id	sid	tid	token	lemma	pos
work_qr32rjxlhnbmjpkggdixwwesfq	1	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	1	2	evolutionary	evolutionary	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	1	3	history	history	NN
work_qr32rjxlhnbmjpkggdixwwesfq	1	4	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	1	5	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	1	6	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	1	7	integral	integral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	1	8	pyrophosphatases	pyrophosphatase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	1	9	supports	support	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	1	10	Na+	na+	RB
work_qr32rjxlhnbmjpkggdixwwesfq	1	11	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	1	12	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	1	13	ancestral	ancestral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	1	14	coupling	couple	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	1	15	ion	ion	NN
work_qr32rjxlhnbmjpkggdixwwesfq	1	16	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	1	17	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	1	18	bioenergetics	bioenergetic	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	1	19	stress	stress	NN
work_qr32rjxlhnbmjpkggdixwwesfq	1	20	conditions	condition	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	1	21	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	1	22	1	1	CD
work_qr32rjxlhnbmjpkggdixwwesfq	1	23	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	1	24	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	2	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	2	2	transporter	transporter	NN
work_qr32rjxlhnbmjpkggdixwwesfq	2	3	contributes	contribute	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	2	4	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	2	5	virulence	virulence	NN
work_qr32rjxlhnbmjpkggdixwwesfq	2	6	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	2	7	pathogens	pathogen	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	2	8	such	such	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	2	9	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	2	10	Staphylococcus	Staphylococcus	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	2	11	aureus	aureus	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	2	12	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	2	13	Helicobacter	Helicobacter	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	2	14	pylori	pylori	NN
work_qr32rjxlhnbmjpkggdixwwesfq	2	15	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	3	1	We	-PRON-	PRP
work_qr32rjxlhnbmjpkggdixwwesfq	3	2	utilize	utilize	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	3	3	PutP	PutP	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	3	4	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	3	5	Escherichia	Escherichia	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	3	6	coli	coli	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	3	7	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	3	8	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	3	9	model	model	NN
work_qr32rjxlhnbmjpkggdixwwesfq	3	10	to	to	TO
work_qr32rjxlhnbmjpkggdixwwesfq	3	11	explore	explore	VB
work_qr32rjxlhnbmjpkggdixwwesfq	3	12	structure	structure	NN
work_qr32rjxlhnbmjpkggdixwwesfq	3	13	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	3	14	molecular	molecular	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	3	15	mechanism	mechanism	NN
work_qr32rjxlhnbmjpkggdixwwesfq	3	16	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	3	17	function	function	NN
work_qr32rjxlhnbmjpkggdixwwesfq	3	18	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	3	19	SSSF	sssf	NN
work_qr32rjxlhnbmjpkggdixwwesfq	3	20	proteins	protein	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	3	21	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	4	1	Here	here	RB
work_qr32rjxlhnbmjpkggdixwwesfq	4	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	4	3	we	-PRON-	PRP
work_qr32rjxlhnbmjpkggdixwwesfq	4	4	present	present	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	4	5	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	4	6	model	model	NN
work_qr32rjxlhnbmjpkggdixwwesfq	4	7	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	4	8	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	4	9	helix	helix	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	4	10	bundle	bundle	NN
work_qr32rjxlhnbmjpkggdixwwesfq	4	11	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	4	12	PutP	PutP	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	4	13	obtained	obtain	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	4	14	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	4	15	molecular	molecular	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	4	16	modeling	modeling	NN
work_qr32rjxlhnbmjpkggdixwwesfq	4	17	constrained	constrain	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	4	18	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	4	19	experimentally	experimentally	RB
work_qr32rjxlhnbmjpkggdixwwesfq	4	20	determined	determine	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	4	21	intra-	intra-	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	4	22	molecular	molecular	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	4	23	distances	distance	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	4	24	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	4	25	template	template	NN
work_qr32rjxlhnbmjpkggdixwwesfq	4	26	restraints	restraint	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	4	27	derived	derive	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	4	28	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	4	29	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	4	30	ten-	ten-	NN
work_qr32rjxlhnbmjpkggdixwwesfq	4	31	helix	helix	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	4	32	core	core	NN
work_qr32rjxlhnbmjpkggdixwwesfq	4	33	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	4	34	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	4	35	vSGLT	vSGLT	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	4	36	crystal	crystal	NN
work_qr32rjxlhnbmjpkggdixwwesfq	4	37	structure	structure	NN
work_qr32rjxlhnbmjpkggdixwwesfq	4	38	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	4	39	2	2	CD
work_qr32rjxlhnbmjpkggdixwwesfq	4	40	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	4	41	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	5	1	For	for	IN
work_qr32rjxlhnbmjpkggdixwwesfq	5	2	this	this	DT
work_qr32rjxlhnbmjpkggdixwwesfq	5	3	purpose	purpose	NN
work_qr32rjxlhnbmjpkggdixwwesfq	5	4	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	5	5	DEER	DEER	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	5	6	distance	distance	NN
work_qr32rjxlhnbmjpkggdixwwesfq	5	7	measurements	measurement	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	5	8	between	between	IN
work_qr32rjxlhnbmjpkggdixwwesfq	5	9	spin	spin	NN
work_qr32rjxlhnbmjpkggdixwwesfq	5	10	labels	label	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	5	11	attached	attach	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	5	12	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	5	13	helix	helix	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	5	14	ends	end	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	5	15	were	be	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	5	16	conducted	conduct	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	5	17	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	5	18	mean	mean	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	5	19	interspin	interspin	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	5	20	distances	distance	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	5	21	were	be	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	5	22	determined	determine	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	5	23	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	6	1	Fitting	fitting	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	6	2	algorithm	algorithm	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	3	based	base	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	6	4	on	on	IN
work_qr32rjxlhnbmjpkggdixwwesfq	6	5	matrix	matrix	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	6	geometry	geometry	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	7	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	6	8	combination	combination	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	9	with	with	IN
work_qr32rjxlhnbmjpkggdixwwesfq	6	10	prediction	prediction	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	11	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	6	12	spin	spin	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	13	label	label	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	14	conformations	conformation	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	6	15	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	6	16	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	6	17	rotamer	rotamer	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	6	18	library	library	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	19	approach	approach	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	20	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	6	21	3	3	CD
work_qr32rjxlhnbmjpkggdixwwesfq	6	22	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	6	23	resulted	result	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	6	24	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	6	25	an	an	DT
work_qr32rjxlhnbmjpkggdixwwesfq	6	26	ensemble	ensemble	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	27	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	6	28	helix	helix	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	6	29	bundle	bundle	NN
work_qr32rjxlhnbmjpkggdixwwesfq	6	30	structures	structure	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	6	31	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	7	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	7	2	central	central	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	7	3	structure	structure	NN
work_qr32rjxlhnbmjpkggdixwwesfq	7	4	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	7	5	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	7	6	ensemble	ensemble	NN
work_qr32rjxlhnbmjpkggdixwwesfq	7	7	showed	show	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	7	8	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	7	9	core	core	NN
work_qr32rjxlhnbmjpkggdixwwesfq	7	10	structure	structure	NN
work_qr32rjxlhnbmjpkggdixwwesfq	7	11	with	with	IN
work_qr32rjxlhnbmjpkggdixwwesfq	7	12	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	7	13	fold	fold	RB
work_qr32rjxlhnbmjpkggdixwwesfq	7	14	similar	similar	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	7	15	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	7	16	that	that	DT
work_qr32rjxlhnbmjpkggdixwwesfq	7	17	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	7	18	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	7	19	vSGLT	vsglt	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	7	20	template	template	NN
work_qr32rjxlhnbmjpkggdixwwesfq	7	21	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	8	1	Furthermore	furthermore	RB
work_qr32rjxlhnbmjpkggdixwwesfq	8	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	8	3	analysis	analysis	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	4	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	8	5	spin	spin	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	6	label	label	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	8	7	motility	motility	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	8	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	8	9	environmental	environmental	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	8	10	polarity	polarity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	11	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	8	12	cwEPR	cwEPR	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	8	13	yielded	yield	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	8	14	information	information	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	15	on	on	IN
work_qr32rjxlhnbmjpkggdixwwesfq	8	16	secondary	secondary	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	8	17	structure	structure	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	18	elements	element	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	8	19	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	8	20	structural	structural	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	8	21	rearrangements	rearrangement	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	8	22	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	8	23	external	external	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	8	24	loop	loop	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	25	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	8	26	eL	eL	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	8	27	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	8	28	9	9	CD
work_qr32rjxlhnbmjpkggdixwwesfq	8	29	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	8	30	PutP	PutP	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	8	31	upon	upon	IN
work_qr32rjxlhnbmjpkggdixwwesfq	8	32	sodium	sodium	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	33	and/or	and/or	CC
work_qr32rjxlhnbmjpkggdixwwesfq	8	34	l	l	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	35	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	8	36	proline	proline	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	37	binding	binding	NN
work_qr32rjxlhnbmjpkggdixwwesfq	8	38	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	9	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	9	2	results	result	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	9	3	support	support	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	9	4	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	9	5	idea	idea	NN
work_qr32rjxlhnbmjpkggdixwwesfq	9	6	that	that	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	9	7	eL9	eL9	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	9	8	controls	control	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	9	9	access	access	NN
work_qr32rjxlhnbmjpkggdixwwesfq	9	10	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	9	11	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	9	12	sodium	sodium	NN
work_qr32rjxlhnbmjpkggdixwwesfq	9	13	and/or	and/or	CC
work_qr32rjxlhnbmjpkggdixwwesfq	9	14	l	l	NN
work_qr32rjxlhnbmjpkggdixwwesfq	9	15	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	9	16	proline	proline	NN
work_qr32rjxlhnbmjpkggdixwwesfq	9	17	binding	bind	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	9	18	site(s	site(s	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	9	19	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	9	20	similar	similar	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	9	21	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	9	22	previously	previously	RB
work_qr32rjxlhnbmjpkggdixwwesfq	9	23	proposed	propose	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	9	24	for	for	IN
work_qr32rjxlhnbmjpkggdixwwesfq	9	25	eL	eL	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	9	26	4	4	CD
work_qr32rjxlhnbmjpkggdixwwesfq	9	27	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	9	28	LeuT	LeuT	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	9	29	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	9	30	4	4	CD
work_qr32rjxlhnbmjpkggdixwwesfq	9	31	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	9	32	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	10	1	References	reference	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	10	2	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	10	3	1	1	CD
work_qr32rjxlhnbmjpkggdixwwesfq	10	4	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	10	5	H.	H.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	10	6	Jung	Jung	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	10	7	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	10	8	FEBS	FEBS	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	10	9	Lett	Lett	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	10	10	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	11	1	529	529	CD
work_qr32rjxlhnbmjpkggdixwwesfq	11	2	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	11	3	2002	2002	CD
work_qr32rjxlhnbmjpkggdixwwesfq	11	4	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	11	5	73–77	73–77	CD
work_qr32rjxlhnbmjpkggdixwwesfq	11	6	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	12	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	12	2	2	2	LS
work_qr32rjxlhnbmjpkggdixwwesfq	12	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	12	4	S.	S.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	12	5	Faham	Faham	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	12	6	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	12	7	A.	a.	NN
work_qr32rjxlhnbmjpkggdixwwesfq	12	8	Watanabe	Watanabe	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	12	9	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	12	10	G.M.	G.M.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	13	1	Besserer	Besserer	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	13	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	13	3	D.	D.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	13	4	Cascio	Cascio	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	13	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	13	6	A.	a.	NN
work_qr32rjxlhnbmjpkggdixwwesfq	13	7	Specht	Specht	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	13	8	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	13	9	B.A.	B.A.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	14	1	Hirayama	Hirayama	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	14	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	14	3	E.M.	E.M.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	14	4	Wright	Wright	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	14	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	14	6	J.	J.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	14	7	Abramson	Abramson	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	14	8	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	14	9	Science	Science	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	14	10	321	321	CD
work_qr32rjxlhnbmjpkggdixwwesfq	14	11	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	14	12	2008	2008	CD
work_qr32rjxlhnbmjpkggdixwwesfq	14	13	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	14	14	810–814	810–814	CD
work_qr32rjxlhnbmjpkggdixwwesfq	14	15	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	15	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	15	2	3	3	CD
