id	sid	tid	token	lemma	pos
work_su6zfttle5hq7fxccg3nnnccwa	1	1	doi:10.1016	doi:10.1016	JJ
work_su6zfttle5hq7fxccg3nnnccwa	1	2	/	/	SYM
work_su6zfttle5hq7fxccg3nnnccwa	1	3	j.bpj.2009.12.2052	j.bpj.2009.12.2052	NN
work_su6zfttle5hq7fxccg3nnnccwa	1	4	Monday	Monday	NNP
work_su6zfttle5hq7fxccg3nnnccwa	1	5	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	1	6	February	February	NNP
work_su6zfttle5hq7fxccg3nnnccwa	1	7	22	22	CD
work_su6zfttle5hq7fxccg3nnnccwa	1	8	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	1	9	2010	2010	CD
work_su6zfttle5hq7fxccg3nnnccwa	1	10	381a	381a	NNS
work_su6zfttle5hq7fxccg3nnnccwa	1	11	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	1	12	C	C	NNP
work_su6zfttle5hq7fxccg3nnnccwa	1	13	terminus	terminus	NN
work_su6zfttle5hq7fxccg3nnnccwa	1	14	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	1	15	Milton	Milton	NNP
work_su6zfttle5hq7fxccg3nnnccwa	1	16	is	be	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	1	17	an	an	DT
work_su6zfttle5hq7fxccg3nnnccwa	1	18	important	important	JJ
work_su6zfttle5hq7fxccg3nnnccwa	1	19	regulator	regulator	NN
work_su6zfttle5hq7fxccg3nnnccwa	1	20	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	1	21	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	1	22	mitochondria	mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	1	23	associated	associate	VBD
work_su6zfttle5hq7fxccg3nnnccwa	1	24	motors	motors	NNPS
work_su6zfttle5hq7fxccg3nnnccwa	1	25	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	1	26	is	be	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	1	27	involved	involve	VBN
work_su6zfttle5hq7fxccg3nnnccwa	1	28	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	1	29	conferring	confer	VBG
work_su6zfttle5hq7fxccg3nnnccwa	1	30	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	1	31	calcium	calcium	NN
work_su6zfttle5hq7fxccg3nnnccwa	1	32	sensitivity	sensitivity	NN
work_su6zfttle5hq7fxccg3nnnccwa	1	33	from	from	IN
work_su6zfttle5hq7fxccg3nnnccwa	1	34	Miro	Miro	NNP
work_su6zfttle5hq7fxccg3nnnccwa	1	35	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	1	36	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	1	37	motors	motor	NNS
work_su6zfttle5hq7fxccg3nnnccwa	1	38	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	2	1	Milton	Milton	NNP
work_su6zfttle5hq7fxccg3nnnccwa	2	2	847	847	CD
work_su6zfttle5hq7fxccg3nnnccwa	2	3	-	-	SYM
work_su6zfttle5hq7fxccg3nnnccwa	2	4	1116	1116	CD
work_su6zfttle5hq7fxccg3nnnccwa	2	5	is	be	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	2	6	sufficient	sufficient	JJ
work_su6zfttle5hq7fxccg3nnnccwa	2	7	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	2	8	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	2	9	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	2	10	binding	binding	NN
work_su6zfttle5hq7fxccg3nnnccwa	2	11	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	2	12	whereas	whereas	IN
work_su6zfttle5hq7fxccg3nnnccwa	2	13	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	2	14	750	750	CD
work_su6zfttle5hq7fxccg3nnnccwa	2	15	-	-	SYM
work_su6zfttle5hq7fxccg3nnnccwa	2	16	847	847	CD
work_su6zfttle5hq7fxccg3nnnccwa	2	17	amino	amino	NN
work_su6zfttle5hq7fxccg3nnnccwa	2	18	acids	acid	NNS
work_su6zfttle5hq7fxccg3nnnccwa	2	19	are	be	VBP
work_su6zfttle5hq7fxccg3nnnccwa	2	20	critical	critical	JJ
work_su6zfttle5hq7fxccg3nnnccwa	2	21	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	2	22	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	2	23	control	control	NN
work_su6zfttle5hq7fxccg3nnnccwa	2	24	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	2	25	calcium	calcium	NN
work_su6zfttle5hq7fxccg3nnnccwa	2	26	sensitivity	sensitivity	NN
work_su6zfttle5hq7fxccg3nnnccwa	2	27	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	2	28	mi-	mi-	NNP
work_su6zfttle5hq7fxccg3nnnccwa	2	29	tochondrial	tochondrial	JJ
work_su6zfttle5hq7fxccg3nnnccwa	2	30	motility	motility	NN
work_su6zfttle5hq7fxccg3nnnccwa	2	31	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	3	1	1966-Pos	1966-Pos	:
work_su6zfttle5hq7fxccg3nnnccwa	3	2	Biophysical	Biophysical	NNP
