ignore	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	50	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	51	our	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	175	52	more	more	RBR
work_gfjn7ngtojauhn7kaf6bbbsq74	175	53	traditional	traditional	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	175	54	model	model	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	55	sys-	sys-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	56	tems	tem	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	175	57	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	175	58	animals	animal	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	175	59	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	175	60	fungi	fungus	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	175	61	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	176	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	176	2	discoveries	discovery	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	176	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	176	4	new	new	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	176	5	organellar	organellar	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	176	6	evolu-	evolu-	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	176	7	tion	tion	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	176	8	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	176	9	function	function	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	176	10	gives	give	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	176	11	us	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	176	12	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	176	13	taste	taste	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	176	14	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	176	15	what	what	WP
work_gfjn7ngtojauhn7kaf6bbbsq74	176	16	may	may	MD
work_gfjn7ngtojauhn7kaf6bbbsq74	176	17	be	be	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	176	18	left	leave	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	176	19	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	176	20	uncover	uncover	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	176	21	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	176	22	embracing	embrace	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	176	23	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	176	24	exploring	explore	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	176	25	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	176	26	genomic	genomic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	176	27	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	176	28	cellular	cellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	176	29	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	176	30	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	177	1	ACKNOWLEDGMENTS	acknowledgment	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	177	2	We	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	177	3	thank	thank	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	177	4	H.	H.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	177	5	Goodson	Goodson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	177	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	177	7	T.	T.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	177	8	Simmen	Simmen	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	177	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	177	10	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	177	11	J.	J.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	177	12	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	177	13	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	177	14	critical	critical	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	177	15	reading	reading	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	177	16	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	177	17	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	177	18	manuscript	manuscript	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	177	19	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	178	1	A.T.	A.T.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	178	2	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	178	3	supported	support	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	178	4	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	178	5	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	178	6	Biotechonology	Biotechonology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	178	7	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	178	8	Biologi-	Biologi-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	178	9	cal	cal	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	178	10	Sciences	Sciences	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	178	11	Reserach	Reserach	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	178	12	Council	Council	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	178	13	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	178	14	BBSRC	BBSRC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	178	15	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	178	16	Research	Research	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	178	17	grant	grant	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	178	18	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	178	19	BB/	BB/	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	178	20	M009971/1	m009971/1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	178	21	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	179	1	R.G.D.	R.G.D.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	180	1	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	180	2	supported	support	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	180	3	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	180	4	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	180	5	postdoctoral	postdoctoral	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	180	6	research	research	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	180	7	fellow-	fellow-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	180	8	ship	ship	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	180	9	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	180	10	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	180	11	Mairie	Mairie	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	180	12	de	de	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	180	13	Paris	Paris	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	180	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	181	1	E.R.	E.R.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	182	1	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	182	2	supported	support	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	182	3	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	182	4	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	182	5	Graduate	Graduate	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	182	6	Re-	Re-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	182	7	cruitment	cruitment	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	182	8	Scholarship	scholarship	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	182	9	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	182	10	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	182	11	University	University	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	182	12	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	182	13	Alberta	Alberta	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	182	14	Faculty	Faculty	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	182	15	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	182	16	Med-	Med-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	182	17	icine	icine	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	182	18	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	182	19	Dentistry	Dentistry	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	182	20	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	182	21	funds	fund	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	182	22	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	182	23	J.B.D.	J.B.D.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	183	1	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	183	2	Alberta	Alberta	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	183	3	Innovates	Innovates	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	183	4	Technology	Technology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	183	5	Futures	Futures	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	183	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	184	1	K.Z.	K.Z.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	185	1	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	185	2	supported	support	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	185	3	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	185	4	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	185	5	summer	summer	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	185	6	studentship	studentship	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	185	7	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	185	8	Alberta	Alberta	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	185	9	Innovates	Innovates	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	185	10	Health	Health	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	185	11	Solutions	Solutions	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	185	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	185	13	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	185	14	J.B.D.	J.B.D.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	186	1	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	186	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	186	3	Canada	Canada	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	186	4	Re-	Re-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	186	5	search	search	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	186	6	Chair	Chair	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	186	7	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	186	8	Evolutionary	Evolutionary	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	186	9	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	186	10	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	186	11	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	187	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	187	2	quotation	quotation	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	187	3	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	187	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	187	5	title	title	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	187	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	187	7	this	this	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	187	8	Perspective	Perspective	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	187	9	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	187	10	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	187	11	Charles	Charles	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	187	12	Darwin	Darwin	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	187	13	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	187	14	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	187	15	Origin	Origin	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	187	16	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	187	17	Species	Species	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	187	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	187	19	1859	1859	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	187	20	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	187	21	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	188	1	REFERENCES	REFERENCES	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	2	Adl	Adl	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	3	SM	SM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	188	5	Simpson	Simpson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	6	AGB	AGB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	188	8	Lane	Lane	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	9	CE	CE	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	188	11	Lukeš	Lukeš	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	12	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	188	14	Bass	Bass	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	15	D	D	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	16	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	188	17	Bowser	Bowser	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	18	SS	SS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	19	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	188	20	Brown	Brown	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	21	MW	MW	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	188	23	Burki	Burki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	24	F	F	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	25	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	188	26	Dunthorn	Dunthorn	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	27	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	28	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	188	29	Hampl	Hampl	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	30	V	V	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	31	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	188	32	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	33	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	188	34	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	189	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	189	2	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	189	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	189	4	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	190	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	190	2	revised	revised	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	190	3	classification	classification	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	190	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	190	5	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	190	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	191	1	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	191	2	Eukaryot	Eukaryot	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	191	3	Microbiol	Microbiol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	191	4	59	59	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	191	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	191	6	429–493	429–493	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	191	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	192	1	Aridor	Aridor	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	192	2	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	192	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	192	4	Hannan	Hannan	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	192	5	LA	LA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	192	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	192	7	2000	2000	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	192	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	192	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	193	1	Traffic	traffic	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	193	2	jam	jam	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	193	3	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	193	4	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	193	5	compendium	compendium	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	193	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	193	7	human	human	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	193	8	diseases	disease	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	193	9	that	that	WDT