work_qr32rjxlhnbmjpkggdixwwesfq	15	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	15	4	Y.	Y.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	15	5	Polyhach	Polyhach	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	15	6	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	15	7	E.	E.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	15	8	Pordignon	Pordignon	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	15	9	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	15	10	G.	G.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	15	11	Jeschke	Jeschke	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	15	12	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	15	13	Phys	Phys	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	15	14	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	16	1	Chem	Chem	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	16	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	17	1	Chem	Chem	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	17	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	18	1	Phys	phys	NN
work_qr32rjxlhnbmjpkggdixwwesfq	18	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	19	1	13	13	CD
work_qr32rjxlhnbmjpkggdixwwesfq	19	2	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	19	3	2011	2011	CD
work_qr32rjxlhnbmjpkggdixwwesfq	19	4	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	19	5	2356–2366	2356–2366	CD
work_qr32rjxlhnbmjpkggdixwwesfq	19	6	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	20	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	20	2	4	4	CD
work_qr32rjxlhnbmjpkggdixwwesfq	20	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	20	4	D.P.	D.P.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	21	1	Claxton	Claxton	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	21	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	21	3	M.	M.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	21	4	Quick	Quick	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	21	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	21	6	L.	L.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	21	7	Shi	Shi	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	21	8	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	21	9	F.D.	F.D.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	22	1	de	de	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	22	2	Carvalho	Carvalho	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	22	3	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	22	4	H.	H.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	22	5	Weinstein	Weinstein	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	22	6	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	22	7	J.H.	J.H.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	23	1	Javitch	Javitch	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	23	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	23	3	H.S.	H.S.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	24	1	McHaourab	McHaourab	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	24	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	24	3	Nat	Nat	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	24	4	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	25	1	Struct	struct	NN
work_qr32rjxlhnbmjpkggdixwwesfq	25	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	26	1	Mol	Mol	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	26	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	27	1	Biol	Biol	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	27	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	28	1	17	17	CD
work_qr32rjxlhnbmjpkggdixwwesfq	28	2	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	28	3	2010	2010	CD
work_qr32rjxlhnbmjpkggdixwwesfq	28	4	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	28	5	822–829	822–829	CD
work_qr32rjxlhnbmjpkggdixwwesfq	28	6	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	29	1	doi:10.1016	doi:10.1016	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	2	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	29	3	j.bbabio.2012.06.103	j.bbabio.2012.06.103	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	4	4P6	4p6	CD
work_qr32rjxlhnbmjpkggdixwwesfq	29	5	Mitochondrial	mitochondrial	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	29	6	carrier	carrier	NN
work_qr32rjxlhnbmjpkggdixwwesfq	29	7	structure	structure	NN
work_qr32rjxlhnbmjpkggdixwwesfq	29	8	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	29	9	diseases	disease	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	29	10	Pierri	Pierri	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	11	Ciro	Ciro	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	12	Leonardo	Leonardo	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	13	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	29	14	Palmieri	Palmieri	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	15	Ferdinando	Ferdinando	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	16	Department	Department	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	17	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	29	18	Biosciences	Biosciences	NNPS
work_qr32rjxlhnbmjpkggdixwwesfq	29	19	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	29	20	Biotechnology	Biotechnology	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	21	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	29	22	Pharmacological	Pharmacological	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	23	Sciences	Sciences	NNPS
work_qr32rjxlhnbmjpkggdixwwesfq	29	24	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	29	25	Laboratory	Laboratory	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	26	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	29	27	Biochemistry	Biochemistry	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	28	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	29	29	Molecular	Molecular	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	30	Biology	Biology	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	31	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	29	32	University	University	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	33	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	29	34	Bari	Bari	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	35	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	29	36	Italy	Italy	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	37	E	E	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	38	-	-	NN
work_qr32rjxlhnbmjpkggdixwwesfq	29	39	mail	mail	NN
work_qr32rjxlhnbmjpkggdixwwesfq	29	40	:	:	:
work_qr32rjxlhnbmjpkggdixwwesfq	29	41	ciroleopierri@gmail.com	ciroleopierri@gmail.com	ADD
work_qr32rjxlhnbmjpkggdixwwesfq	29	42	To	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	29	43	date	date	NN
work_qr32rjxlhnbmjpkggdixwwesfq	29	44	eleven	eleven	CD
work_qr32rjxlhnbmjpkggdixwwesfq	29	45	disorders	disorder	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	29	46	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	29	47	known	know	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	29	48	to	to	TO
work_qr32rjxlhnbmjpkggdixwwesfq	29	49	be	be	VB
work_qr32rjxlhnbmjpkggdixwwesfq	29	50	caused	cause	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	29	51	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	29	52	defects	defect	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	29	53	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	29	54	mito-	mito-	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	55	chondrial	chondrial	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	29	56	carriers	carrier	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	29	57	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	29	58	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	29	59	family	family	NN
work_qr32rjxlhnbmjpkggdixwwesfq	29	60	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	29	61	proteins	protein	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	29	62	that	that	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	29	63	shuttle	shuttle	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	29	64	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	29	65	variety	variety	NN
work_qr32rjxlhnbmjpkggdixwwesfq	29	66	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	29	67	metabolites	metabolite	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	29	68	across	across	IN
work_qr32rjxlhnbmjpkggdixwwesfq	29	69	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	29	70	inner	inner	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	29	71	mitochondrial	mitochondrial	NN
work_qr32rjxlhnbmjpkggdixwwesfq	29	72	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	29	73	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	30	1	Mutations	mutation	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	30	2	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	30	3	mitochondrial	mitochondrial	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	4	carrier	carrier	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	5	genes	gene	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	30	6	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	30	7	responsible	responsible	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	8	for	for	IN
work_qr32rjxlhnbmjpkggdixwwesfq	30	9	carnitine	carnitine	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	10	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	30	11	acylcarnitine	acylcarnitine	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	12	carrier	carrier	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	13	deficien-	deficien-	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	14	cy	cy	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	15	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	30	16	ornithine	ornithine	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	17	carrier	carrier	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	18	deficiency	deficiency	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	19	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	30	20	HHH	HHH	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	21	syndrome	syndrome	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	22	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	30	23	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	30	24	aspartate	aspartate	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	25	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	30	26	glutamate	glutamate	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	27	isoform	isoform	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	28	1	1	CD
work_qr32rjxlhnbmjpkggdixwwesfq	30	29	deficiency	deficiency	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	30	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	30	31	global	global	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	32	cerebral	cerebral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	33	hypomyelination	hypomyelination	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	34	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	30	35	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	30	36	aspartate/	aspartate/	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	37	glutamate	glutamate	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	38	isoform	isoform	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	39	2	2	CD
work_qr32rjxlhnbmjpkggdixwwesfq	30	40	deficiency	deficiency	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	41	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	30	42	CTLN2	ctln2	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	43	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	30	44	NICCD	NICCD	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	45	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	30	46	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	30	47	Amish	amish	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	48	microcephaly	microcephaly	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	49	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	30	50	early	early	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	51	epileptic	epileptic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	52	encephalopathy	encephalopathy	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	53	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	30	54	congenital	congenital	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	55	sideroblastic	sideroblastic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	56	anemia	anemia	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	57	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	30	58	PiC	PiC	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	59	defi-	defi-	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	60	ciency	ciency	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	61	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	30	62	ADP	ADP	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	63	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	30	64	ATP	ATP	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	65	carrier	carrier	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	66	isoform	isoform	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	67	1	1	CD
work_qr32rjxlhnbmjpkggdixwwesfq	30	68	deficiency	deficiency	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	69	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	30	70	neuropathy	neuropathy	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	71	with	with	IN
work_qr32rjxlhnbmjpkggdixwwesfq	30	72	bilateral	bilateral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	73	striatal	striatal	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	74	necrosis	necrosis	NN
work_qr32rjxlhnbmjpkggdixwwesfq	30	75	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	30	76	adPEO	adPEO	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	77	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	30	78	autosomal	autosomal	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	79	dominant	dominant	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	80	progressive	progressive	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	81	external	external	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	30	82	ophthalmoplegia	ophthalmoplegia	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	30	83	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	30	84	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	31	1	Structural	structural	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	31	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	31	3	functional	functional	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	31	4	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	31	5	bioinformatics	bioinformatic	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	31	6	studies	study	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	31	7	have	have	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	31	8	revealed	reveal	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	31	9	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	31	10	existence	existence	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	11	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	31	12	mitochondrial	mitochondrial	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	31	13	carriers	carrier	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	31	14	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	31	15	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	31	16	substrate	substrate	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	17	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	31	18	binding	bind	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	31	19	site	site	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	20	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	31	21	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	31	22	internal	internal	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	31	23	carrier	carrier	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	24	cavity	cavity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	25	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	31	26	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	31	27	two	two	CD
work_qr32rjxlhnbmjpkggdixwwesfq	31	28	gates	gate	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	31	29	that	that	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	31	30	close	close	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	31	31	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	31	32	cavity	cavity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	33	alternatively	alternatively	RB
work_qr32rjxlhnbmjpkggdixwwesfq	31	34	on	on	IN
work_qr32rjxlhnbmjpkggdixwwesfq	31	35	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	31	36	matrix	matrix	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	37	or	or	CC
work_qr32rjxlhnbmjpkggdixwwesfq	31	38	cytosolic	cytosolic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	31	39	side	side	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	40	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	31	41	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	31	42	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	43	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	31	44	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	31	45	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	31	46	two	two	CD
work_qr32rjxlhnbmjpkggdixwwesfq	31	47	sets	set	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	31	48	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	31	49	prolines	proline	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	31	50	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	31	51	glycines	glycine	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	31	52	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	31	53	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	31	54	six	six	CD
work_qr32rjxlhnbmjpkggdixwwesfq	31	55	transmembrane	transmembrane	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	31	56	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	31	57	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	31	58	helices	helix	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	31	59	located	locate	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	31	60	strategically	strategically	RB
work_qr32rjxlhnbmjpkggdixwwesfq	31	61	between	between	IN
work_qr32rjxlhnbmjpkggdixwwesfq	31	62	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	31	63	substrate	substrate	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	64	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	31	65	binding	bind	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	31	66	site	site	NN
work_qr32rjxlhnbmjpkggdixwwesfq	31	67	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	31	68	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	31	69	two	two	CD