work_su6zfttle5hq7fxccg3nnnccwa	3	3	Properties	Properties	NNPS
work_su6zfttle5hq7fxccg3nnnccwa	3	4	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	3	5	Mitochondria	Mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	3	6	Undergoing	Undergoing	NNP
work_su6zfttle5hq7fxccg3nnnccwa	3	7	Fusion	Fusion	NNP
work_su6zfttle5hq7fxccg3nnnccwa	3	8	Xingguo	Xingguo	NNP
work_su6zfttle5hq7fxccg3nnnccwa	3	9	Liu1	Liu1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	3	10	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	3	11	Orian	Orian	NNP
work_su6zfttle5hq7fxccg3nnnccwa	3	12	Shirihai2	Shirihai2	NNP
work_su6zfttle5hq7fxccg3nnnccwa	3	13	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	3	14	Gyorgy	Gyorgy	NNP
work_su6zfttle5hq7fxccg3nnnccwa	3	15	Hajnoczky1	Hajnoczky1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	3	16	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	4	1	1Thomas	1Thomas	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	2	Jefferson	Jefferson	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	3	University	University	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	4	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	4	5	Philadelphia	Philadelphia	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	6	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	4	7	PA	PA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	8	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	4	9	USA	USA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	10	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	4	11	2Boston	2Boston	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	12	University	University	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	13	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	4	14	Boston	Boston	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	15	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	4	16	MA	MA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	17	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	4	18	USA	USA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	4	19	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	5	1	Emerging	emerge	VBG
work_su6zfttle5hq7fxccg3nnnccwa	5	2	evidence	evidence	NN
work_su6zfttle5hq7fxccg3nnnccwa	5	3	shows	show	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	5	4	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	5	5	importance	importance	NN
work_su6zfttle5hq7fxccg3nnnccwa	5	6	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	5	7	genes	gene	NNS
work_su6zfttle5hq7fxccg3nnnccwa	5	8	controlling	control	VBG
work_su6zfttle5hq7fxccg3nnnccwa	5	9	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	5	10	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	5	11	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	5	12	physiology	physiology	NN
work_su6zfttle5hq7fxccg3nnnccwa	5	13	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	5	14	their	-PRON-	PRP$
work_su6zfttle5hq7fxccg3nnnccwa	5	15	deregulation	deregulation	NN
work_su6zfttle5hq7fxccg3nnnccwa	5	16	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	5	17	neurodegenerative	neurodegenerative	JJ
work_su6zfttle5hq7fxccg3nnnccwa	5	18	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	5	19	metabolic	metabolic	JJ
work_su6zfttle5hq7fxccg3nnnccwa	5	20	disorders	disorder	NNS
work_su6zfttle5hq7fxccg3nnnccwa	5	21	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	6	1	However	however	RB
work_su6zfttle5hq7fxccg3nnnccwa	6	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	6	3	apart	apart	RB
work_su6zfttle5hq7fxccg3nnnccwa	6	4	from	from	IN
work_su6zfttle5hq7fxccg3nnnccwa	6	5	DJm	DJm	NNS
work_su6zfttle5hq7fxccg3nnnccwa	6	6	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	6	7	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	6	8	biophysical	biophysical	JJ
work_su6zfttle5hq7fxccg3nnnccwa	6	9	properties	property	NNS
work_su6zfttle5hq7fxccg3nnnccwa	6	10	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	6	11	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	6	12	fusion-	fusion-	NNP