work_gfjn7ngtojauhn7kaf6bbbsq74	193	10	affect	affect	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	193	11	intracellular	intracellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	193	12	transport	transport	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	193	13	processes	process	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	193	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	194	1	Traffic	traffic	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	194	2	1	1	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	194	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	194	4	836–851	836–851	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	194	5	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	195	1	Aridor	Aridor	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	195	2	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	195	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	195	4	Hannan	Hannan	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	195	5	LA	LA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	195	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	195	7	2002	2002	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	195	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	195	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	196	1	Traffic	traffic	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	196	2	jams	jam	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	196	3	II	II	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	196	4	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	196	5	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	196	6	update	update	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	196	7	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	196	8	diseases	disease	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	196	9	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	196	10	intracellular	intracellular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	196	11	transport	transport	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	196	12	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	197	1	Traffic	traffic	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	197	2	3	3	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	197	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	197	4	781–790	781–790	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	197	5	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	198	1	Bachvaroff	Bachvaroff	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	2	TR	TR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	198	4	Gornik	Gornik	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	5	SG	SG	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	198	7	Concepcion	Concepcion	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	8	GT	GT	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	198	10	Waller	Waller	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	11	RF	RF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	198	13	Mendez	Mendez	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	14	GS	GS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	198	16	Lippmeier	Lippmeier	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	17	JC	JC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	198	19	Delwiche	Delwiche	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	20	CF	CF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	198	21	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	198	22	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	198	23	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	198	24	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	199	1	Dinoflagellate	Dinoflagellate	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	199	2	phylogeny	phylogeny	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	199	3	revisited	revisit	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	199	4	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	199	5	using	use	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	199	6	ribosomal	ribosomal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	199	7	proteins	protein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	199	8	to	to	TO
work_gfjn7ngtojauhn7kaf6bbbsq74	199	9	resolve	resolve	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	199	10	deep	deep	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	199	11	branching	branching	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	199	12	dinoflagellate	dinoflagellate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	199	13	clades	clade	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	199	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	200	1	Mol	Mol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	200	2	Phylogenet	Phylogenet	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	200	3	Evol	Evol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	200	4	70	70	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	200	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	200	6	314–322	314–322	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	200	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	201	1	Barry	Barry	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	201	2	JD	JD	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	201	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	201	4	McCulloch	McCulloch	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	201	5	LJ	LJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	201	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	201	7	Mottram	Mottram	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	201	8	JC	JC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	201	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	201	10	Acosta	Acosta	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	201	11	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	201	12	Serrano	Serrano	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	201	13	A	a	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	201	14	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	201	15	2007	2007	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	201	16	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	201	17	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	202	1	Trypano-	Trypano-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	202	2	somes	some	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	202	3	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	202	4	After	after	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	202	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	202	6	Genome	Genome	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	202	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	202	8	Wymondham	Wymondham	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	202	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	202	10	UK	UK	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	202	11	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	202	12	Horizon	Horizon	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	202	13	Bioscience	Bioscience	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	202	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	203	1	Baurain	Baurain	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	2	D	D	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	203	4	Brinkmann	Brinkmann	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	5	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	203	7	Petersen	Petersen	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	8	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	203	10	Rodríguez	Rodríguez	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	11	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	203	12	Ezpeleta	Ezpeleta	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	13	N	N	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	203	15	Stechmann	Stechmann	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	16	A	A	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	203	18	Demoulin	Demoulin	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	19	V	V	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	203	21	Roger	Roger	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	22	AJ	AJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	203	24	Burger	Burger	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	25	G	G	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	203	27	Lang	Lang	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	28	BF	BF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	203	30	Philippe	Philippe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	31	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	203	32	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	203	33	2010	2010	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	203	34	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	203	35	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	204	1	Phylogenomic	phylogenomic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	204	2	evidence	evidence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	204	3	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	204	4	separate	separate	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	204	5	acquisition	acquisition	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	204	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	204	7	plastids	plastid	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	204	8	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	204	9	cryptophytes	cryptophyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	204	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	204	11	haptophytes	haptophyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	204	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	204	13	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	204	14	stramenopiles	stramenopile	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	204	15	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	205	1	Mol	Mol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	205	2	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	205	3	Evol	Evol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	205	4	27	27	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	205	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	205	6	1698–1709	1698–1709	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	205	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	206	1	Boehm	Boehm	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	206	2	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	206	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	206	4	Bonifacino	Bonifacino	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	206	5	JS	JS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	206	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	206	7	2001	2001	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	206	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	206	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	207	1	Adaptins	adaptin	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	207	2	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	207	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	207	4	final	final	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	207	5	recount	recount	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	207	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	208	1	Mol	Mol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	208	2	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	208	3	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	208	4	12	12	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	208	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	208	6	2907–2920	2907–2920	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	208	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	209	1	Brodsky	Brodsky	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	209	2	FM	FM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	209	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	209	4	Thattai	Thattai	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	209	5	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	209	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	209	7	Mayor	Mayor	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	209	8	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	209	9	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	209	10	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	209	11	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	209	12	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	210	1	Evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	210	2	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	210	3	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	210	4	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	210	5	lessons	lesson	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	210	6	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	210	7	diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	210	8	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	211	1	Nat	Nat	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	211	2	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	211	3	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	211	4	14	14	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	211	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	211	6	651–651	651–651	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	211	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	212	1	Brown	Brown	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	2	MW	MW	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	212	4	Sharpe	Sharpe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	5	SC	SC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	212	7	Silberman	Silberman	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	8	JD	JD	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	212	10	Heiss	Heiss	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	11	AA	AA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	212	13	Lang	Lang	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	14	BF	BF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	212	16	Simpson	Simpson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	17	AGB	AGB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	212	19	Roger	Roger	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	20	AJ	AJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	212	21	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	212	22	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	212	23	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	212	24	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	213	1	Phylogenomics	phylogenomic	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	213	2	demonstrates	demonstrate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	213	3	that	that	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	213	4	breviate	breviate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	213	5	flagel-	flagel-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	213	6	lates	lates	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	213	7	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	213	8	related	relate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	213	9	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	213	10	opisthokonts	opisthokont	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	213	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	213	12	apusomonads	apusomonad	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	213	13	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	214	1	Proc	Proc	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	214	2	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	214	3	Sci	Sci	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	214	4	280	280	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	214	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	214	6	20131755	20131755	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	214	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	215	1	Burki	Burki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	2	F	F	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	215	4	Imanian	Imanian	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	5	B	B	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	215	7	Hehenberger	Hehenberger	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	8	E	E	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	215	10	Hirakawa	Hirakawa	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	11	Y	Y	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	215	13	Maruyama	Maruyama	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	14	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	215	16	Keeling	Keeling	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	17	PJ	PJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	215	18	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	215	19	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	215	20	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	215	21	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	216	1	Endosymbiotic	endosymbiotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	216	2	gene	gene	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	216	3	transfer	transfer	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	216	4	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	216	5	tertiary	tertiary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	216	6	plastid	plastid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	216	7	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	216	8	containing	contain	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	216	9	dinoflagellates	dinoflagellate	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	216	10	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	217	1	Eukaryotic	Eukaryotic	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	217	2	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	217	3	13	13	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	217	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	217	5	246–255	246–255	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	217	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	218	1	Burki	Burki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	218	2	F	F	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	218	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	218	4	Okamoto	Okamoto	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	218	5	N	N	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	218	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	218	7	Pombert	Pombert	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	218	8	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	218	9	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	218	10	F	F	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	218	11	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	218	12	Keeling	Keeling	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	218	13	PJ	PJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	218	14	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	218	15	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	218	16	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	218	17	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	219	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	219	2	evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	219	3	history	history	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	219	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	219	5	haptophytes	haptophyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	219	6	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	219	7	cryptophytes	cryptophyte	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	219	8	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	219	9	phylogenomic	phylogenomic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	219	10	evidence	evidence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	219	11	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	219	12	separate	separate	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	219	13	origins	origin	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	219	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	220	1	Proc	Proc	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	220	2	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	220	3	Soc	Soc	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	220	4	B	B	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	220	5	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	220	6	Sci	Sci	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	220	7	279	279	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	220	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	220	9	2246–2254	2246–2254	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	220	10	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	221	1	Burki	Burki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	2	F	F	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	221	4	Shalchian	Shalchian	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	5	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	221	6	Tabrizi	Tabrizi	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	7	K	K	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	221	9	Minge	Minge	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	10	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	11	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	221	12	Skjæveland	Skjæveland	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	13	Å	Å	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	221	15	Nikolaev	Nikolaev	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	16	SI	SI	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	221	18	Jakobsen	Jakobsen	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	19	KS	KS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	221	21	Pawlowski	Pawlowski	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	22	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	221	23	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	221	24	2007	2007	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	221	25	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	221	26	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	222	1	Phylogenomics	phylogenomic	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	222	2	reshuffles	reshuffle	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	222	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	222	4	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	222	5	super-	super-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	222	6	groups	group	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	222	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	223	1	PLoS	plos	ADD
work_gfjn7ngtojauhn7kaf6bbbsq74	223	2	One	one	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	223	3	2	2	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	223	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	223	5	e790	e790	ADD
work_gfjn7ngtojauhn7kaf6bbbsq74	223	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	224	1	Cavalier	Cavalier	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	224	2	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	224	3	Smith	Smith	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	224	4	T	T	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	224	5	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	224	6	1999	1999	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	224	7	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	224	8	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	225	1	Principles	principle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	225	2	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	225	3	protein	protein	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	225	4	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	225	5	lipid	lipid	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	225	6	targeting	targeting	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	225	7	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	225	8	second-	second-	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	225	9	ary	ary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	225	10	symbiogenesis	symbiogenesis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	225	11	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	225	12	euglenoid	euglenoid	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	225	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	225	14	dinoflagellate	dinoflagellate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	225	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	225	16	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	225	17	sporozoan	sporozoan	VB
work_gfjn7ngtojauhn7kaf6bbbsq74	225	18	plastid	plastid	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	225	19	origins	origin	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	225	20	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	225	21	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	225	22	eukaryote	eukaryote	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	225	23	family	family	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	225	24	tree	tree	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	225	25	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	225	26	2	2	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	225	27	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	226	1	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	226	2	Eukaryot	Eukaryot	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	226	3	Microbiol	Microbiol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	226	4	46	46	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	226	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	226	6	347–366	347–366	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	226	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	227	1	Dacks	Dacks	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	227	2	JB	JB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	227	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	227	4	Field	Field	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	227	5	MC	MC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	227	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	227	7	2007	2007	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	227	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	227	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	228	1	Evolution	evolution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	228	2	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	228	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	228	4	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	228	5	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	228	6	-	-	:
work_gfjn7ngtojauhn7kaf6bbbsq74	228	7	traffick-	traffick-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	228	8	ing	ing	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	228	9	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	228	10	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	228	11	origin	origin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	228	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	228	13	tempo	tempo	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	228	14	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	228	15	mode	mode	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	228	16	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	229	1	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	229	2	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	229	3	Sci	Sci	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	229	4	120	120	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	229	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	229	6	2977–2985	2977–2985	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	229	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	230	1	Del	Del	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	2	Campo	Campo	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	3	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	230	5	Sieracki	Sieracki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	6	ME	ME	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	230	8	Molestina	Molestina	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	9	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	230	11	Keeling	Keeling	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	12	P	P	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	230	14	Massana	Massana	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	15	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	16	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	230	17	Ruiz	Ruiz	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	18	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	230	19	Trillo	Trillo	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	20	I	-PRON-	PRP
work_gfjn7ngtojauhn7kaf6bbbsq74	230	21	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	230	22	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	230	23	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	230	24	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	231	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	231	2	others	other	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	231	3	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	231	4	our	-PRON-	PRP$
work_gfjn7ngtojauhn7kaf6bbbsq74	231	5	biased	biased	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	231	6	perspective	perspective	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	231	7	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	231	8	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	231	9	genomes	genome	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	231	10	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	232	1	Trends	Trends	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	232	2	Ecol	Ecol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	232	3	Evol	Evol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	232	4	29	29	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	232	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	232	6	252–259	252–259	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	232	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	233	1	Derelle	Derelle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	2	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	233	4	Torruella	Torruella	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	5	G	G	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	233	7	Klimeš	Klimeš	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	8	V	V	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	233	10	Brinkmann	Brinkmann	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	11	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	233	13	Kim	Kim	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	14	E	E	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	233	16	Vlček	Vlček	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	17	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	233	19	Lang	Lang	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	20	BF	BF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	233	22	Eliáš	Eliáš	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	23	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	233	24	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	233	25	2015	2015	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	233	26	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	233	27	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	234	1	Bacterial	bacterial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	234	2	proteins	protein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	234	3	pinpoint	pinpoint	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	234	4	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	234	5	single	single	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	234	6	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	234	7	root	root	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	234	8	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	235	1	Proc	Proc	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	235	2	Natl	Natl	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	235	3	Acad	Acad	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	235	4	Sci	Sci	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	235	5	USA	USA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	235	6	112	112	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	235	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	235	8	E693–E699	E693–E699	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	235	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	236	1	Dorrell	Dorrell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	236	2	RG	RG	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	236	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	236	4	Howe	Howe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	236	5	CJ	CJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	236	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	236	7	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	236	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	236	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	237	1	What	what	WP
work_gfjn7ngtojauhn7kaf6bbbsq74	237	2	makes	make	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	237	3	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	237	4	chloroplast	chloroplast	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	237	5	?	?	.