work_qr32rjxlhnbmjpkggdixwwesfq	31	70	gates	gate	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	31	71	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	32	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	32	2	key	key	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	32	3	role	role	NN
work_qr32rjxlhnbmjpkggdixwwesfq	32	4	played	play	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	32	5	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	32	6	these	these	DT
work_qr32rjxlhnbmjpkggdixwwesfq	32	7	mitochondrial	mitochondrial	NN
work_qr32rjxlhnbmjpkggdixwwesfq	32	8	carrier	carrier	NN
work_qr32rjxlhnbmjpkggdixwwesfq	32	9	areas	area	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	32	10	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	32	11	supported	support	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	32	12	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	32	13	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	32	14	observation	observation	NN
work_qr32rjxlhnbmjpkggdixwwesfq	32	15	that	that	IN
work_qr32rjxlhnbmjpkggdixwwesfq	32	16	they	-PRON-	PRP
work_qr32rjxlhnbmjpkggdixwwesfq	32	17	host	host	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	32	18	most	most	JJS
work_qr32rjxlhnbmjpkggdixwwesfq	32	19	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	32	20	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	32	21	disease	disease	NN
work_qr32rjxlhnbmjpkggdixwwesfq	32	22	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	32	23	causing	cause	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	32	24	missense	missense	NN
work_qr32rjxlhnbmjpkggdixwwesfq	32	25	mutations	mutation	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	32	26	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	32	27	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	32	28	mitochondrial	mitochondrial	NN
work_qr32rjxlhnbmjpkggdixwwesfq	32	29	carriers	carrier	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	32	30	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	33	1	References	reference	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	33	2	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	33	3	1	1	CD
work_qr32rjxlhnbmjpkggdixwwesfq	33	4	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	33	5	E.	E.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	33	6	Pebay	Pebay	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	33	7	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	33	8	Peyroula	Peyroula	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	33	9	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	33	10	C.	C.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	33	11	Dahout	Dahout	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	33	12	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	33	13	Gonzalez	Gonzalez	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	33	14	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	33	15	R.	R.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	33	16	Kahn	Kahn	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	33	17	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	33	18	V.	V.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	33	19	Trézéguet	Trézéguet	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	33	20	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	33	21	G.J.	G.J.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	34	1	Lauquin	Lauquin	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	34	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	34	3	G.	G.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	34	4	Brandolin	Brandolin	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	34	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	34	6	Nature	nature	NN
work_qr32rjxlhnbmjpkggdixwwesfq	34	7	426	426	CD
work_qr32rjxlhnbmjpkggdixwwesfq	34	8	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	34	9	2003	2003	CD
work_qr32rjxlhnbmjpkggdixwwesfq	34	10	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	34	11	39–44	39–44	CD
work_qr32rjxlhnbmjpkggdixwwesfq	34	12	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	35	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	35	2	2	2	LS
work_qr32rjxlhnbmjpkggdixwwesfq	35	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	35	4	A.J.	A.J.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	36	1	Robinson	Robinson	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	36	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	36	3	E.R.	E.R.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	37	1	Kunji	Kunji	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	37	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	37	3	Proc	Proc	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	37	4	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	38	1	Natl	Natl	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	38	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	39	1	Acad	Acad	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	39	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	40	1	Sci	Sci	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	40	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	41	1	U.	U.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	41	2	S.	S.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	41	3	A.	a.	NN
work_qr32rjxlhnbmjpkggdixwwesfq	42	1	103	103	CD
work_qr32rjxlhnbmjpkggdixwwesfq	42	2	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	42	3	2006	2006	CD
work_qr32rjxlhnbmjpkggdixwwesfq	42	4	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	42	5	2617–2622	2617–2622	CD
work_qr32rjxlhnbmjpkggdixwwesfq	42	6	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	43	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	43	2	3	3	CD
work_qr32rjxlhnbmjpkggdixwwesfq	43	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	43	4	F.	F.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	43	5	Palmieri	Palmieri	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	43	6	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	43	7	Biochim	Biochim	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	43	8	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	44	1	Biophys	Biophys	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	44	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	45	1	Acta	Acta	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	45	2	1777	1777	CD
work_qr32rjxlhnbmjpkggdixwwesfq	45	3	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	45	4	2008	2008	CD
work_qr32rjxlhnbmjpkggdixwwesfq	45	5	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	45	6	564–578	564–578	CD
work_qr32rjxlhnbmjpkggdixwwesfq	45	7	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	46	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	46	2	4	4	CD
work_qr32rjxlhnbmjpkggdixwwesfq	46	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	46	4	F.	F.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	46	5	Palmieri	Palmieri	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	46	6	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	46	7	C.L.	C.L.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	47	1	Pierri	Pierri	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	47	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	47	3	FEBS	FEBS	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	47	4	Lett	Lett	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	47	5	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	48	1	584	584	CD
work_qr32rjxlhnbmjpkggdixwwesfq	48	2	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	48	3	2010	2010	CD
work_qr32rjxlhnbmjpkggdixwwesfq	48	4	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	48	5	1931–1939	1931–1939	CD
work_qr32rjxlhnbmjpkggdixwwesfq	48	6	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	49	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	49	2	5	5	CD
work_qr32rjxlhnbmjpkggdixwwesfq	49	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	49	4	F.	F.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	49	5	Palmieri	Palmieri	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	49	6	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	49	7	Mol	Mol	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	49	8	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	50	1	Aspects	aspect	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	50	2	Med	Med	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	50	3	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	51	1	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	51	2	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	51	3	press	press	NN
work_qr32rjxlhnbmjpkggdixwwesfq	51	4	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	51	5	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	52	1	http://dx.doi.org/	http://dx.doi.org/	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	52	2	10.1016	10.1016	CD
work_qr32rjxlhnbmjpkggdixwwesfq	52	3	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	52	4	j.mam.2012.05.005	j.mam.2012.05.005	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	52	5	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	53	1	doi:10.1016	doi:10.1016	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	2	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	53	3	j.bbabio.2012.06.104	j.bbabio.2012.06.104	CD
work_qr32rjxlhnbmjpkggdixwwesfq	53	4	4P7	4P7	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	5	Insights	insight	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	53	6	into	into	IN
work_qr32rjxlhnbmjpkggdixwwesfq	53	7	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	53	8	mechanism	mechanism	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	9	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	53	10	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	53	11	Na+/Ca2	na+/ca2	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	53	12	+	+	CC
work_qr32rjxlhnbmjpkggdixwwesfq	53	13	exchanger	exchang	JJR
work_qr32rjxlhnbmjpkggdixwwesfq	53	14	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	53	15	atomistic	atomistic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	53	16	molecular	molecular	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	53	17	dynamics	dynamic	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	53	18	simulations	simulation	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	53	19	Fabrizio	Fabrizio	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	20	Marinelli	Marinelli	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	21	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	53	22	José	José	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	23	D.	D.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	24	Faraldo	Faraldo	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	25	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	53	26	Gómez	Gómez	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	27	Theoretical	Theoretical	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	28	Molecular	Molecular	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	29	Biophysics	Biophysics	NNPS
work_qr32rjxlhnbmjpkggdixwwesfq	53	30	Group	Group	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	31	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	53	32	Max	Max	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	33	Planck	Planck	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	34	Institute	Institute	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	35	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	53	36	Biophysics	Biophysics	NNPS
work_qr32rjxlhnbmjpkggdixwwesfq	53	37	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	53	38	Max	Max	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	39	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	53	40	von	von	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	41	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	53	42	Laue	Laue	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	43	Strasse	Strasse	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	44	3	3	CD
work_qr32rjxlhnbmjpkggdixwwesfq	53	45	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	53	46	60437	60437	CD
work_qr32rjxlhnbmjpkggdixwwesfq	53	47	Frankfurt	Frankfurt	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	48	am	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	53	49	Main	Main	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	50	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	53	51	Germany	Germany	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	52	E	E	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	53	-	-	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	54	mail	mail	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	55	:	:	:
work_qr32rjxlhnbmjpkggdixwwesfq	53	56	fabrizio.marinelli@biophys.mpg.de	fabrizio.marinelli@biophys.mpg.de	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	57	Na+/Ca2	na+/ca2	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	58	+	+	CC
work_qr32rjxlhnbmjpkggdixwwesfq	53	59	exchangers	exchanger	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	53	60	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	53	61	NCX	NCX	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	62	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	53	63	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	53	64	potassium	potassium	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	65	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	53	66	dependent	dependent	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	53	67	Na+/	Na+/	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	68	Ca2	ca2	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	69	+	+	CC
work_qr32rjxlhnbmjpkggdixwwesfq	53	70	exchangers	exchanger	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	53	71	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	53	72	NCKX	NCKX	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	73	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	53	74	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	53	75	two	two	CD
work_qr32rjxlhnbmjpkggdixwwesfq	53	76	related	related	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	53	77	families	family	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	53	78	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	53	79	transporters	transporter	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	53	80	involved	involve	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	53	81	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	53	82	Ca2	ca2	CD
work_qr32rjxlhnbmjpkggdixwwesfq	53	83	+	+	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	53	84	signaling	signal	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	53	85	that	that	DT
work_qr32rjxlhnbmjpkggdixwwesfq	53	86	function	function	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	87	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	53	88	extruding	extrude	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	53	89	cytosolic	cytosolic	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	90	Ca2	Ca2	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	91	+	+	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	53	92	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	53	93	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	53	94	K+	K+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	95	for	for	IN
work_qr32rjxlhnbmjpkggdixwwesfq	53	96	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	53	97	potassium	potassium	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	98	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	53	99	dependent	dependent	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	53	100	transporter	transporter	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	101	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	53	102	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	53	103	exchange	exchange	NN
work_qr32rjxlhnbmjpkggdixwwesfq	53	104	for	for	IN
work_qr32rjxlhnbmjpkggdixwwesfq	53	105	extracellular	extracellular	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	53	106	Na+	na+	CC
work_qr32rjxlhnbmjpkggdixwwesfq	53	107	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	53	108	1	1	CD
work_qr32rjxlhnbmjpkggdixwwesfq	53	109	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	53	110	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	54	1	Previous	previous	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	54	2	studies	study	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	54	3	have	have	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	54	4	established	establish	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	54	5	that	that	IN
work_qr32rjxlhnbmjpkggdixwwesfq	54	6	this	this	DT
work_qr32rjxlhnbmjpkggdixwwesfq	54	7	exchange	exchange	NN
work_qr32rjxlhnbmjpkggdixwwesfq	54	8	process	process	NN
work_qr32rjxlhnbmjpkggdixwwesfq	54	9	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	54	10	electrogenic	electrogenic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	54	11	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	54	12	with	with	IN
work_qr32rjxlhnbmjpkggdixwwesfq	54	13	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	54	14	defined	define	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	54	15	stoichiometry	stoichiometry	NN
work_qr32rjxlhnbmjpkggdixwwesfq	54	16	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	54	17	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	54	18	have	have	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	54	19	identified	identify	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	54	20	specific	specific	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	54	21	acidic	acidic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	54	22	aminoacids	aminoacid	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	54	23	believed	believe	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	54	24	to	to	TO
work_qr32rjxlhnbmjpkggdixwwesfq	54	25	be	be	VB
work_qr32rjxlhnbmjpkggdixwwesfq	54	26	crucial	crucial	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	54	27	for	for	IN
work_qr32rjxlhnbmjpkggdixwwesfq	54	28	ion	ion	NN
work_qr32rjxlhnbmjpkggdixwwesfq	54	29	binding	binding	NN
work_qr32rjxlhnbmjpkggdixwwesfq	54	30	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	54	31	translocation	translocation	NN
work_qr32rjxlhnbmjpkggdixwwesfq	54	32	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	54	33	1–3	1–3	CD
work_qr32rjxlhnbmjpkggdixwwesfq	54	34	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	54	35	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	55	1	Recently	recently	RB
work_qr32rjxlhnbmjpkggdixwwesfq	55	2	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	55	3	crystal	crystal	NN
work_qr32rjxlhnbmjpkggdixwwesfq	55	4	structure	structure	NN
work_qr32rjxlhnbmjpkggdixwwesfq	55	5	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	55	6	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	55	7	NCX	NCX	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	55	8	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	55	9	Methanococcus	Methanococcus	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	55	10	jannaschii	jannaschii	NN