work_su6zfttle5hq7fxccg3nnnccwa	6	13	competent	competent	JJ
work_su6zfttle5hq7fxccg3nnnccwa	6	14	mitochondria	mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	6	15	remain	remain	VBP
work_su6zfttle5hq7fxccg3nnnccwa	6	16	elusive	elusive	JJ
work_su6zfttle5hq7fxccg3nnnccwa	6	17	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	7	1	To	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	7	2	evaluate	evaluate	VB
work_su6zfttle5hq7fxccg3nnnccwa	7	3	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	7	4	conditions	condition	NNS
work_su6zfttle5hq7fxccg3nnnccwa	7	5	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	7	6	contact	contact	NN
work_su6zfttle5hq7fxccg3nnnccwa	7	7	formation	formation	NN
work_su6zfttle5hq7fxccg3nnnccwa	7	8	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	7	9	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	7	10	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	7	11	we	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	7	12	used	use	VBD
work_su6zfttle5hq7fxccg3nnnccwa	7	13	organelle	organelle	NNP
work_su6zfttle5hq7fxccg3nnnccwa	7	14	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	7	15	targeted	target	VBN
work_su6zfttle5hq7fxccg3nnnccwa	7	16	fluorescent	fluorescent	NN
work_su6zfttle5hq7fxccg3nnnccwa	7	17	proteins	protein	NNS
work_su6zfttle5hq7fxccg3nnnccwa	7	18	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	7	19	includ-	includ-	NNP
work_su6zfttle5hq7fxccg3nnnccwa	7	20	ing	ing	NNP
work_su6zfttle5hq7fxccg3nnnccwa	7	21	photoactivatable	photoactivatable	JJ
work_su6zfttle5hq7fxccg3nnnccwa	7	22	GFP	GFP	NNP
work_su6zfttle5hq7fxccg3nnnccwa	7	23	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	7	24	which	which	WDT
work_su6zfttle5hq7fxccg3nnnccwa	7	25	allow	allow	VBP
work_su6zfttle5hq7fxccg3nnnccwa	7	26	tracking	tracking	NN
work_su6zfttle5hq7fxccg3nnnccwa	7	27	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	7	28	individual	individual	JJ
work_su6zfttle5hq7fxccg3nnnccwa	7	29	mitochondria	mitochondrion	NNS
work_su6zfttle5hq7fxccg3nnnccwa	7	30	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	8	1	In	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	8	2	H9c2	H9c2	NNP
work_su6zfttle5hq7fxccg3nnnccwa	8	3	cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	8	4	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	8	5	almost	almost	RB
work_su6zfttle5hq7fxccg3nnnccwa	8	6	every	every	DT
work_su6zfttle5hq7fxccg3nnnccwa	8	7	mitochondrion	mitochondrion	NN
work_su6zfttle5hq7fxccg3nnnccwa	8	8	is	be	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	8	9	aligned	align	VBN
work_su6zfttle5hq7fxccg3nnnccwa	8	10	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	8	11	microtubules	microtubule	NNS
work_su6zfttle5hq7fxccg3nnnccwa	8	12	that	that	WDT
work_su6zfttle5hq7fxccg3nnnccwa	8	13	pro-	pro-	NN
work_su6zfttle5hq7fxccg3nnnccwa	8	14	vide	vide	VBP
work_su6zfttle5hq7fxccg3nnnccwa	8	15	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	8	16	primary	primary	JJ
work_su6zfttle5hq7fxccg3nnnccwa	8	17	tracks	track	NNS
work_su6zfttle5hq7fxccg3nnnccwa	8	18	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	8	19	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	8	20	movement	movement	NN
work_su6zfttle5hq7fxccg3nnnccwa	8	21	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	9	1	Our	-PRON-	PRP$
work_su6zfttle5hq7fxccg3nnnccwa	9	2	results	result	NNS
work_su6zfttle5hq7fxccg3nnnccwa	9	3	show	show	VBP
work_su6zfttle5hq7fxccg3nnnccwa	9	4	that	that	IN
work_su6zfttle5hq7fxccg3nnnccwa	9	5	~90	~90	NFP
work_su6zfttle5hq7fxccg3nnnccwa	9	6	%	%	NN
work_su6zfttle5hq7fxccg3nnnccwa	9	7	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	9	8	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	9	9	events	event	NNS
work_su6zfttle5hq7fxccg3nnnccwa	9	10	involve	involve	VBP
work_su6zfttle5hq7fxccg3nnnccwa	9	11	moving	move	VBG
work_su6zfttle5hq7fxccg3nnnccwa	9	12	mitochondria	mitochondrion	NNS
work_su6zfttle5hq7fxccg3nnnccwa	9	13	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	10	1	However	however	RB