work_gfjn7ngtojauhn7kaf6bbbsq74	238	1	Reconstructing	reconstruct	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	238	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	238	3	establishment	establishment	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	238	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	238	5	photosynthetic	photosynthetic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	238	6	symbioses	symbiose	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	238	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	239	1	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	239	2	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	239	3	Sci	Sci	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	239	4	125	125	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	239	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	239	6	1865–1875	1865–1875	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	239	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	240	1	Embley	Embley	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	240	2	TM	TM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	240	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	240	4	Martin	Martin	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	240	5	W	W	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	240	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	240	7	2006	2006	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	240	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	240	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	241	1	Eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	241	2	evolution	evolution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	241	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	241	4	changes	change	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	241	5	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	241	6	challenges	challenge	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	241	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	242	1	Nature	nature	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	242	2	440	440	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	242	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	242	4	623–630	623–630	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	242	5	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	243	1	Eme	Eme	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	243	2	L	L	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	243	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	243	4	Sharpe	Sharpe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	243	5	SC	SC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	243	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	243	7	Brown	Brown	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	243	8	MW	MW	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	243	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	243	10	Roger	Roger	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	243	11	AJ	AJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	243	12	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	243	13	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	243	14	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	243	15	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	244	1	On	on	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	244	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	244	3	age	age	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	244	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	244	5	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	244	6	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	244	7	evaluating	evaluate	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	244	8	evidence	evidence	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	244	9	from	from	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	244	10	fossils	fossil	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	244	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	244	12	molecular	molecular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	244	13	clocks	clock	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	244	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	245	1	Cold	Cold	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	245	2	Spring	Spring	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	245	3	Harb	Harb	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	245	4	Perspect	Perspect	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	245	5	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	245	6	6	6	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	245	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	245	8	a016139	a016139	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	245	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	246	1	Gadeyne	Gadeyne	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	2	A	A	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	246	4	Sanchez	Sanchez	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	5	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	246	6	Rodriguez	Rodriguez	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	7	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	246	9	Vanneste	Vanneste	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	10	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	11	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	246	12	Di	Di	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	13	Rubbo	Rubbo	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	14	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	246	16	Zauber	Zauber	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	17	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	246	19	Vanneste	Vanneste	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	20	K	K	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	246	22	Van	Van	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	23	Leene	Leene	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	24	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	25	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	246	26	De	De	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	27	Winne	Winne	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	28	N	N	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	246	30	Eeckhout	Eeckhout	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	31	D	d	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	246	32	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	246	33	Persiau	Persiau	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	34	G	G	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	35	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	246	36	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	37	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	246	38	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	247	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	247	2	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	247	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	247	4	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	248	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	248	2	TPLATE	TPLATE	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	248	3	adaptor	adaptor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	248	4	complex	complex	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	248	5	drives	drive	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	248	6	clathrin	clathrin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	248	7	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	248	8	mediated	mediate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	248	9	endocy-	endocy-	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	248	10	tosis	tosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	248	11	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	248	12	plants	plant	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	248	13	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	249	1	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	249	2	156	156	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	249	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	249	4	691–704	691–704	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	249	5	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	250	1	Goldberg	Goldberg	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	2	AV	AV	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	250	4	Molik	Molik	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	5	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	250	7	Tsaousis	Tsaousis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	8	AD	AD	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	250	10	Neumann	Neumann	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	11	K	K	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	250	13	Kuhnke	Kuhnke	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	14	G	G	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	250	16	Delbac	Delbac	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	17	F	F	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	250	19	Vivares	Vivares	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	20	CP	CP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	250	22	Hirt	Hirt	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	23	RP	RP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	250	25	Lill	Lill	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	26	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	250	28	Embley	Embley	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	29	TM	TM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	250	30	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	250	31	2008	2008	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	250	32	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	250	33	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	251	1	Localization	localization	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	251	2	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	251	3	function-	function-	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	251	4	ality	ality	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	251	5	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	251	6	microsporidian	microsporidian	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	251	7	iron	iron	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	251	8	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	251	9	sulphur	sulphur	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	251	10	cluster	cluster	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	251	11	assembly	assembly	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	251	12	proteins	protein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	251	13	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	252	1	Nature	nature	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	252	2	452	452	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	252	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	252	4	624–628	624–628	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	252	5	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	253	1	Gray	Gray	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	253	2	MW	MW	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	253	3	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	253	4	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	253	5	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	253	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	254	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	254	2	pre	pre	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	254	3	-	-	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	254	4	endosymbiont	endosymbiont	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	254	5	hypothesis	hypothesis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	254	6	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	254	7	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	254	8	new	new	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	254	9	perspective	perspective	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	254	10	on	on	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	254	11	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	254	12	origin	origin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	254	13	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	254	14	evolution	evolution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	254	15	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	254	16	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	254	17	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	255	1	Cold	Cold	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	255	2	Spring	Spring	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	255	3	Harb	Harb	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	255	4	Perspect	Perspect	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	255	5	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	255	6	6	6	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	255	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	255	8	a016097	a016097	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	255	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	256	1	Heazlewood	Heazlewood	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	2	JL	JL	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	256	4	Tonti	Tonti	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	5	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	256	6	Filippini	Filippini	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	7	JS	JS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	256	9	Gout	Gout	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	10	AM	AM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	11	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	256	12	Day	Day	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	13	DA	DA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	256	15	Whelan	Whelan	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	16	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	256	18	Millar	Millar	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	19	AH	AH	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	256	20	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	256	21	2004	2004	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	256	22	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	256	23	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	257	1	Experimental	experimental	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	257	2	analysis	analysis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	257	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	257	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	257	5	Arabidopsis	Arabidopsis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	257	6	mitochondrial	mitochondrial	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	257	7	proteome	proteome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	257	8	highlights	highlight	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	257	9	signaling	signal	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	257	10	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	257	11	regulatory	regulatory	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	257	12	components	component	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	257	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	257	14	provides	provide	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	257	15	as-	as-	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	257	16	sessment	sessment	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	257	17	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	257	18	targeting	target	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	257	19	prediction	prediction	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	257	20	programs	program	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	257	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	257	22	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	257	23	indicates	indicate	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	257	24	plant	plant	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	257	25	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	257	26	specific	specific	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	257	27	mitochondrial	mitochondrial	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	257	28	proteins	protein	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	257	29	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	258	1	Plant	Plant	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	258	2	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	258	3	16	16	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	258	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	258	5	241–256	241–256	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	258	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	259	1	Helmke	Helmke	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	259	2	KJ	KJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	259	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	259	4	Heald	Heald	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	259	5	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	259	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	259	7	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	259	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	259	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	260	1	TPX2	tpx2	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	260	2	levels	level	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	260	3	modulate	modulate	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	260	4	meiotic	meiotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	260	5	spindle	spindle	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	260	6	size	size	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	260	7	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	260	8	architecture	architecture	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	260	9	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	260	10	Xenopus	Xenopus	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	260	11	egg	egg	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	260	12	extracts	extract	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	260	13	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	261	1	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	261	2	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	261	3	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	261	4	206	206	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	261	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	261	6	385–393	385–393	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	261	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	262	1	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	2	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	262	