work_qr32rjxlhnbmjpkggdixwwesfq	55	11	was	be	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	55	12	determined	determine	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	55	13	at	at	IN
work_qr32rjxlhnbmjpkggdixwwesfq	55	14	1.9	1.9	CD
work_qr32rjxlhnbmjpkggdixwwesfq	55	15	Å	å	NN
work_qr32rjxlhnbmjpkggdixwwesfq	55	16	resolution	resolution	NN
work_qr32rjxlhnbmjpkggdixwwesfq	55	17	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	55	18	4	4	CD
work_qr32rjxlhnbmjpkggdixwwesfq	55	19	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	55	20	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	55	21	revealing	reveal	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	55	22	an	an	DT
work_qr32rjxlhnbmjpkggdixwwesfq	55	23	intriguing	intriguing	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	55	24	transmembrane	transmembrane	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	55	25	topology	topology	NN
work_qr32rjxlhnbmjpkggdixwwesfq	55	26	consisting	consist	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	55	27	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	55	28	inverted	invert	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	55	29	structural	structural	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	55	30	repeats	repeat	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	55	31	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	55	32	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	55	33	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	55	34	presence	presence	NN
work_qr32rjxlhnbmjpkggdixwwesfq	55	35	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	55	36	four	four	CD
work_qr32rjxlhnbmjpkggdixwwesfq	55	37	putative	putative	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	55	38	ion	ion	NN
work_qr32rjxlhnbmjpkggdixwwesfq	55	39	binding	bind	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	55	40	sites	site	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	55	41	formed	form	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	55	42	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	55	43	highly	highly	RB
work_qr32rjxlhnbmjpkggdixwwesfq	55	44	conserved	conserve	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	55	45	residues	residue	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	55	46	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	56	1	Notwithstanding	notwithstanding	IN
work_qr32rjxlhnbmjpkggdixwwesfq	56	2	these	these	DT
work_qr32rjxlhnbmjpkggdixwwesfq	56	3	groundbreaking	groundbreake	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	56	4	insights	insight	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	56	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	56	6	based	base	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	56	7	on	on	IN
work_qr32rjxlhnbmjpkggdixwwesfq	56	8	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	56	9	struc-	struc-	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	56	10	ture	ture	NN
work_qr32rjxlhnbmjpkggdixwwesfq	56	11	alone	alone	RB
work_qr32rjxlhnbmjpkggdixwwesfq	56	12	several	several	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	56	13	ion	ion	NN
work_qr32rjxlhnbmjpkggdixwwesfq	56	14	occupancy	occupancy	NN
work_qr32rjxlhnbmjpkggdixwwesfq	56	15	states	state	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	56	16	can	can	MD
work_qr32rjxlhnbmjpkggdixwwesfq	56	17	be	be	VB
work_qr32rjxlhnbmjpkggdixwwesfq	56	18	hypothesized	hypothesize	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	56	19	that	that	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	56	20	would	would	MD
work_qr32rjxlhnbmjpkggdixwwesfq	56	21	be	be	VB
work_qr32rjxlhnbmjpkggdixwwesfq	56	22	compatible	compatible	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	56	23	with	with	IN
work_qr32rjxlhnbmjpkggdixwwesfq	56	24	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	56	25	experimental	experimental	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	56	26	exchange	exchange	NN
work_qr32rjxlhnbmjpkggdixwwesfq	56	27	stoichiometry	stoichiometry	NN
work_qr32rjxlhnbmjpkggdixwwesfq	56	28	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	57	1	Moreover	moreover	RB
work_qr32rjxlhnbmjpkggdixwwesfq	57	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	57	3	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	57	4	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	57	5	crystal	crystal	NN
work_qr32rjxlhnbmjpkggdixwwesfq	57	6	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	57	7	protein	protein	NN
work_qr32rjxlhnbmjpkggdixwwesfq	57	8	adopts	adopt	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	57	9	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	57	10	unique	unique	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	57	11	outward	outward	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	57	12	facing	face	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	57	13	conformation	conformation	NN
work_qr32rjxlhnbmjpkggdixwwesfq	57	14	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	57	15	which	which	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	57	16	does	do	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	57	17	not	not	RB
work_qr32rjxlhnbmjpkggdixwwesfq	57	18	immediately	immediately	RB
work_qr32rjxlhnbmjpkggdixwwesfq	57	19	explain	explain	VB
work_qr32rjxlhnbmjpkggdixwwesfq	57	20	how	how	WRB
work_qr32rjxlhnbmjpkggdixwwesfq	57	21	ion	ion	NN
work_qr32rjxlhnbmjpkggdixwwesfq	57	22	binding	bind	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	57	23	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	57	24	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	57	25	protein	protein	NN
work_qr32rjxlhnbmjpkggdixwwesfq	57	26	facilitates	facilitate	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	57	27	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	57	28	necessary	necessary	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	57	29	outward	outward	NN
work_qr32rjxlhnbmjpkggdixwwesfq	57	30	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	57	31	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	57	32	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	57	33	inward	inward	RB
work_qr32rjxlhnbmjpkggdixwwesfq	57	34	conforma-	conforma-	XX
work_qr32rjxlhnbmjpkggdixwwesfq	57	35	tional	tional	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	57	36	transition	transition	NN
work_qr32rjxlhnbmjpkggdixwwesfq	57	37	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	58	1	Here	here	RB
work_qr32rjxlhnbmjpkggdixwwesfq	58	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	58	3	we	-PRON-	PRP
work_qr32rjxlhnbmjpkggdixwwesfq	58	4	use	use	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	58	5	extensive	extensive	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	58	6	molecular	molecular	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	58	7	simulations	simulation	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	58	8	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	58	9	molecular	molecular	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	58	10	modeling	modeling	NN
work_qr32rjxlhnbmjpkggdixwwesfq	58	11	to	to	TO
work_qr32rjxlhnbmjpkggdixwwesfq	58	12	investigate	investigate	VB
work_qr32rjxlhnbmjpkggdixwwesfq	58	13	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	58	14	occupancy	occupancy	NN
work_qr32rjxlhnbmjpkggdixwwesfq	58	15	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	58	16	specificity	specificity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	58	17	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	58	18	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	58	19	ion	ion	NN
work_qr32rjxlhnbmjpkggdixwwesfq	58	20	binding	bind	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	58	21	sites	site	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	58	22	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	58	23	NCX_Mj	NCX_Mj	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	58	24	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	58	25	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	58	26	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	58	27	microscopic	microscopic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	58	28	mechanism	mechanism	NN
work_qr32rjxlhnbmjpkggdixwwesfq	58	29	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	58	30	which	which	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	58	31	Na+	na+	NN
work_qr32rjxlhnbmjpkggdixwwesfq	58	32	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	58	33	Ca2	ca2	CD
work_qr32rjxlhnbmjpkggdixwwesfq	58	34	+	+	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	58	35	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	58	36	exchanged	exchange	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	58	37	across	across	IN
work_qr32rjxlhnbmjpkggdixwwesfq	58	38	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	58	39	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	58	40	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	59	1	References	reference	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	59	2	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	59	3	1	1	CD
work_qr32rjxlhnbmjpkggdixwwesfq	59	4	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	59	5	V.	V.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	59	6	Frank	Frank	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	59	7	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	59	8	J.	J.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	59	9	Lytton	Lytton	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	59	10	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	59	11	Physiology	Physiology	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	59	12	22	22	CD
work_qr32rjxlhnbmjpkggdixwwesfq	59	13	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	59	14	2007	2007	CD
work_qr32rjxlhnbmjpkggdixwwesfq	59	15	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	59	16	185–192	185–192	CD
work_qr32rjxlhnbmjpkggdixwwesfq	59	17	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	60	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	60	2	2	2	LS
work_qr32rjxlhnbmjpkggdixwwesfq	60	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	60	4	K.	K.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	60	5	Kang	Kang	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	60	6	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	60	7	T.G.	T.G.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	61	1	Kinjo	Kinjo	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	61	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	61	3	R.T.	R.T.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	61	4	Szerencsei	Szerencsei	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	61	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	61	6	P.P.M.	P.P.M.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	62	1	Schnetkamp	Schnetkamp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	62	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	62	3	J.	J.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	62	4	Biol	Biol	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	62	5	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	63	1	Chem	Chem	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	63	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	64	1	280	280	CD
work_qr32rjxlhnbmjpkggdixwwesfq	64	2	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	64	3	2005	2005	CD
work_qr32rjxlhnbmjpkggdixwwesfq	64	4	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	64	5	6823–6833	6823–6833	CD
work_qr32rjxlhnbmjpkggdixwwesfq	64	6	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	65	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	65	2	3	3	CD
work_qr32rjxlhnbmjpkggdixwwesfq	65	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	65	4	T.M.	T.M.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	66	1	Kang	Kang	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	66	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	66	3	D.W.	D.W.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	66	4	Hilgemann	Hilgemann	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	66	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	66	6	Nature	nature	NN
work_qr32rjxlhnbmjpkggdixwwesfq	66	7	427	427	CD
work_qr32rjxlhnbmjpkggdixwwesfq	66	8	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	66	9	2004	2004	CD
work_qr32rjxlhnbmjpkggdixwwesfq	66	10	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	66	11	544–548	544–548	CD
work_qr32rjxlhnbmjpkggdixwwesfq	66	12	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	67	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	67	2	4	4	CD
work_qr32rjxlhnbmjpkggdixwwesfq	67	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	67	4	J.	J.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	67	5	Liao	Liao	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	67	6	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	67	7	H.	H.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	67	8	Li	Li	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	67	9	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	67	10	W.	W.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	67	11	Zeng	Zeng	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	67	12	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	67	13	D.B.	D.B.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	68	1	Sauer	Sauer	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	68	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	68	3	R.	R.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	68	4	Belmares	Belmares	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	68	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	68	6	Y.	Y.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	68	7	Jiang	Jiang	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	68	8	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	68	9	Science	Science	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	68	10	335	335	CD
work_qr32rjxlhnbmjpkggdixwwesfq	68	11	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	68	12	2012	2012	CD
work_qr32rjxlhnbmjpkggdixwwesfq	68	13	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	68	14	686–690	686–690	CD
work_qr32rjxlhnbmjpkggdixwwesfq	68	15	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	69	1	doi:10.1016	doi:10.1016	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	2	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	69	3	j.bbabio.2012.06.105	j.bbabio.2012.06.105	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	4	4P8	4p8	CD
work_qr32rjxlhnbmjpkggdixwwesfq	69	5	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	69	6	evolutionary	evolutionary	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	69	7	history	history	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	8	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	69	9	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	10	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	69	11	integral	integral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	69	12	pyrophosphatases	pyrophosphatase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	69	13	supports	support	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	69	14	Na+	na+	RB
work_qr32rjxlhnbmjpkggdixwwesfq	69	15	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	69	16	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	69	17	ancestral	ancestral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	69	18	coupling	couple	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	69	19	ion	ion	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	20	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	69	21	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	22	bioenergetics	bioenergetic	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	69	23	Heidi	Heidi	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	24	H.	H.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	25	Luoto1	Luoto1	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	26	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	69	27	Alexander	Alexander	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	28	A.	A.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	29	Baykov2	Baykov2	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	30	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	69	31	Reijo	Reijo	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	32	Lahti1	Lahti1	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	33	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	69	34	Anssi	Anssi	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	35	M.	M.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	36	Malinen1	Malinen1	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	37	1Department	1Department	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	38	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	69	39	Biochemistry	Biochemistry	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	40	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	69	41	Food	Food	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	42	Chemistry	Chemistry	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	43	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	69	44	University	University	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	45	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	69	46	Turku	Turku	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	47	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	69	48	FIN-20014	FIN-20014	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	69	49	Turku	Turku	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	50	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	69	51	Finland	Finland	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	52	Abstracts	Abstracts	NNPS
work_qr32rjxlhnbmjpkggdixwwesfq	69	53	S35	S35	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	54	http://dx.doi.org/10.1016/j.bbabio.2012.06.103	http://dx.doi.org/10.1016/j.bbabio.2012.06.103	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	55	http://dx.doi.org/doi:10.1016/j.mam.2012.05.005	http://dx.doi.org/doi:10.1016/j.mam.2012.05.005	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	56	http://dx.doi.org/doi:10.1016/j.mam.2012.05.005	http://dx.doi.org/doi:10.1016/j.mam.2012.05.005	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	57	http://dx.doi.org/10.1016/j.bbabio.2012.06.104	http://dx.doi.org/10.1016/j.bbabio.2012.06.104	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	58	http://dx.doi.org/10.1016/j.bbabio.2012.06.105	http://dx.doi.org/10.1016/j.bbabio.2012.06.105	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	59	2Belozersky	2Belozersky	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	60	Institute	Institute	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	61	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	69	62	Physico	Physico	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	63	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	69	64	Chemical	Chemical	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	65	Biology	Biology	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	66	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	69	67	Lomonosov	Lomonosov	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	68	Moscow	Moscow	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	69	State	State	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	70	University	University	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	71	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	69	72	Moscow	Moscow	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	73	119899	119899	CD