work_su6zfttle5hq7fxccg3nnnccwa	10	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	10	3	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	10	4	occurs	occur	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	10	5	irrespective	irrespective	JJ
work_su6zfttle5hq7fxccg3nnnccwa	10	6	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	10	7	mitochondrial	mitochondrial	JJ
work_su6zfttle5hq7fxccg3nnnccwa	10	8	speed	speed	NN
work_su6zfttle5hq7fxccg3nnnccwa	10	9	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	11	1	Furthermore	furthermore	RB
work_su6zfttle5hq7fxccg3nnnccwa	11	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	11	3	~80	~80	NFP
work_su6zfttle5hq7fxccg3nnnccwa	11	4	%	%	NN
work_su6zfttle5hq7fxccg3nnnccwa	11	5	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	11	6	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	11	7	events	event	NNS
work_su6zfttle5hq7fxccg3nnnccwa	11	8	in-	in-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	11	9	volve	volve	VBP
work_su6zfttle5hq7fxccg3nnnccwa	11	10	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	11	11	tip	tip	NN
work_su6zfttle5hq7fxccg3nnnccwa	11	12	portion	portion	NN
work_su6zfttle5hq7fxccg3nnnccwa	11	13	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	11	14	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	11	15	mitochondrion	mitochondrion	NN
work_su6zfttle5hq7fxccg3nnnccwa	11	16	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	11	17	whereas	whereas	IN
work_su6zfttle5hq7fxccg3nnnccwa	11	18	only	only	RB
work_su6zfttle5hq7fxccg3nnnccwa	11	19	~50	~50	:
work_su6zfttle5hq7fxccg3nnnccwa	11	20	%	%	NN
work_su6zfttle5hq7fxccg3nnnccwa	11	21	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	11	22	these	these	DT
work_su6zfttle5hq7fxccg3nnnccwa	11	23	events	event	NNS
work_su6zfttle5hq7fxccg3nnnccwa	11	24	involve	involve	VBP
work_su6zfttle5hq7fxccg3nnnccwa	11	25	organelle	organelle	NNP
work_su6zfttle5hq7fxccg3nnnccwa	11	26	side	side	NN
work_su6zfttle5hq7fxccg3nnnccwa	11	27	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	12	1	Nocodazol	Nocodazol	NNP
work_su6zfttle5hq7fxccg3nnnccwa	12	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	12	3	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	12	4	microtubule	microtubule	JJ
work_su6zfttle5hq7fxccg3nnnccwa	12	5	disrupting	disrupt	VBG
work_su6zfttle5hq7fxccg3nnnccwa	12	6	agent	agent	NN
work_su6zfttle5hq7fxccg3nnnccwa	12	7	that	that	WDT
work_su6zfttle5hq7fxccg3nnnccwa	12	8	inhibits	inhibit	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	12	9	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	12	10	movements	movement	NNS
work_su6zfttle5hq7fxccg3nnnccwa	12	11	decreases	decrease	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	12	12	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	12	13	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	12	14	frequency	frequency	NN
work_su6zfttle5hq7fxccg3nnnccwa	12	15	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	12	16	changes	change	NNS
work_su6zfttle5hq7fxccg3nnnccwa	12	17	mito-	mito-	VBP
work_su6zfttle5hq7fxccg3nnnccwa	12	18	chondrial	chondrial	JJ
work_su6zfttle5hq7fxccg3nnnccwa	12	19	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	12	20	sites	site	NNS
work_su6zfttle5hq7fxccg3nnnccwa	12	21	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	13	1	Strikingly	strikingly	RB
work_su6zfttle5hq7fxccg3nnnccwa	13	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	13	3	80	80	CD
work_su6zfttle5hq7fxccg3nnnccwa	13	4	-	-	SYM
work_su6zfttle5hq7fxccg3nnnccwa	13	5	90	90	CD
work_su6zfttle5hq7fxccg3nnnccwa	13	6	%	%	NN
work_su6zfttle5hq7fxccg3nnnccwa	13	7	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	13	8	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	13	9	physical	physical	JJ
work_su6zfttle5hq7fxccg3nnnccwa	13	10	contacts	contact	NNS
work_su6zfttle5hq7fxccg3nnnccwa	13	11	between	between	IN
work_su6zfttle5hq7fxccg3nnnccwa	13	12	ad-	ad-	CC
work_su6zfttle5hq7fxccg3nnnccwa	13	13	jacent	jacent	NNP
work_su6zfttle5hq7fxccg3nnnccwa	13	14	mitochondria	mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	13	15	did	do	VBD