4	Barlow	Barlow	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	5	D	D	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	262	7	Francisco	Francisco	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	8	L	L	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	262	10	Sahlender	Sahlender	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	11	GC	GC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	262	13	Seaman	Seaman	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	14	DA	DA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	262	16	Dacks	Dacks	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	17	MNJ	MNJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	262	19	JB	JB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	262	21	Robinson	Robinson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	22	MS	MS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	262	23	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	262	24	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	262	25	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	262	26	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	263	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	263	2	fifth	fifth	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	263	3	adaptor	adaptor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	263	4	protein	protein	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	263	5	complex	complex	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	263	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	264	1	PLoS	PLoS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	264	2	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	264	3	9	9	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	264	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	264	5	e1001170	e1001170	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	264	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	265	1	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	265	2	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	265	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	265	4	Irving	Irving	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	265	5	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	265	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	265	7	Borner	Borner	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	265	8	GHH	GHH	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	265	9	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	265	10	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	265	11	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	265	12	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	266	1	Adaptor	adaptor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	266	2	protein	protein	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	266	3	complexes	complex	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	266	4	AP-4	AP-4	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	266	5	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	266	6	AP-5	AP-5	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	266	7	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	266	8	new	new	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	266	9	players	player	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	266	10	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	266	11	endosomal	endosomal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	266	12	trafficking	trafficking	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	266	13	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	266	14	progressive	progressive	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	266	15	spastic	spastic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	266	16	paraplegia	paraplegia	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	266	17	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	267	1	Traffic	traffic	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	267	2	14	14	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	267	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	267	4	153–164	153–164	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	267	5	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	268	1	Hirst	Hirst	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	2	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	268	4	Schlacht	Schlacht	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	5	A	A	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	268	7	Norcott	Norcott	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	8	JP	JP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	268	10	Traynor	Traynor	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	11	D	D	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	268	13	Bloomfield	Bloomfield	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	14	G	G	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	268	16	Antrobus	Antrobus	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	17	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	268	19	Kay	Kay	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	20	RR	RR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	268	22	Dacks	Dacks	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	23	JB	JB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	268	25	Robinson	Robinson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	26	MS	MS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	268	27	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	268	28	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	268	29	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	268	30	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	269	1	Characterization	characterization	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	269	2	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	269	3	TSET	TSET	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	269	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	269	5	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	269	6	ancient	ancient	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	269	7	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	269	8	widespread	widespread	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	269	9	membrane	membrane	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	269	10	trafficking	trafficking	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	269	11	complex	complex	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	269	12	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	270	1	Elife	elife	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	270	2	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	270	3	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	271	1	Hjort	Hjort	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	271	2	K	K	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	271	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	271	4	Goldberg	Goldberg	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	271	5	AV	AV	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	271	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	271	7	Tsaousis	Tsaousis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	271	8	AD	AD	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	271	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	271	10	Hirt	Hirt	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	271	11	RP	RP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	271	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	271	13	Embley	Embley	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	271	14	TM	TM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	271	15	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	271	16	2010	2010	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	271	17	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	271	18	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	272	1	Diversity	diversity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	272	2	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	272	3	reductive	reductive	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	272	4	evolution	evolution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	272	5	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	272	6	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	272	7	among	among	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	272	8	microbial	microbial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	272	9	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	272	10	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	273	1	Philos	Philos	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	273	2	Trans	Trans	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	273	3	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	273	4	Soc	Soc	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	273	5	Lond	Lond	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	273	6	B	B	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	273	7	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	273	8	Sci	Sci	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	273	9	365	365	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	273	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	273	11	713–727	713–727	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	273	12	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	274	1	Jedelský	Jedelský	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	2	PL	PL	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	274	4	Pavel	pavel	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	274	5	D	d	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	274	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	274	7	Petr	Petr	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	8	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	274	10	Jan	Jan	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	11	P	P	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	274	13	Ondřej	Ondřej	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	14	Š	Š	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	274	16	Ivan	Ivan	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	17	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	274	19	Miroslava	Miroslava	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	20	Š	Š	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	274	22	Michaela	Michaela	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	23	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	274	25	Lubomír	Lubomír	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	26	V	V	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	274	28	Andrew	Andrew	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	29	JP	JP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	30	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	274	31	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	32	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	274	33	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	275	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	275	2	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	275	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	275	4	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	276	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	276	2	minimal	minimal	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	276	3	proteome	proteome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	276	4	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	276	5	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	276	6	reduced	reduced	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	276	7	mitochondrion	mitochondrion	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	276	8	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	276	9	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	276	10	parasitic	parasitic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	276	11	protist	protist	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	276	12	Giardia	Giardia	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	276	13	intestinalis	intestinalis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	276	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	277	1	PLoS	plos	ADD
work_gfjn7ngtojauhn7kaf6bbbsq74	277	2	One	one	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	277	3	6	6	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	277	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	277	5	e17285	e17285	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	277	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	278	1	Kim	Kim	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	278	2	K	K	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	278	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	278	4	Weiss	Weiss	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	278	5	LM	LM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	278	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	278	7	2004	2004	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	278	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	278	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	279	1	Toxoplasma	Toxoplasma	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	279	2	gondii	gondii	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	279	3	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	279	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	279	5	model	model	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	279	6	apicomplexan	apicomplexan	VBD
work_gfjn7ngtojauhn7kaf6bbbsq74	279	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	280	1	Int	Int	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	280	2	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	280	3	Parasitol	Parasitol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	280	4	34	34	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	280	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	280	6	423–432	423–432	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	280	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	281	1	Koumandou	Koumandou	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	2	VL	VL	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	281	4	Wickstead	Wickstead	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	5	B	B	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	281	7	Ginger	Ginger	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	8	ML	ML	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	281	10	van	van	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	11	der	der	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	12	Giezen	Giezen	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	13	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	281	15	Dacks	Dacks	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	16	JB	JB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	281	18	Field	Field	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	19	MC	MC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	281	20	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	281	21	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	281	22	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	281	23	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	282	1	Molecular	molecular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	282	2	paleontology	paleontology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	282	3	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	282	4	complexity	complexity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	282	5	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	282	6	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	282	7	last	last	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	282	8	eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	282	9	common	common	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	282	10	ancestor	ancestor	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	282	11	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	283	1	Crit	Crit	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	283	2	Rev	Rev	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	283	3	Biochem	Biochem	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	283	4	Mol	Mol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	283	5	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	283	6	48	48	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	283	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	283	8	373–396	373–396	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	283	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	284	1	Lane	Lane	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	284	2	N	N	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	284	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	284	4	Martin	Martin	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	284	5	W	W	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	284	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	284	7	2010	2010	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	284	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	284	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	285	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	285	2	energetics	energetic	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	285	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	285	4	genome	genome	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	285	5	complexity	complexity	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	285	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	286	1	Nature	nature	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	286	2	467	467	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	286	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	286	4	929–934	929–934	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	286	5	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	287	1	Lill	Lill	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	287	2	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	287	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	287	4	Fekete	Fekete	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	287	5	Z	Z	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	287	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	287	7	Sipos	Sipos	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	287	8	K	K	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	287	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	287	10	Rotte	Rotte	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	287	11	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	287	12	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	287	13	2005	2005	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	287	14	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	287	15	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	288	1	Is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	288	2	there	there	EX
work_gfjn7ngtojauhn7kaf6bbbsq74	288	3	an	an	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	288	4	answer	answer	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	288	5	?	?	.