work_qr32rjxlhnbmjpkggdixwwesfq	69	74	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	69	75	Russia	Russia	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	76	E	E	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	77	-	-	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	78	mail	mail	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	79	:	:	:
work_qr32rjxlhnbmjpkggdixwwesfq	69	80	hhluot@utu.fi	hhluot@utu.fi	CD
work_qr32rjxlhnbmjpkggdixwwesfq	69	81	Membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	82	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	69	83	integral	integral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	69	84	pyrophosphatases	pyrophosphatase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	69	85	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	69	86	mPPases	mppase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	69	87	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	69	88	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	69	89	primary	primary	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	69	90	H+-	H+-	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	91	or	or	CC
work_qr32rjxlhnbmjpkggdixwwesfq	69	92	Na+-ion	Na+-ion	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	69	93	pumps	pump	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	69	94	directly	directly	RB
work_qr32rjxlhnbmjpkggdixwwesfq	69	95	energized	energize	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	69	96	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	69	97	pyrophosphate	pyrophosphate	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	98	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	69	99	an	an	DT
work_qr32rjxlhnbmjpkggdixwwesfq	69	100	abundant	abundant	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	69	101	byproduct	byproduct	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	102	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	69	103	anabolic	anabolic	NN
work_qr32rjxlhnbmjpkggdixwwesfq	69	104	reactions	reaction	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	69	105	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	70	1	mPPases	mppase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	70	2	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	70	3	widespread	widespread	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	70	4	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	70	5	all	all	DT
work_qr32rjxlhnbmjpkggdixwwesfq	70	6	domains	domain	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	70	7	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	70	8	life	life	NN
work_qr32rjxlhnbmjpkggdixwwesfq	70	9	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	70	10	provide	provide	VB
work_qr32rjxlhnbmjpkggdixwwesfq	70	11	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	70	12	host	host	NN
work_qr32rjxlhnbmjpkggdixwwesfq	70	13	necessary	necessary	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	70	14	energy	energy	NN
work_qr32rjxlhnbmjpkggdixwwesfq	70	15	reserves	reserve	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	70	16	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	70	17	particularly	particularly	RB
work_qr32rjxlhnbmjpkggdixwwesfq	70	18	during	during	IN
work_qr32rjxlhnbmjpkggdixwwesfq	70	19	stress	stress	NN
work_qr32rjxlhnbmjpkggdixwwesfq	70	20	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	70	21	low	low	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	70	22	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	70	23	energy	energy	NN
work_qr32rjxlhnbmjpkggdixwwesfq	70	24	conditions	condition	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	70	25	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	71	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	71	2	enzyme	enzyme	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	71	3	holds	hold	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	71	4	promise	promise	NN
work_qr32rjxlhnbmjpkggdixwwesfq	71	5	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	71	6	biotechnology	biotechnology	NN
work_qr32rjxlhnbmjpkggdixwwesfq	71	7	insofar	insofar	RB
work_qr32rjxlhnbmjpkggdixwwesfq	71	8	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	71	9	agricultural	agricultural	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	71	10	plants	plant	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	71	11	that	that	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	71	12	overexpress	overexpress	NN
work_qr32rjxlhnbmjpkggdixwwesfq	71	13	mPPase	mPPase	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	71	14	have	have	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	71	15	salt-	salt-	NN
work_qr32rjxlhnbmjpkggdixwwesfq	71	16	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	71	17	drought	drought	NN
work_qr32rjxlhnbmjpkggdixwwesfq	71	18	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	71	19	tolerant	tolerant	NN
work_qr32rjxlhnbmjpkggdixwwesfq	71	20	phenotypes	phenotype	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	71	21	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	72	1	Recent	recent	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	72	2	work	work	NN
work_qr32rjxlhnbmjpkggdixwwesfq	72	3	has	have	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	72	4	uncovered	uncover	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	72	5	significant	significant	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	72	6	functional	functional	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	72	7	divergence	divergence	NN
work_qr32rjxlhnbmjpkggdixwwesfq	72	8	among	among	IN
work_qr32rjxlhnbmjpkggdixwwesfq	72	9	members	member	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	72	10	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	72	11	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	72	12	mPPase	mPPase	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	72	13	protein	protein	NN
work_qr32rjxlhnbmjpkggdixwwesfq	72	14	family	family	NN
work_qr32rjxlhnbmjpkggdixwwesfq	72	15	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	73	1	Notably	notably	RB
work_qr32rjxlhnbmjpkggdixwwesfq	73	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	73	3	mPPases	mppase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	73	4	differ	differ	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	73	5	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	73	6	pumping	pump	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	73	7	specificity	specificity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	73	8	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	73	9	sensitivity	sensitivity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	73	10	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	73	11	K+	K+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	73	12	ions	ion	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	73	13	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	73	14	1,2	1,2	CD
work_qr32rjxlhnbmjpkggdixwwesfq	73	15	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	73	16	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	74	1	All	all	DT
work_qr32rjxlhnbmjpkggdixwwesfq	74	2	K+-	K+-	NNPS
work_qr32rjxlhnbmjpkggdixwwesfq	74	3	independent	independent	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	74	4	mPPases	mppase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	74	5	operate	operate	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	74	6	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	74	7	H+-pumps	h+-pump	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	74	8	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	74	9	whereas	whereas	IN
work_qr32rjxlhnbmjpkggdixwwesfq	74	10	most	most	JJS
work_qr32rjxlhnbmjpkggdixwwesfq	74	11	K+-	K+-	NNPS
work_qr32rjxlhnbmjpkggdixwwesfq	74	12	dependent	dependent	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	74	13	mPPases	mppase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	74	14	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	74	15	primary	primary	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	74	16	Na+-pumps	Na+-pumps	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	74	17	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	75	1	However	however	RB
work_qr32rjxlhnbmjpkggdixwwesfq	75	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	75	3	several	several	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	75	4	types	type	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	75	5	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	75	6	K+-dependent	k+-dependent	NN
work_qr32rjxlhnbmjpkggdixwwesfq	75	7	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	75	8	H+-pumping	h+-pumping	NN
work_qr32rjxlhnbmjpkggdixwwesfq	75	9	mPPases	mppase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	75	10	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	75	11	known	know	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	75	12	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	76	1	One	one	CD
work_qr32rjxlhnbmjpkggdixwwesfq	76	2	particular	particular	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	76	3	mechanism	mechanism	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	4	that	that	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	76	5	allows	allow	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	76	6	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	76	7	change	change	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	8	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	76	9	transport	transport	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	10	specificity	specificity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	11	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	76	12	Na+	na+	CC
work_qr32rjxlhnbmjpkggdixwwesfq	76	13	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	76	14	H+	h+	ADD
work_qr32rjxlhnbmjpkggdixwwesfq	76	15	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	76	16	spatial	spatial	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	76	17	repositioning	repositioning	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	18	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	76	19	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	76	20	glutamate	glutamate	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	21	residue	residue	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	22	that	that	IN
work_qr32rjxlhnbmjpkggdixwwesfq	76	23	forms	form	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	76	24	part	part	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	25	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	76	26	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	76	27	cytoplasmic	cytoplasmic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	76	28	gate	gate	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	29	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	76	30	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	76	31	ion	ion	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	32	transport	transport	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	33	channel	channel	NN
work_qr32rjxlhnbmjpkggdixwwesfq	76	34	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	76	35	3	3	CD
work_qr32rjxlhnbmjpkggdixwwesfq	76	36	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	76	37	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	77	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	77	2	reconstructed	reconstructed	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	77	3	evolutionary	evolutionary	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	77	4	history	history	NN
work_qr32rjxlhnbmjpkggdixwwesfq	77	5	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	77	6	mPPases	mppase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	77	7	suggests	suggest	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	77	8	that	that	IN
work_qr32rjxlhnbmjpkggdixwwesfq	77	9	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	77	10	ancestral	ancestral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	77	11	enzyme	enzyme	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	77	12	operated	operate	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	77	13	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	77	14	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	77	15	Na+-pump	Na+-pump	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	77	16	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	77	17	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	77	18	transition	transition	NN
work_qr32rjxlhnbmjpkggdixwwesfq	77	19	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	77	20	H+-pumping	h+-pumping	NN
work_qr32rjxlhnbmjpkggdixwwesfq	77	21	occurred	occur	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	77	22	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	77	23	several	several	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	77	24	independent	independent	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	77	25	enzyme	enzyme	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	77	26	lineages	lineage	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	77	27	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	77	28	3	3	CD
work_qr32rjxlhnbmjpkggdixwwesfq	77	29	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	77	30	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	78	1	These	these	DT
work_qr32rjxlhnbmjpkggdixwwesfq	78	2	data	datum	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	78	3	lend	lend	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	78	4	support	support	NN
work_qr32rjxlhnbmjpkggdixwwesfq	78	5	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	78	6	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	78	7	hypothesis	hypothesis	NN
work_qr32rjxlhnbmjpkggdixwwesfq	78	8	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	78	9	primordial	primordial	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	78	10	Na+-based	Na+-based	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	78	11	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	78	12	bioenergetics	bioenergetic	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	78	13	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	78	14	4	4	CD
work_qr32rjxlhnbmjpkggdixwwesfq	78	15	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	78	16	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	79	1	Na+-	Na+-	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	79	2	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	79	3	H+-pumping	h+-pumping	NN
work_qr32rjxlhnbmjpkggdixwwesfq	79	4	mPPases	mppase	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	79	5	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	79	6	structurally	structurally	RB
work_qr32rjxlhnbmjpkggdixwwesfq	79	7	very	very	RB
work_qr32rjxlhnbmjpkggdixwwesfq	79	8	similar	similar	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	79	9	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	79	10	5	5	CD
work_qr32rjxlhnbmjpkggdixwwesfq	79	11	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	79	12	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	79	13	supporting	support	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	79	14	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	79	15	concept	concept	NN
work_qr32rjxlhnbmjpkggdixwwesfq	79	16	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	79	17	first	first	RB
work_qr32rjxlhnbmjpkggdixwwesfq	79	18	proposed	propose	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	79	19	for	for	IN
work_qr32rjxlhnbmjpkggdixwwesfq	79	20	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	79	21	rotating	rotate	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	79	22	ATP	atp	NN
work_qr32rjxlhnbmjpkggdixwwesfq	79	23	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	79	24	synthase	synthase	NN
work_qr32rjxlhnbmjpkggdixwwesfq	79	25	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	79	26	ATPase	ATPase	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	79	27	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	79	28	that	that	IN
work_qr32rjxlhnbmjpkggdixwwesfq	79	29	switching	switch	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	79	30	between	between	IN
work_qr32rjxlhnbmjpkggdixwwesfq	79	31	Na+	Na+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	79	32	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	79	33	H+	H+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	79	34	transport	transport	NN
work_qr32rjxlhnbmjpkggdixwwesfq	79	35	specificities	specificity	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	79	36	requires	require	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	79	37	only	only	RB
work_qr32rjxlhnbmjpkggdixwwesfq	79	38	subtle	subtle	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	79	39	changes	change	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	79	40	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	79	41	structure	structure	NN
work_qr32rjxlhnbmjpkggdixwwesfq	79	42	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	79	43	4	4	CD
work_qr32rjxlhnbmjpkggdixwwesfq	79	44	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	79	45	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	80	1	References	reference	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	80	2	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	80	3	1	1	CD
work_qr32rjxlhnbmjpkggdixwwesfq	80	4	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	80	5	G.A.	G.A.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	81	1	Belogurov	Belogurov	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	81	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	81	3	R.	R.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	81	4	Lahti	Lahti	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	81	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	81	6	J.	J.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	81	7	Biol	Biol	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	81	8	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	82	1	Chem	Chem	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	82	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	83	1	277	277	CD