work_su6zfttle5hq7fxccg3nnnccwa	13	16	not	not	RB
work_su6zfttle5hq7fxccg3nnnccwa	13	17	result	result	VB
work_su6zfttle5hq7fxccg3nnnccwa	13	18	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	13	19	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	13	20	events	event	NNS
work_su6zfttle5hq7fxccg3nnnccwa	13	21	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	14	1	To	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	14	2	evaluate	evaluate	VB
work_su6zfttle5hq7fxccg3nnnccwa	14	3	whether	whether	IN
work_su6zfttle5hq7fxccg3nnnccwa	14	4	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	14	5	fu-	fu-	JJ
work_su6zfttle5hq7fxccg3nnnccwa	14	6	sion	sion	NN
work_su6zfttle5hq7fxccg3nnnccwa	14	7	efficacy	efficacy	NN
work_su6zfttle5hq7fxccg3nnnccwa	14	8	depends	depend	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	14	9	on	on	IN
work_su6zfttle5hq7fxccg3nnnccwa	14	10	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	14	11	spacing	spacing	NN
work_su6zfttle5hq7fxccg3nnnccwa	14	12	between	between	IN
work_su6zfttle5hq7fxccg3nnnccwa	14	13	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	14	14	outer	outer	JJ
work_su6zfttle5hq7fxccg3nnnccwa	14	15	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	14	16	inner	inner	JJ
work_su6zfttle5hq7fxccg3nnnccwa	14	17	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	14	18	membranes	membrane	NNS
work_su6zfttle5hq7fxccg3nnnccwa	14	19	we	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	14	20	used	use	VBD
work_su6zfttle5hq7fxccg3nnnccwa	14	21	drugs	drug	NNS
work_su6zfttle5hq7fxccg3nnnccwa	14	22	that	that	WDT
work_su6zfttle5hq7fxccg3nnnccwa	14	23	alter	alter	VBP
work_su6zfttle5hq7fxccg3nnnccwa	14	24	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	14	25	matrix	matrix	NN
work_su6zfttle5hq7fxccg3nnnccwa	14	26	volume	volume	NN
work_su6zfttle5hq7fxccg3nnnccwa	14	27	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	15	1	Valinomycin	Valinomycin	NNP
work_su6zfttle5hq7fxccg3nnnccwa	15	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	15	3	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	15	4	K	k	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	5	þ	þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	6	ion-	ion-	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	7	ophore	ophore	IN
work_su6zfttle5hq7fxccg3nnnccwa	15	8	that	that	WDT
work_su6zfttle5hq7fxccg3nnnccwa	15	9	induces	induce	NNS
work_su6zfttle5hq7fxccg3nnnccwa	15	10	matrix	matrix	NNP
work_su6zfttle5hq7fxccg3nnnccwa	15	11	swelling	swelling	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	12	evoked	evoke	VBD
work_su6zfttle5hq7fxccg3nnnccwa	15	13	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	15	14	decrease	decrease	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	15	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	15	16	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	17	motil-	motil-	NNP
work_su6zfttle5hq7fxccg3nnnccwa	15	18	ity	ity	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	19	leading	lead	VBG
work_su6zfttle5hq7fxccg3nnnccwa	15	20	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	15	21	fewer	few	JJR
work_su6zfttle5hq7fxccg3nnnccwa	15	22	contacts	contact	NNS
work_su6zfttle5hq7fxccg3nnnccwa	15	23	among	among	IN
work_su6zfttle5hq7fxccg3nnnccwa	15	24	mitochondria	mitochondrion	NNS
work_su6zfttle5hq7fxccg3nnnccwa	15	25	but	but	CC
work_su6zfttle5hq7fxccg3nnnccwa	15	26	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	15	27	number	number	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	28	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	15	29	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	30	events	event	NNS
work_su6zfttle5hq7fxccg3nnnccwa	15	31	was	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	15	32	maintained	maintain	VBN
work_su6zfttle5hq7fxccg3nnnccwa	15	33	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	15	34	indicating	indicate	VBG
work_su6zfttle5hq7fxccg3nnnccwa	15	35	an	an	DT