work_gfjn7ngtojauhn7kaf6bbbsq74	289	1	Why	why	WRB
work_gfjn7ngtojauhn7kaf6bbbsq74	289	2	are	be	VBP
work_gfjn7ngtojauhn7kaf6bbbsq74	289	3	mitochondria	mitochondria	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	289	4	essential	essential	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	289	5	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	289	6	life	life	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	289	7	?	?	.
work_gfjn7ngtojauhn7kaf6bbbsq74	290	1	IUBMB	IUBMB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	290	2	Life	Life	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	290	3	57	57	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	290	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	290	5	701–703	701–703	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	290	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	291	1	Lynch	Lynch	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	2	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	291	4	Field	Field	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	5	MC	MC	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	291	7	Goodson	Goodson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	8	HV	HV	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	291	10	Malik	Malik	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	11	HS	HS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	291	13	Pereira	Pereira	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	14	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	291	15	Leal	Leal	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	16	JB	JB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	291	18	Roos	Roos	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	19	DS	DS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	291	21	Turkewitz	Turkewitz	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	22	AP	AP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	291	24	Sazer	Sazer	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	25	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	291	26	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	291	27	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	291	28	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	291	29	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	292	1	Evolutionary	evolutionary	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	292	2	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	292	3	biology	biology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	292	4	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	292	5	two	two	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	292	6	origins	origin	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	292	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	292	8	one	one	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	292	9	objective	objective	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	292	10	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	293	1	Proc	Proc	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	293	2	Natl	Natl	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	293	3	Acad	Acad	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	293	4	Sci	Sci	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	293	5	USA	USA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	293	6	111	111	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	293	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	293	8	16990–16994	16990–16994	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	293	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	294	1	Maralikova	Maralikova	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	2	B	B	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	294	4	Ali	Ali	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	5	V	V	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	294	7	Nakada	Nakada	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	8	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	294	9	Tsukui	Tsukui	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	10	K	K	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	11	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	294	12	Nozaki	Nozaki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	13	T	T	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	294	15	van	van	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	16	der	der	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	17	Giezen	Giezen	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	18	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	19	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	294	20	Henze	Henze	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	21	K	K	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	22	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	294	23	Tovar	Tovar	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	24	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	294	25	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	294	26	2010	2010	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	294	27	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	294	28	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	295	1	Bacterial	bacterial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	295	2	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	295	3	type	type	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	295	4	oxygen	oxygen	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	295	5	detoxification	detoxification	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	295	6	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	295	7	iron	iron	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	295	8	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	295	9	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	295	10	cluster	cluster	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	295	11	assembly	assembly	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	295	12	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	295	13	amoebal	amoebal	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	295	14	relict	relict	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	295	15	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	295	16	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	296	1	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	296	2	Microbiol	Microbiol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	296	3	12	12	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	296	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	296	5	331–342	331–342	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	296	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	297	1	McMahon	McMahon	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	297	2	HT	HT	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	297	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	297	4	Boucrot	Boucrot	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	297	5	E	E	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	297	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	297	7	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	297	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	297	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	298	1	Molecular	molecular	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	298	2	mechanism	mechanism	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	298	3	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	298	4	physiological	physiological	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	298	5	functions	function	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	298	6	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	298	7	clathrin	clathrin	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	298	8	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	298	9	mediated	mediate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	298	10	endocytosis	endocytosis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	298	11	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	299	1	Nat	Nat	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	299	2	Rev	Rev	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	299	3	Mol	Mol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	299	4	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	299	5	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	299	6	12	12	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	299	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	299	8	517–533	517–533	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	299	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	300	1	Muller	Muller	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	2	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	300	4	Mentel	Mentel	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	5	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	300	7	van	van	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	8	Hellemond	Hellemond	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	9	JJ	JJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	10	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	300	11	Henze	Henze	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	12	K	K	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	13	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	300	14	Woehle	Woehle	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	15	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	16	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	300	17	Gould	Gould	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	18	SB	SB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	19	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	300	20	Yu	Yu	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	21	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	22	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	300	23	Y	Y	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	300	25	van	van	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	26	der	der	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	27	Giezen	Giezen	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	28	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	300	30	Tielens	Tielens	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	31	AGM	AGM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	32	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	300	33	Martin	Martin	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	34	WF	WF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	300	35	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	300	36	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	300	37	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	300	38	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	301	1	Biochemistry	biochemistry	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	301	2	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	301	3	evolution	evolution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	301	4	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	301	5	anaerobic	anaerobic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	301	6	energy	energy	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	301	7	metabolism	metabolism	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	301	8	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	301	9	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	301	10	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	302	1	Microbiol	Microbiol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	302	2	Mol	Mol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	302	3	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	302	4	Rev	Rev	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	302	5	76	76	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	302	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	302	7	444–495	444–495	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	302	8	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	303	1	Nývltová	nývltová	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	303	2	E	e	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	303	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	303	4	Šuták	Šuták	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	5	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	303	7	Harant	Harant	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	8	K	K	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	303	10	Šedinová	Šedinová	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	11	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	303	13	Hrdy	Hrdy	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	14	I	I	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	303	16	Paces	Paces	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	17	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	303	19	Vlček	Vlček	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	20	Č	Č	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	303	22	Tachezy	Tachezy	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	23	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	303	24	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	303	25	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	303	26	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	303	27	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	304	1	NIF	NIF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	304	2	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	304	3	type	type	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	4	iron	iron	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	5	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	304	6	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	7	cluster	cluster	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	8	assembly	assembly	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	9	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	10	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	304	11	duplicated	duplicate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	12	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	304	13	distributed	distribute	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	14	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	15	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	304	16	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	304	17	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	304	18	cytosol	cytosol	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	19	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	20	Mastigamoeba	Mastigamoeba	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	304	21	balamuthi	balamuthi	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	304	22	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	305	1	Proc	Proc	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	305	2	Natl	Natl	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	305	3	Acad	Acad	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	305	4	Sci	Sci	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	305	5	USA	USA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	305	6	110	110	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	305	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	305	8	7371–7376	7371–7376	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	305	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	306	1	Place	Place	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	2	AR	AR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	306	4	Bowers	Bowers	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	5	HA	HA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	306	7	Bachvaroff	Bachvaroff	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	8	TR	TR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	306	10	Adolf	Adolf	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	11	JE	JE	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	306	13	Deeds	Deeds	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	14	JR	JR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	306	16	Sheng	Sheng	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	17	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	306	18	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	306	19	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	306	20	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	306	21	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	307	1	Karlodinium	Karlodinium	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	307	2	veneficum	veneficum	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	307	3	—	—	:
work_gfjn7ngtojauhn7kaf6bbbsq74	307	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	307	5	little	little	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	307	6	dinoflagellate	dinoflagellate	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	307	7	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	307	8	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	307	9	big	big	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	307	10	bite	bite	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	307	11	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	308	1	Harmful	Harmful	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	308	2	Algae	Algae	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	308	3	14	14	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	308	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	308	5	179–195	179–195	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	308	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	309	1	Schneider	Schneider	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	2	RE	RE	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	309	4	Brown	Brown	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	5	MT	MT	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	309	7	Shiflett	Shiflett	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	8	AM	am	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	309	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	309	10	Dyall	Dyall	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	11	SD	SD	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	309	13	Hayes	Hayes	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	14	RD	RD	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	309	16	Xie	Xie	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	17	Y	Y	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	309	19	Loo	Loo	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	20	JA	JA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	309	22	Johnson	Johnson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	23	PJ	PJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	309	24	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	309	25	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	309	26	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	309	27	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	310	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	310	2	Trichomonas	Trichomonas	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	310	3	vaginalis	vaginalis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	310	4	hydrogenosome	hydrogenosome	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	310	5	proteome	proteome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	310	6	is	be	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	310	7	highly	highly	RB
work_gfjn7ngtojauhn7kaf6bbbsq74	310	8	reduced	reduce	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	310	9	relative	relative	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	310	10	to	to	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	310	11	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	310	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	310	13	yet	yet	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	310	14	complex	complex	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	310	15	compared	compare	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	310	16	with	with	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	310	17	mitosomes	mitosome	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	310	18	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	311	1	Int	Int	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	311	2	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	311	3	Parasitol	Parasitol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	311	4	41	41	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	311	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	311	6	1421–1434	1421–1434	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	311	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	312	1	Sickmann	Sickmann	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	2	A	A	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	312	4	Reinders	Reinders	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	312	5	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	312	7	Wagner	Wagner	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	8	Y	Y	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	312	10	Joppich	Joppich	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	11	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	312	13	Zahedi	Zahedi	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	14	R	R	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	312	16	Meyer	Meyer	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	17	HE	HE	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	312	19	Schonfisch	Schonfisch	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	20	B	B	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	312	22	Perschil	Perschil	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	23	I	I	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	24	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	312	25	Chacinska	Chacinska	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	26	A	A	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	27	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	312	28	Guiard	Guiard	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	29	B	B	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	30	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	312	31	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	32	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	312	33	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	313	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	313	2	2003	2003	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	313	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	313	4	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	314	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	314	2	4538	4538	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	314	3	|	|	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	314	4	E.	E.	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	314	5	Richardson	Richardson	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	314	6	et	et	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	314	7	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	314	8	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	315	1	Molecular	Molecular	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	315	2	Biology	Biology	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	315	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	315	4	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	315	5	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	315	6	Evolution	Evolution	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	315	7	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	315	8	Fe	Fe	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	315	9	/	/	SYM
work_gfjn7ngtojauhn7kaf6bbbsq74	315	10	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	315	11	cluster	cluster	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	315	12	biogenesis	biogenesis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	315	13	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	315	14	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	315	15	anaerobic	anaerobic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	315	16	parasite	parasite	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	315	17	Blastocystis	Blastocystis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	315	18	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	316	1	Proc	Proc	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	316	2	Natl	Natl	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	316	3	Acad	Acad	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	316	4	Sci	Sci	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	316	5	USA	USA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	316	6	109	109	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	316	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	316	8	10426–10431	10426–10431	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	316	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	317	1	Tsaousis	tsaousis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	317	2	AD	ad	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	317	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	317	4	Gentekaki	Gentekaki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	317	5	E	E	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	317	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	317	7	Eme	Eme	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	317	8	L	L	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	317	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	317	10	Gaston	Gaston	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	317	11	D	D	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	317	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	317	13	Roger	Roger	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	317	14	AJ	AJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	317	15	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	317	16	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	317	17	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	317	18	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	318	1	Evolution	evolution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	318	2	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	318	3	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	318	4	cytosolic	cytosolic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	318	5	iron	iron	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	318	6	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	318	7	sulfur	sulfur	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	318	8	cluster	cluster	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	318	9	assembly	assembly	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	318	10	machinery	machinery	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	318	11	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	318	12	Blastocystis	Blastocystis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	318	13	species	specie	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	318	14	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	318	15	other	other	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	318	16	microbial	microbial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	318	17	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	318	18	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	319	1	Eukaryot	Eukaryot	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	319	2	Cell	Cell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	319	3	13	13	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	319	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	319	5	143–153	143–153	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	319	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	320	1	Tsaousis	tsaousis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	320	2	AD	ad	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	320	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	320	4	Kunji	Kunji	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	320	5	ERS	ERS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	320	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	320	7	Goldberg	Goldberg	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	320	8	AV	AV	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	320	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	320	10	Lucocq	Lucocq	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	320	11	JM	JM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	320	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	320	13	Hirt	Hirt	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	320	14	RP	RP	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	320	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	320	16	Embley	Embley	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	320	17	TM	TM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	320	18	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	320	19	2008	2008	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	320	20	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	320	21	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	321	1	A	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	321	2	novel	novel	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	321	3	route	route	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	321	4	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	321	5	ATP	atp	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	321	6	acquisition	acquisition	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	321	7	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	321	8	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	321	9	remnant	remnant	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	321	10	mitochondria	mitochondrion	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	321	11	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	321	12	Encephalitozoon	Encephalitozoon	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	321	13	cuniculi	cuniculi	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	321	14	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	322	1	Nature	nature	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	322	2	453	453	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	322	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	322	4	553–556	553–556	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	322	5	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	323	1	Varki	Varki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	323	2	A	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	323	3	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	323	4	2006	2006	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	323	5	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	323	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	324	1	Nothing	nothing	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	324	2	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	324	3	glycobiology	glycobiology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	324	4	makes	make	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	324	5	sense	sense	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	324	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	324	7	except	except	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	324	8	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	324	9	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	324	10	light	light	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	324	11	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	324	12	evolution	evolution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	324	13	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	325	1	Cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	325	2	126	126	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	325	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	325	4	841–845	841–845	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	325	5	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	326	1	Walker	Walker	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	326	2	G	G	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	326	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	326	4	Dorrell	Dorrell	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	326	5	RG	RG	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	326	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	326	7	Schlacht	Schlacht	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	326	8	A	A	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	326	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	326	10	Dacks	Dacks	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	326	11	JB	JB	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	326	12	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	326	13	2011	2011	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	326	14	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	326	15	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	327	1	Eukaryotic	eukaryotic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	327	2	systematics	systematic	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	327	3	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	327	4	a	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	327	5	user	user	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	327	6	’s	’s	POS