work_qr32rjxlhnbmjpkggdixwwesfq	83	2	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	83	3	2002	2002	CD
work_qr32rjxlhnbmjpkggdixwwesfq	83	4	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	83	5	49651–49654	49651–49654	CD
work_qr32rjxlhnbmjpkggdixwwesfq	83	6	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	84	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	84	2	2	2	LS
work_qr32rjxlhnbmjpkggdixwwesfq	84	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	84	4	A.M.	A.M.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	84	5	Malinen	Malinen	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	84	6	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	84	7	G.A.	G.A.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	85	1	Belogurov	Belogurov	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	85	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	85	3	A.A.	A.A.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	85	4	Baykov	Baykov	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	85	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	85	6	R.	R.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	85	7	Lahti	Lahti	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	85	8	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	85	9	Biochemistry	Biochemistry	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	85	10	46	46	CD
work_qr32rjxlhnbmjpkggdixwwesfq	85	11	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	85	12	2007	2007	CD
work_qr32rjxlhnbmjpkggdixwwesfq	85	13	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	85	14	8872–8878	8872–8878	CD
work_qr32rjxlhnbmjpkggdixwwesfq	85	15	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	86	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	86	2	3	3	CD
work_qr32rjxlhnbmjpkggdixwwesfq	86	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	86	4	H.H.	H.H.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	87	1	Luoto	Luoto	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	87	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	87	3	G.A.	G.A.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	88	1	Belogurov	Belogurov	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	88	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	88	3	A.A.	A.A.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	88	4	Baykov	Baykov	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	88	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	88	6	R.	R.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	88	7	Lahti	Lahti	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	88	8	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	88	9	A.M.	A.M.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	88	10	Malinen	Malinen	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	88	11	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	88	12	J.	J.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	88	13	Biol	Biol	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	88	14	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	89	1	Chem	Chem	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	89	2	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	90	1	286	286	CD
work_qr32rjxlhnbmjpkggdixwwesfq	90	2	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	90	3	2011	2011	CD
work_qr32rjxlhnbmjpkggdixwwesfq	90	4	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	90	5	21633–21642	21633–21642	CD
work_qr32rjxlhnbmjpkggdixwwesfq	90	6	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	91	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	91	2	4	4	CD
work_qr32rjxlhnbmjpkggdixwwesfq	91	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	91	4	A.Y.	A.Y.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	92	1	Mulkidjanian	Mulkidjanian	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	92	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	92	3	M.Y.	M.Y.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	93	1	Galperin	Galperin	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	93	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	93	3	K.S.	K.S.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	94	1	Makarova	Makarova	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	94	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	94	3	Y.I.	Y.I.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	95	1	Wolf	Wolf	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	95	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	95	3	E.V.	E.V.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	96	1	Koonin	Koonin	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	96	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	96	3	Biol	Biol	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	96	4	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	97	1	Direct	direct	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	97	2	3	3	CD
work_qr32rjxlhnbmjpkggdixwwesfq	97	3	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	97	4	2008	2008	CD
work_qr32rjxlhnbmjpkggdixwwesfq	97	5	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	97	6	13	13	CD
work_qr32rjxlhnbmjpkggdixwwesfq	97	7	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	98	1	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	98	2	5	5	CD
work_qr32rjxlhnbmjpkggdixwwesfq	98	3	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	98	4	S.M.	S.M.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	99	1	Lin	Lin	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	99	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	99	3	J.Y.	J.Y.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	100	1	Tsai	Tsai	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	100	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	100	3	C.D.	C.D.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	101	1	Hsiao	Hsiao	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	101	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	101	3	Y.T.	Y.T.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	102	1	Huang	Huang	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	102	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	102	3	C.L.	C.L.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	103	1	Chiu	Chiu	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	103	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	103	3	M.H.	M.H.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	104	1	Liu	Liu	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	104	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	104	3	J.Y.	J.Y.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	105	1	Tung	Tung	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	105	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	105	3	T.H.	T.H.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	106	1	Liu	Liu	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	106	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	106	3	R.L.	R.L.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	107	1	Pan	Pan	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	107	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	107	3	Y.J.	Y.J.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	108	1	Sun	Sun	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	108	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	108	3	Nature	nature	NN
work_qr32rjxlhnbmjpkggdixwwesfq	108	4	484	484	CD
work_qr32rjxlhnbmjpkggdixwwesfq	108	5	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	108	6	2012	2012	CD
work_qr32rjxlhnbmjpkggdixwwesfq	108	7	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	108	8	399–403	399–403	CD
work_qr32rjxlhnbmjpkggdixwwesfq	108	9	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	109	1	doi:10.1016	doi:10.1016	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	2	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	109	3	j.bbabio.2012.06.106	j.bbabio.2012.06.106	CD
work_qr32rjxlhnbmjpkggdixwwesfq	109	4	4P9	4p9	CD
work_qr32rjxlhnbmjpkggdixwwesfq	109	5	Characterization	characterization	NN
work_qr32rjxlhnbmjpkggdixwwesfq	109	6	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	109	7	purification	purification	NN
work_qr32rjxlhnbmjpkggdixwwesfq	109	8	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	109	9	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	109	10	multi	multi	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	11	subunit	subunit	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	12	type	type	NN
work_qr32rjxlhnbmjpkggdixwwesfq	109	13	Na+/H+	Na+/H+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	14	antiporter	antiporter	RBR
work_qr32rjxlhnbmjpkggdixwwesfq	109	15	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	109	16	alkaliphilic	alkaliphilic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	109	17	Bacillus	bacillus	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	109	18	pseudofirmus	pseudofirmus	NN
work_qr32rjxlhnbmjpkggdixwwesfq	109	19	OF4	OF4	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	20	Masato	Masato	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	21	Morino1,2	Morino1,2	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	109	22	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	23	Toshiharu	Toshiharu	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	24	Suzuki3	Suzuki3	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	25	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	26	Masahiro	Masahiro	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	27	Ito1	Ito1	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	28	1Graduate	1Graduate	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	29	School	School	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	30	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	109	31	Life	Life	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	32	Sciences	Sciences	NNPS
work_qr32rjxlhnbmjpkggdixwwesfq	109	33	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	34	Toyo	Toyo	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	35	University	University	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	36	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	37	Oura	Oura	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	38	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	109	39	gun	gun	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	40	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	41	Gunma	Gunma	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	42	374	374	CD
work_qr32rjxlhnbmjpkggdixwwesfq	109	43	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	109	44	0193	0193	CD
work_qr32rjxlhnbmjpkggdixwwesfq	109	45	Japan	Japan	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	46	2Department	2department	CD
work_qr32rjxlhnbmjpkggdixwwesfq	109	47	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	109	48	Pharmacology	Pharmacology	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	49	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	109	50	Systems	Systems	NNPS
work_qr32rjxlhnbmjpkggdixwwesfq	109	51	Therapeutics	Therapeutics	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	52	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	53	Mount	Mount	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	54	Sinai	Sinai	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	55	School	School	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	56	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	109	57	Medicine	Medicine	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	58	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	59	New	New	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	60	York	York	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	61	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	62	NY	NY	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	63	10029	10029	CD
work_qr32rjxlhnbmjpkggdixwwesfq	109	64	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	65	USA	USA	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	66	3JST	3JST	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	67	ICORP	ICORP	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	68	ATP	ATP	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	69	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	70	Japan	Japan	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	71	E	E	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	72	-	-	NN
work_qr32rjxlhnbmjpkggdixwwesfq	109	73	mail	mail	NN
work_qr32rjxlhnbmjpkggdixwwesfq	109	74	:	:	:
work_qr32rjxlhnbmjpkggdixwwesfq	109	75	masahiro.ito@toyo.jp	masahiro.ito@toyo.jp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	76	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	77	antiporters	antiporter	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	109	78	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	109	79	monovalent	monovalent	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	109	80	cation	cation	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	81	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	109	82	proton	proton	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	83	antiporters	antiporter	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	109	84	which	which	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	109	85	exchange	exchange	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	109	86	cytoplasmic	cytoplasmic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	109	87	Na+	na+	RB
work_qr32rjxlhnbmjpkggdixwwesfq	109	88	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	109	89	Li+	Li+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	90	and/or	and/or	CC
work_qr32rjxlhnbmjpkggdixwwesfq	109	91	K+	K+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	92	ions	ion	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	109	93	for	for	IN
work_qr32rjxlhnbmjpkggdixwwesfq	109	94	extracellular	extracellular	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	95	H+	H+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	109	96	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	110	1	They	-PRON-	PRP
work_qr32rjxlhnbmjpkggdixwwesfq	110	2	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	110	3	widespread	widespread	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	110	4	among	among	IN
work_qr32rjxlhnbmjpkggdixwwesfq	110	5	bacteria	bacteria	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	110	6	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	110	7	archaea	archaea	NN
work_qr32rjxlhnbmjpkggdixwwesfq	110	8	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	111	1	Mrp	mrp	NN
work_qr32rjxlhnbmjpkggdixwwesfq	111	2	antiporters	antiporter	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	111	3	have	have	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	111	4	seven	seven	CD
work_qr32rjxlhnbmjpkggdixwwesfq	111	5	or	or	CC
work_qr32rjxlhnbmjpkggdixwwesfq	111	6	six	six	CD
work_qr32rjxlhnbmjpkggdixwwesfq	111	7	hydrophobic	hydrophobic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	111	8	proteins	protein	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	111	9	that	that	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	111	10	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	111	11	encoded	encode	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	111	12	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	111	13	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	111	14	mrp	mrp	NN
work_qr32rjxlhnbmjpkggdixwwesfq	111	15	operons	operon	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	111	16	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	111	17	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	111	18	contrast	contrast	NN
work_qr32rjxlhnbmjpkggdixwwesfq	111	19	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	111	20	most	most	JJS
work_qr32rjxlhnbmjpkggdixwwesfq	111	21	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	111	22	bacterial	bacterial	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	111	23	Na+/H+	Na+/H+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	111	24	antiporters	antiporter	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	111	25	which	which	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	111	26	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	111	27	single	single	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	111	28	gene	gene	NN
work_qr32rjxlhnbmjpkggdixwwesfq	111	29	products	product	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	111	30	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	112	1	Interestingly	interestingly	RB
work_qr32rjxlhnbmjpkggdixwwesfq	112	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	112	3	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	112	4	entire	entire	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	112	5	Na+/H+	na+/h+	CD
work_qr32rjxlhnbmjpkggdixwwesfq	112	6	antiport	antiport	NN
work_qr32rjxlhnbmjpkggdixwwesfq	112	7	activity	activity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	112	8	requires	require	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	112	9	all	all	DT
work_qr32rjxlhnbmjpkggdixwwesfq	112	10	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	112	11	these	these	DT
work_qr32rjxlhnbmjpkggdixwwesfq	112	12	proteins	protein	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	112	13	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	112	14	suggesting	suggest	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	112	15	that	that	IN
work_qr32rjxlhnbmjpkggdixwwesfq	112	16	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	112	17	antiporters	antiporter	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	112	18	function	function	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	112	19	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	112	20	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	112	21	hetero	hetero	NN
work_qr32rjxlhnbmjpkggdixwwesfq	112	22	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	112	23	oligomeric	oligomeric	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	112	24	protein	protein	NN
work_qr32rjxlhnbmjpkggdixwwesfq	112	25	complex	complex	NN
work_qr32rjxlhnbmjpkggdixwwesfq	112	26	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	112	27	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	112	28	cytoplasmic	cytoplasmic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	112	29	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	112	30	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	113	1	Purification	Purification	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	113	2	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	113	3	functional	functional	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	113	4	reconstitution	reconstitution	NN
work_qr32rjxlhnbmjpkggdixwwesfq	113	5	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	113	6	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	113	7	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	113	8	antiporter	antiporter	NN