work_gfjn7ngtojauhn7kaf6bbbsq74	327	7	guide	guide	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	327	8	for	for	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	327	9	cell	cell	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	327	10	biologists	biologist	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	327	11	and	and	CC
work_gfjn7ngtojauhn7kaf6bbbsq74	327	12	parasitologists	parasitologist	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	327	13	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	328	1	Parasitology	parasitology	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	328	2	138	138	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	328	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	328	4	1638–1663	1638–1663	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	328	5	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	329	1	Yubuki	Yubuki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	329	2	N	N	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	329	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	329	4	Leander	Leander	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	329	5	BS	BS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	329	6	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	329	7	2013	2013	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	329	8	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	329	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	330	1	Evolution	Evolution	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	330	2	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	330	3	microtubule	microtubule	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	330	4	organizing	organize	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	330	5	centers	center	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	330	6	across	across	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	330	7	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	330	8	tree	tree	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	330	9	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	330	10	eukaryotes	eukaryote	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	330	11	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	331	1	Plant	Plant	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	331	2	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	331	3	75	75	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	331	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	331	5	230–244	230–244	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	331	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	332	1	proteome	proteome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	332	2	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	332	3	Saccharomyces	Saccharomyces	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	332	4	cerevisiae	cerevisiae	VBZ
work_gfjn7ngtojauhn7kaf6bbbsq74	332	5	mitochondria	mitochondria	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	332	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	333	1	Proc	Proc	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	333	2	Natl	Natl	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	333	3	Acad	Acad	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	333	4	Sci	Sci	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	333	5	USA	USA	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	333	6	100	100	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	333	7	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	333	8	13207–13212	13207–13212	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	333	9	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	334	1	Smith	Smith	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	2	DGS	DGS	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	334	4	Gawryluk	Gawryluk	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	5	RMR	RMR	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	334	7	Spencer	Spencer	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	8	DF	DF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	334	10	Pearlman	Pearlman	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	11	RE	RE	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	334	13	Siu	Siu	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	14	KWM	KWM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	334	16	Gray	Gray	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	17	MW	MW	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	334	18	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	334	19	2007	2007	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	334	20	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	334	21	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	335	1	Exploring	explore	VBG
work_gfjn7ngtojauhn7kaf6bbbsq74	335	2	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	335	3	mitochondrial	mitochondrial	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	335	4	proteome	proteome	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	335	5	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	335	6	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	335	7	ciliate	ciliate	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	335	8	protozoon	protozoon	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	335	9	Tetrahymena	Tetrahymena	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	335	10	thermophila	thermophila	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	335	11	:	:	:
work_gfjn7ngtojauhn7kaf6bbbsq74	335	12	direct	direct	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	335	13	analysis	analysis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	335	14	by	by	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	335	15	tandem	tandem	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	335	16	mass	mass	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	335	17	spectrometry	spectrometry	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	335	18	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	336	1	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	336	2	Mol	Mol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	336	3	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	336	4	374	374	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	336	5	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	336	6	837–863	837–863	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	336	7	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	337	1	Stairs	Stairs	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	337	2	CW	CW	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	337	4	Eme	Eme	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	5	L	L	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	337	7	Brown	Brown	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	8	MW	MW	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	337	10	Mutsaers	Mutsaers	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	11	C	C	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	337	13	Susko	Susko	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	14	E	E	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	337	16	Dellaire	dellaire	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	337	17	G	g	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	337	18	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	337	19	Soanes	Soanes	NNPS
work_gfjn7ngtojauhn7kaf6bbbsq74	337	20	DM	DM	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	21	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	337	22	Van	Van	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	23	Der	Der	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	24	Giezen	Giezen	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	25	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	337	27	Roger	Roger	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	28	AJ	AJ	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	337	29	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	337	30	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	337	31	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	337	32	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	338	1	A	a	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	338	2	SUF	SUF	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	338	3	Fe	fe	FW
work_gfjn7ngtojauhn7kaf6bbbsq74	338	4	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	338	5	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	338	6	cluster	cluster	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	338	7	biogenesis	biogenesis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	338	8	system	system	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	338	9	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	338	10	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	338	11	mitochondrion	mitochondrion	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	338	12	-	-	HYPH
work_gfjn7ngtojauhn7kaf6bbbsq74	338	13	related	relate	VBN
work_gfjn7ngtojauhn7kaf6bbbsq74	338	14	organelles	organelle	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	338	15	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	338	16	the	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	338	17	anaerobic	anaerobic	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	338	18	protist	protist	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	338	19	Pygsuia	Pygsuia	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	338	20	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	339	1	Curr	Curr	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	339	2	Biol	Biol	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	339	3	24	24	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	339	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	339	5	1176–1186	1176–1186	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	339	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	340	1	Stiller	Stiller	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	2	JW	JW	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	340	4	Schreiber	Schreiber	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	5	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	6	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	340	7	Yue	Yue	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	8	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	9	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	340	10	Guo	Guo	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	11	H	H	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	12	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	340	13	Ding	Ding	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	14	Q	Q	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	15	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	340	16	Huang	Huang	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	17	J	J	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	340	18	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	340	19	2014	2014	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	340	20	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	340	21	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	341	1	The	the	DT
work_gfjn7ngtojauhn7kaf6bbbsq74	341	2	evolution	evolution	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	341	3	of	of	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	341	4	photosynthesis	photosynthesis	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	341	5	in	in	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	341	6	chromist	chromist	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	341	7	algae	algae	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	341	8	through	through	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	341	9	serial	serial	JJ
work_gfjn7ngtojauhn7kaf6bbbsq74	341	10	endosymbioses	endosymbiose	NNS
work_gfjn7ngtojauhn7kaf6bbbsq74	341	11	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	342	1	Nat	Nat	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	342	2	Commun	Commun	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	342	3	5	5	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	342	4	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	342	5	1–7	1–7	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	342	6	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	343	1	Tsaousis	Tsaousis	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	2	AD	ad	NN
work_gfjn7ngtojauhn7kaf6bbbsq74	343	3	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	343	4	Ollagnier	Ollagnier	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	5	de	de	IN
work_gfjn7ngtojauhn7kaf6bbbsq74	343	6	Choudens	Choudens	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	7	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	8	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	343	9	Gentekaki	Gentekaki	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	10	E	E	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	11	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	343	12	Long	Long	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	13	S	S	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	14	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	343	15	Gaston	Gaston	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	16	D	D	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	17	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	343	18	Stechmann	Stechmann	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	19	A	A	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	20	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	343	21	Vinella	Vinella	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	22	D	D	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	23	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	343	24	Py	Py	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	25	B	B	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	26	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	343	27	Fontecave	Fontecave	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	28	M	M	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	29	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	343	30	Barras	Barras	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	31	F	F	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	32	,	,	,
work_gfjn7ngtojauhn7kaf6bbbsq74	343	33	et	et	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	34	al	al	NNP
work_gfjn7ngtojauhn7kaf6bbbsq74	343	35	.	.	.
work_gfjn7ngtojauhn7kaf6bbbsq74	344	1	(	(	-LRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	344	2	2012	2012	CD
work_gfjn7ngtojauhn7kaf6bbbsq74	344	3	)	)	-RRB-
work_gfjn7ngtojauhn7kaf6bbbsq74	344	4	.	.	.