work_qr32rjxlhnbmjpkggdixwwesfq	113	9	have	have	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	113	10	not	not	RB
work_qr32rjxlhnbmjpkggdixwwesfq	113	11	been	be	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	113	12	reported	report	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	113	13	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	114	1	Therefore	therefore	RB
work_qr32rjxlhnbmjpkggdixwwesfq	114	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	114	3	we	-PRON-	PRP
work_qr32rjxlhnbmjpkggdixwwesfq	114	4	purified	purify	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	114	5	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	114	6	recon-	recon-	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	114	7	stituted	stitute	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	114	8	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	114	9	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	114	10	antiporter	antiporter	NN
work_qr32rjxlhnbmjpkggdixwwesfq	114	11	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	114	12	alkaliphilic	alkaliphilic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	114	13	Bacillus	bacillus	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	114	14	pseudofirmus	pseudofirmus	NN
work_qr32rjxlhnbmjpkggdixwwesfq	114	15	OF4	OF4	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	114	16	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	114	17	because	because	IN
work_qr32rjxlhnbmjpkggdixwwesfq	114	18	purification	purification	NN
work_qr32rjxlhnbmjpkggdixwwesfq	114	19	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	114	20	target	target	NN
work_qr32rjxlhnbmjpkggdixwwesfq	114	21	proteins	protein	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	114	22	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	114	23	their	-PRON-	PRP$
work_qr32rjxlhnbmjpkggdixwwesfq	114	24	complex	complex	NN
work_qr32rjxlhnbmjpkggdixwwesfq	114	25	with	with	IN
work_qr32rjxlhnbmjpkggdixwwesfq	114	26	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	114	27	native	native	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	114	28	conformation	conformation	NN
work_qr32rjxlhnbmjpkggdixwwesfq	114	29	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	114	30	required	require	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	114	31	for	for	IN
work_qr32rjxlhnbmjpkggdixwwesfq	114	32	further	further	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	114	33	functional	functional	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	114	34	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	114	35	struc-	struc-	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	114	36	tural	tural	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	114	37	research	research	NN
work_qr32rjxlhnbmjpkggdixwwesfq	114	38	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	115	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	115	2	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	115	3	antiporter	antiporter	NN
work_qr32rjxlhnbmjpkggdixwwesfq	115	4	expressed	express	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	115	5	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	115	6	major	major	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	115	7	Cation	Cation	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	115	8	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	115	9	H+	H+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	115	10	antiporter	antiporter	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	115	11	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	115	12	defective	defective	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	115	13	Escherichia	Escherichia	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	115	14	coli	coli	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	115	15	strain	strain	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	115	16	KNabc	KNabc	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	115	17	cells	cell	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	115	18	was	be	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	115	19	purified	purify	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	115	20	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	115	21	immobilized	immobilized	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	115	22	metal	metal	NN
work_qr32rjxlhnbmjpkggdixwwesfq	115	23	ion	ion	NN
work_qr32rjxlhnbmjpkggdixwwesfq	115	24	adsorption	adsorption	NN
work_qr32rjxlhnbmjpkggdixwwesfq	115	25	chromatography	chromatography	NN
work_qr32rjxlhnbmjpkggdixwwesfq	115	26	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	115	27	IMAC	IMAC	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	115	28	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	115	29	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	116	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	116	2	purified	purified	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	116	3	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	116	4	samples	sample	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	116	5	were	be	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	116	6	reconstituted	reconstitute	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	116	7	into	into	IN
work_qr32rjxlhnbmjpkggdixwwesfq	116	8	artificial	artificial	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	116	9	mem-	mem-	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	116	10	brane	brane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	116	11	vesicles	vesicle	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	116	12	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	116	13	liposomes	liposome	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	116	14	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	116	15	with	with	IN
work_qr32rjxlhnbmjpkggdixwwesfq	116	16	FoF1-ATPase	fof1-atpase	NN
work_qr32rjxlhnbmjpkggdixwwesfq	116	17	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	116	18	Bacillus	Bacillus	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	116	19	sp	sp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	116	20	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	117	1	PS3	ps3	NN
work_qr32rjxlhnbmjpkggdixwwesfq	117	2	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	117	3	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	117	4	“	"	``
work_qr32rjxlhnbmjpkggdixwwesfq	117	5	power	power	NN
work_qr32rjxlhnbmjpkggdixwwesfq	117	6	supply	supply	NN
work_qr32rjxlhnbmjpkggdixwwesfq	117	7	”	"	''
work_qr32rjxlhnbmjpkggdixwwesfq	117	8	to	to	TO
work_qr32rjxlhnbmjpkggdixwwesfq	117	9	generate	generate	VB
work_qr32rjxlhnbmjpkggdixwwesfq	117	10	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	117	11	proton	proton	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	117	12	motive	motive	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	117	13	force	force	NN
work_qr32rjxlhnbmjpkggdixwwesfq	117	14	required	require	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	117	15	for	for	IN
work_qr32rjxlhnbmjpkggdixwwesfq	117	16	activation	activation	NN
work_qr32rjxlhnbmjpkggdixwwesfq	117	17	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	117	18	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	117	19	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	117	20	antiporter	antiporter	NN
work_qr32rjxlhnbmjpkggdixwwesfq	117	21	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	118	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	118	2	Na+/H+	na+/h+	CD
work_qr32rjxlhnbmjpkggdixwwesfq	118	3	antiport	antiport	NN
work_qr32rjxlhnbmjpkggdixwwesfq	118	4	activity	activity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	118	5	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	118	6	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	118	7	purified	purify	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	118	8	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	118	9	antiporter	antiporter	NN
work_qr32rjxlhnbmjpkggdixwwesfq	118	10	was	be	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	118	11	measured	measure	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	118	12	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	118	13	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	118	14	constructed	construct	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	118	15	proteoliposomes	proteoliposome	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	118	16	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	118	17	protein	protein	NN
work_qr32rjxlhnbmjpkggdixwwesfq	118	18	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	118	19	inserted	insert	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	118	20	liposomes	liposome	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	118	21	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	118	22	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	119	1	Using	use	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	119	2	TALON	TALON	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	119	3	resin	resin	NN
work_qr32rjxlhnbmjpkggdixwwesfq	119	4	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	119	5	all	all	DT
work_qr32rjxlhnbmjpkggdixwwesfq	119	6	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	119	7	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	119	8	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	119	9	subunits	subunit	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	119	10	could	could	MD
work_qr32rjxlhnbmjpkggdixwwesfq	119	11	be	be	VB
work_qr32rjxlhnbmjpkggdixwwesfq	119	12	purified	purify	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	119	13	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	119	14	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	119	15	E.	E.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	119	16	coli	coli	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	119	17	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	119	18	fraction	fraction	NN
work_qr32rjxlhnbmjpkggdixwwesfq	119	19	expressing	express	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	119	20	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	119	21	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	119	22	antiporter	antiporter	NN
work_qr32rjxlhnbmjpkggdixwwesfq	119	23	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	119	24	seemed	seem	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	119	25	to	to	TO
work_qr32rjxlhnbmjpkggdixwwesfq	119	26	be	be	VB
work_qr32rjxlhnbmjpkggdixwwesfq	119	27	present	present	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	119	28	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	119	29	predominantly	predominantly	RB
work_qr32rjxlhnbmjpkggdixwwesfq	119	30	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	119	31	MrpABCDEFG	MrpABCDEFG	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	119	32	complex	complex	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	119	33	dimer	dimer	NN
work_qr32rjxlhnbmjpkggdixwwesfq	119	34	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	120	1	Apparent	apparent	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	120	2	Na+/H+	Na+/H+	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	120	3	antiport	antiport	NN
work_qr32rjxlhnbmjpkggdixwwesfq	120	4	activity	activity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	120	5	was	be	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	120	6	observed	observe	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	120	7	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	120	8	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	120	9	proteoliposomes	proteoliposome	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	120	10	into	into	IN
work_qr32rjxlhnbmjpkggdixwwesfq	120	11	which	which	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	120	12	purified	purify	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	120	13	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	120	14	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	120	15	FoF1-ATPase	FoF1-ATPase	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	120	16	were	be	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	120	17	reconstituted	reconstitute	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	120	18	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	121	1	After	after	IN
work_qr32rjxlhnbmjpkggdixwwesfq	121	2	elution	elution	NN
work_qr32rjxlhnbmjpkggdixwwesfq	121	3	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	121	4	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	121	5	proteins	protein	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	121	6	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	121	7	they	-PRON-	PRP
work_qr32rjxlhnbmjpkggdixwwesfq	121	8	remained	remain	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	121	9	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	121	10	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	121	11	complexes	complex	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	121	12	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	121	13	most	most	JJS
work_qr32rjxlhnbmjpkggdixwwesfq	121	14	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	121	15	which	which	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	121	16	were	be	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	121	17	present	present	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	121	18	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	121	19	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	121	20	MrpABCDEFG	MrpABCDEFG	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	121	21	complex	complex	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	121	22	dimer	dimer	NN
work_qr32rjxlhnbmjpkggdixwwesfq	121	23	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	122	1	This	this	DT
work_qr32rjxlhnbmjpkggdixwwesfq	122	2	suggested	suggest	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	122	3	that	that	IN
work_qr32rjxlhnbmjpkggdixwwesfq	122	4	MrpABCDEFG	MrpABCDEFG	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	122	5	complexes	complex	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	122	6	detectable	detectable	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	122	7	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	122	8	BN	BN	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	122	9	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	122	10	PAGE	PAGE	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	122	11	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	122	12	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	122	13	active	active	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	122	14	forms	form	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	122	15	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	123	1	It	-PRON-	PRP
work_qr32rjxlhnbmjpkggdixwwesfq	123	2	was	be	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	123	3	also	also	RB
work_qr32rjxlhnbmjpkggdixwwesfq	123	4	speculated	speculate	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	123	5	that	that	IN
work_qr32rjxlhnbmjpkggdixwwesfq	123	6	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	123	7	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	123	8	complex	complex	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	123	9	dimer	dimer	NN
work_qr32rjxlhnbmjpkggdixwwesfq	123	10	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	123	11	more	more	RBR
work_qr32rjxlhnbmjpkggdixwwesfq	123	12	stable	stable	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	123	13	than	than	IN
work_qr32rjxlhnbmjpkggdixwwesfq	123	14	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	123	15	complex	complex	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	123	16	monomer	monomer	NN
work_qr32rjxlhnbmjpkggdixwwesfq	123	17	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	124	1	This	this	DT
work_qr32rjxlhnbmjpkggdixwwesfq	124	2	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	124	3	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	124	4	first	first	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	124	5	report	report	NN
work_qr32rjxlhnbmjpkggdixwwesfq	124	6	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	124	7	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	124	8	purification	purification	NN
work_qr32rjxlhnbmjpkggdixwwesfq	124	9	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	124	10	functional	functional	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	124	11	reconstitution	reconstitution	NN
work_qr32rjxlhnbmjpkggdixwwesfq	124	12	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	124	13	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	124	14	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	124	15	antiporter	antiporter	NN
work_qr32rjxlhnbmjpkggdixwwesfq	124	16	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	125	1	Reference	reference	NN
work_qr32rjxlhnbmjpkggdixwwesfq	125	2	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	125	3	1	1	CD
work_qr32rjxlhnbmjpkggdixwwesfq	125	4	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	125	5	T.H.	T.H.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	126	1	Swartz	Swartz	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	126	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	126	3	S.	S.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	126	4	Ikewada	Ikewada	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	126	5	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	126	6	O.	O.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	126	7	Ishikawa	Ishikawa	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	126	8	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	126	9	M.	M.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	126	10	Ito	Ito	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	126	11	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	126	12	T.A.	T.A.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	127	1	Krulwich	Krulwich	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	127	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	127	3	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	127	4	Mrp	Mrp	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	127	5	system	system	NN
work_qr32rjxlhnbmjpkggdixwwesfq	127	6	:	:	:
work_qr32rjxlhnbmjpkggdixwwesfq	127	7	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	127	8	giant	giant	NN
work_qr32rjxlhnbmjpkggdixwwesfq	127	9	among	among	IN
work_qr32rjxlhnbmjpkggdixwwesfq	127	10	monovalent	monovalent	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	127	11	cation	cation	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	127	12	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	127	13	proton	proton	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	127	14	antiporters	antiporter	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	127	15	?	?	.
work_qr32rjxlhnbmjpkggdixwwesfq	128	1	Extremophiles	Extremophiles	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	128	2	9	9	CD
work_qr32rjxlhnbmjpkggdixwwesfq	128	3	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	128	4	2005	2005	CD
work_qr32rjxlhnbmjpkggdixwwesfq	128	5	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	128	6	345–354	345–354	CD
work_qr32rjxlhnbmjpkggdixwwesfq	128	7	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	129	1	doi:10.1016	doi:10.1016	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	129	2	/	/	SYM
work_qr32rjxlhnbmjpkggdixwwesfq	129	3	j.bbabio.2012.06.107	j.bbabio.2012.06.107	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	129	4	4P10	4p10	CD
work_qr32rjxlhnbmjpkggdixwwesfq	129	5	Crystal	Crystal	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	129	6	structure	structure	NN
work_qr32rjxlhnbmjpkggdixwwesfq	129	7	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	129	8	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	129	9	heterotrimeric	heterotrimeric	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	129	10	EGChead	EGChead	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	129	11	complex	complex	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	129	12	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	129	13	yeast	yeast	NN
work_qr32rjxlhnbmjpkggdixwwesfq	129	14	vacuolar	vacuolar	NN
work_qr32rjxlhnbmjpkggdixwwesfq	129	15	ATPase	ATPase	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	129	16	R.A.	R.A.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	129	17	Oot	Oot	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	129	18	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	129	19	L.S.	L.S.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	130	1	Huang	Huang	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	130	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	130	3	E.A.	E.A.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	1	Berry	Berry	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	131	3	S.	S.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	4	Wilkens	Wilkens	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	5	Department	Department	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	6	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	131	7	Biochemistry	Biochemistry	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	8	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	131	9	Molecular	Molecular	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	10	Biology	Biology	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	11	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	131	12	SUNY	SUNY	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	13	Upstate	Upstate	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	14	Medical	Medical	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	15	University	University	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	16	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	131	17	Syracuse	Syracuse	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	18	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	131	19	NY	NY	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	20	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	131	21	USA	USA	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	22	E	E	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	23	-	-	NN
work_qr32rjxlhnbmjpkggdixwwesfq	131	24	mail	mail	NN
work_qr32rjxlhnbmjpkggdixwwesfq	131	25	:	:	:
work_qr32rjxlhnbmjpkggdixwwesfq	131	26	ootr@upstate.edu	ootr@upstate.edu	''
work_qr32rjxlhnbmjpkggdixwwesfq	131	27	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	131	28	eukaryotic	eukaryotic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	131	29	vacuolar	vacuolar	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	131	30	ATPase	atpase	NN
work_qr32rjxlhnbmjpkggdixwwesfq	131	31	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	131	32	V	V	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	33	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	131	34	ATPase	ATPase	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	35	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	131	36	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	131	37	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	131	38	rotary	rotary	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	131	39	molecular	molecular	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	131	40	motor	motor	NN
work_qr32rjxlhnbmjpkggdixwwesfq	131	41	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	131	42	dedicated	dedicated	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	131	43	proton	proton	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	131	44	pump	pump	NN
work_qr32rjxlhnbmjpkggdixwwesfq	131	45	found	find	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	131	46	on	on	IN
work_qr32rjxlhnbmjpkggdixwwesfq	131	47	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	131	48	endomembrane	endomembrane	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	131	49	system	system	NN
work_qr32rjxlhnbmjpkggdixwwesfq	131	50	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	131	51	all	all	DT
work_qr32rjxlhnbmjpkggdixwwesfq	131	52	eukaryotic	eukaryotic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	131	53	cells	cell	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	131	54	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	131	55	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	131	56	plasma	plasma	NN
work_qr32rjxlhnbmjpkggdixwwesfq	131	57	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	131	58	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	131	59	specialized	specialized	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	131	60	cells	cell	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	131	61	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	131	62	higher	high	JJR
work_qr32rjxlhnbmjpkggdixwwesfq	131	63	organisms	organism	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	131	64	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	131	65	1	1	CD
work_qr32rjxlhnbmjpkggdixwwesfq	131	66	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	131	67	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	132	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	132	2	enzyme	enzyme	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	132	3	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	132	4	composed	compose	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	132	5	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	132	6	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	132	7	soluble	soluble	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	132	8	catalytic	catalytic	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	132	9	subcomplex	subcomplex	NN
work_qr32rjxlhnbmjpkggdixwwesfq	132	10	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	132	11	V1	V1	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	132	12	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	132	13	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	132	14	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	132	15	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	132	16	integral	integral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	132	17	complex	complex	NN
work_qr32rjxlhnbmjpkggdixwwesfq	132	18	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	132	19	Vo	Vo	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	132	20	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	132	21	involved	involve	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	132	22	in	in	IN
work_qr32rjxlhnbmjpkggdixwwesfq	132	23	proton	proton	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	132	24	translocation	translocation	NN
work_qr32rjxlhnbmjpkggdixwwesfq	132	25	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	133	1	Linking	link	VBG
work_qr32rjxlhnbmjpkggdixwwesfq	133	2	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	133	3	soluble	soluble	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	133	4	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	133	5	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	133	6	sectors	sector	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	133	7	are	be	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	133	8	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	133	9	stator	stator	NN
work_qr32rjxlhnbmjpkggdixwwesfq	133	10	subunits	subunit	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	133	11	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	133	12	E	e	NN
work_qr32rjxlhnbmjpkggdixwwesfq	133	13	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	133	14	G	g	NN
work_qr32rjxlhnbmjpkggdixwwesfq	133	15	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	133	16	C	C	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	133	17	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	133	18	H	h	NN
work_qr32rjxlhnbmjpkggdixwwesfq	133	19	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	133	20	aNT	aNT	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	133	21	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	133	22	which	which	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	133	23	absorb	absorb	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	133	24	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	133	25	torque	torque	NN
work_qr32rjxlhnbmjpkggdixwwesfq	133	26	generated	generate	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	133	27	during	during	IN
work_qr32rjxlhnbmjpkggdixwwesfq	133	28	rotary	rotary	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	133	29	catalysis	catalysis	NN
work_qr32rjxlhnbmjpkggdixwwesfq	133	30	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	134	1	The	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	134	2	unique	unique	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	134	3	mode	mode	NN
work_qr32rjxlhnbmjpkggdixwwesfq	134	4	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	134	5	V	V	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	134	6	-	-	HYPH
work_qr32rjxlhnbmjpkggdixwwesfq	134	7	ATPase	ATPase	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	134	8	regulation	regulation	NN
work_qr32rjxlhnbmjpkggdixwwesfq	134	9	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	134	10	known	know	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	134	11	as	as	IN
work_qr32rjxlhnbmjpkggdixwwesfq	134	12	reversible	reversible	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	134	13	dissociation	dissociation	NN
work_qr32rjxlhnbmjpkggdixwwesfq	134	14	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	134	15	involves	involve	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	134	16	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	134	17	release	release	NN
work_qr32rjxlhnbmjpkggdixwwesfq	134	18	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	134	19	V1-ATPase	V1-ATPase	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	134	20	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	134	21	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	134	22	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	134	23	integral	integral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	134	24	Vo	Vo	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	134	25	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	134	26	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	134	27	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	134	28	activity	activity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	134	29	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	134	30	both	both	DT
work_qr32rjxlhnbmjpkggdixwwesfq	134	31	domains	domain	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	134	32	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	134	33	silenced	silence	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	134	34	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	134	35	2	2	CD
work_qr32rjxlhnbmjpkggdixwwesfq	134	36	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	134	37	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	135	1	Regulated	regulated	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	135	2	release	release	NN
work_qr32rjxlhnbmjpkggdixwwesfq	135	3	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	4	V1-ATPase	V1-ATPase	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	5	requires	require	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	135	6	breaking	breaking	NN
work_qr32rjxlhnbmjpkggdixwwesfq	135	7	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	8	protein	protein	NN
work_qr32rjxlhnbmjpkggdixwwesfq	135	9	interactions	interaction	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	135	10	mediated	mediate	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	135	11	by	by	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	12	three	three	CD
work_qr32rjxlhnbmjpkggdixwwesfq	135	13	periph-	periph-	NN
work_qr32rjxlhnbmjpkggdixwwesfq	135	14	eral	eral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	135	15	stalks	stalk	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	135	16	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	135	17	each	each	DT
work_qr32rjxlhnbmjpkggdixwwesfq	135	18	composed	compose	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	135	19	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	20	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	135	21	heterodimer	heterodimer	NN
work_qr32rjxlhnbmjpkggdixwwesfq	135	22	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	23	subunits	subunit	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	135	24	E	E	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	25	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	135	26	G.	G.	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	27	Two	two	CD
work_qr32rjxlhnbmjpkggdixwwesfq	135	28	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	29	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	135	30	peripheral	peripheral	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	135	31	stalks	stalk	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	135	32	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	135	33	EG1	EG1	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	34	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	135	35	EG2	EG2	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	36	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	135	37	connect	connect	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	135	38	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	135	39	top	top	NN
work_qr32rjxlhnbmjpkggdixwwesfq	135	40	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	41	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	135	42	V1	V1	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	43	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	44	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	135	45	membrane	membrane	NN
work_qr32rjxlhnbmjpkggdixwwesfq	135	46	bound	bind	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	135	47	a	a	DT
work_qr32rjxlhnbmjpkggdixwwesfq	135	48	subunit	subunit	NN
work_qr32rjxlhnbmjpkggdixwwesfq	135	49	while	while	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	50	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	135	51	third	third	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	135	52	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	135	53	EG3	EG3	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	54	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	135	55	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	135	56	bound	bind	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	135	57	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	58	subunit	subunit	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	59	C	C	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	60	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	135	61	which	which	WDT
work_qr32rjxlhnbmjpkggdixwwesfq	135	62	is	be	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	135	63	released	release	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	135	64	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	65	both	both	CC
work_qr32rjxlhnbmjpkggdixwwesfq	135	66	V1	V1	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	67	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	135	68	Vo	Vo	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	135	69	during	during	IN
work_qr32rjxlhnbmjpkggdixwwesfq	135	70	enzyme	enzyme	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	135	71	dissociation	dissociation	NN
work_qr32rjxlhnbmjpkggdixwwesfq	135	72	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	136	1	We	-PRON-	PRP
work_qr32rjxlhnbmjpkggdixwwesfq	136	2	have	have	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	136	3	previously	previously	RB
work_qr32rjxlhnbmjpkggdixwwesfq	136	4	characterized	characterize	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	136	5	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	136	6	quantified	quantify	VBD
work_qr32rjxlhnbmjpkggdixwwesfq	136	7	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	136	8	affinities	affinity	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	136	9	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	136	10	some	some	DT
work_qr32rjxlhnbmjpkggdixwwesfq	136	11	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	136	12	these	these	DT
work_qr32rjxlhnbmjpkggdixwwesfq	136	13	interactions	interaction	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	136	14	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	136	15	have	have	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	136	16	found	find	VBN
work_qr32rjxlhnbmjpkggdixwwesfq	136	17	that	that	IN
work_qr32rjxlhnbmjpkggdixwwesfq	136	18	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	136	19	globular	globular	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	136	20	“	"	``
work_qr32rjxlhnbmjpkggdixwwesfq	136	21	head	head	NN
work_qr32rjxlhnbmjpkggdixwwesfq	136	22	”	"	''
work_qr32rjxlhnbmjpkggdixwwesfq	136	23	domain	domain	NN
work_qr32rjxlhnbmjpkggdixwwesfq	136	24	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	136	25	subunit	subunit	NN
work_qr32rjxlhnbmjpkggdixwwesfq	136	26	C	C	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	136	27	(	(	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	136	28	Chead	Chead	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	136	29	)	)	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	136	30	binds	bind	VBZ
work_qr32rjxlhnbmjpkggdixwwesfq	136	31	to	to	IN
work_qr32rjxlhnbmjpkggdixwwesfq	136	32	one	one	CD
work_qr32rjxlhnbmjpkggdixwwesfq	136	33	EG	EG	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	136	34	heterodimer	heterodimer	NN
work_qr32rjxlhnbmjpkggdixwwesfq	136	35	with	with	IN
work_qr32rjxlhnbmjpkggdixwwesfq	136	36	high	high	JJ
work_qr32rjxlhnbmjpkggdixwwesfq	136	37	affinity	affinity	NN
work_qr32rjxlhnbmjpkggdixwwesfq	136	38	[	[	-LRB-
work_qr32rjxlhnbmjpkggdixwwesfq	136	39	3,4	3,4	CD
work_qr32rjxlhnbmjpkggdixwwesfq	136	40	]	]	-RRB-
work_qr32rjxlhnbmjpkggdixwwesfq	136	41	.	.	.
work_qr32rjxlhnbmjpkggdixwwesfq	137	1	Here	here	RB
work_qr32rjxlhnbmjpkggdixwwesfq	137	2	,	,	,
work_qr32rjxlhnbmjpkggdixwwesfq	137	3	we	-PRON-	PRP
work_qr32rjxlhnbmjpkggdixwwesfq	137	4	present	present	VBP
work_qr32rjxlhnbmjpkggdixwwesfq	137	5	X	x	NN
work_qr32rjxlhnbmjpkggdixwwesfq	137	6	-	-	NN
work_qr32rjxlhnbmjpkggdixwwesfq	137	7	ray	ray	NN
work_qr32rjxlhnbmjpkggdixwwesfq	137	8	crystal	crystal	NN
work_qr32rjxlhnbmjpkggdixwwesfq	137	9	structures	structure	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	137	10	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	137	11	two	two	CD
work_qr32rjxlhnbmjpkggdixwwesfq	137	12	conformations	conformation	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	137	13	of	of	IN
work_qr32rjxlhnbmjpkggdixwwesfq	137	14	the	the	DT
work_qr32rjxlhnbmjpkggdixwwesfq	137	15	EGChead	EGChead	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	137	16	complex	complex	NN
work_qr32rjxlhnbmjpkggdixwwesfq	137	17	from	from	IN
work_qr32rjxlhnbmjpkggdixwwesfq	137	18	Saccharomyces	saccharomyce	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	137	19	cerevisiae	cerevisiae	NNS
work_qr32rjxlhnbmjpkggdixwwesfq	137	20	at	at	IN
work_qr32rjxlhnbmjpkggdixwwesfq	137	21	2.91	2.91	CD
work_qr32rjxlhnbmjpkggdixwwesfq	137	22	and	and	CC
work_qr32rjxlhnbmjpkggdixwwesfq	137	23	2.82	2.82	CD
work_qr32rjxlhnbmjpkggdixwwesfq	137	24	Å	Å	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	137	25	AbstractsS36	AbstractsS36	NNP
work_qr32rjxlhnbmjpkggdixwwesfq	137	26	http://dx.doi.org/10.1016/j.bbabio.2012.06.106	http://dx.doi.org/10.1016/j.bbabio.2012.06.106	NN
work_qr32rjxlhnbmjpkggdixwwesfq	137	27	http://dx.doi.org/10.1016/j.bbabio.2012.06.107	http://dx.doi.org/10.1016/j.bbabio.2012.06.107	NN