work_su6zfttle5hq7fxccg3nnnccwa	15	36	increase	increase	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	37	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	15	38	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	39	efficacy	efficacy	NN
work_su6zfttle5hq7fxccg3nnnccwa	15	40	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	16	1	This	this	DT
work_su6zfttle5hq7fxccg3nnnccwa	16	2	change	change	NN
work_su6zfttle5hq7fxccg3nnnccwa	16	3	occurred	occur	VBD
work_su6zfttle5hq7fxccg3nnnccwa	16	4	at	at	IN
work_su6zfttle5hq7fxccg3nnnccwa	16	5	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	16	6	low	low	JJ
work_su6zfttle5hq7fxccg3nnnccwa	16	7	valinomycin	valinomycin	NN
work_su6zfttle5hq7fxccg3nnnccwa	16	8	concentration	concentration	NN
work_su6zfttle5hq7fxccg3nnnccwa	16	9	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	16	10	0.25nM	0.25nM	NFP
work_su6zfttle5hq7fxccg3nnnccwa	16	11	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	16	12	that	that	WDT
work_su6zfttle5hq7fxccg3nnnccwa	16	13	did	do	VBD
work_su6zfttle5hq7fxccg3nnnccwa	16	14	not	not	RB
work_su6zfttle5hq7fxccg3nnnccwa	16	15	affect	affect	VB
work_su6zfttle5hq7fxccg3nnnccwa	16	16	DJm	DJm	NNS
work_su6zfttle5hq7fxccg3nnnccwa	16	17	or	or	CC
work_su6zfttle5hq7fxccg3nnnccwa	16	18	Opa1	opa1	NN
work_su6zfttle5hq7fxccg3nnnccwa	16	19	cleavage	cleavage	NN
work_su6zfttle5hq7fxccg3nnnccwa	16	20	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	17	1	Nigericin	Nigericin	NNP
work_su6zfttle5hq7fxccg3nnnccwa	17	2	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	17	3	0.5mM	0.5mM	NFP
work_su6zfttle5hq7fxccg3nnnccwa	17	4	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	17	5	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	17	6	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	17	7	K	K	NNP
work_su6zfttle5hq7fxccg3nnnccwa	17	8	þ	þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	17	9	/H	/H	.
work_su6zfttle5hq7fxccg3nnnccwa	17	10	þ	þ	LS
work_su6zfttle5hq7fxccg3nnnccwa	17	11	ionophore	ionophore	NN
work_su6zfttle5hq7fxccg3nnnccwa	17	12	that	that	WDT
work_su6zfttle5hq7fxccg3nnnccwa	17	13	induces	induce	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	17	14	shrinkage	shrinkage	NN
work_su6zfttle5hq7fxccg3nnnccwa	17	15	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	17	16	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	17	17	matrix	matrix	NN
work_su6zfttle5hq7fxccg3nnnccwa	17	18	elicited	elicit	VBD
work_su6zfttle5hq7fxccg3nnnccwa	17	19	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	17	20	inhibition	inhibition	NN
work_su6zfttle5hq7fxccg3nnnccwa	17	21	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	17	22	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	17	23	aggrega-	aggrega-	NN
work_su6zfttle5hq7fxccg3nnnccwa	17	24	tion	tion	NN
work_su6zfttle5hq7fxccg3nnnccwa	17	25	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	18	1	Importantly	importantly	RB
work_su6zfttle5hq7fxccg3nnnccwa	18	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	18	3	no	no	DT
work_su6zfttle5hq7fxccg3nnnccwa	18	4	motility	motility	NN
work_su6zfttle5hq7fxccg3nnnccwa	18	5	inhibition	inhibition	NN
work_su6zfttle5hq7fxccg3nnnccwa	18	6	or	or	CC
work_su6zfttle5hq7fxccg3nnnccwa	18	7	Opa1	opa1	NN
work_su6zfttle5hq7fxccg3nnnccwa	18	8	cleavage	cleavage	NN
work_su6zfttle5hq7fxccg3nnnccwa	18	9	occurred	occur	VBD
work_su6zfttle5hq7fxccg3nnnccwa	18	10	at	at	IN
work_su6zfttle5hq7fxccg3nnnccwa	18	11	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	18	12	same	same	JJ
work_su6zfttle5hq7fxccg3nnnccwa	18	13	time	time	NN
work_su6zfttle5hq7fxccg3nnnccwa	18	14	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	18	15	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	18	16	DJm	DJm	NNS
work_su6zfttle5hq7fxccg3nnnccwa	18	17	was	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	18	18	increased	increase	VBN
work_su6zfttle5hq7fxccg3nnnccwa	18	19	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	19	1	These	these	DT
work_su6zfttle5hq7fxccg3nnnccwa	19	2	results	result	NNS
work_su6zfttle5hq7fxccg3nnnccwa	19	3	suggest	suggest	VBP
work_su6zfttle5hq7fxccg3nnnccwa	19	4	that	that	IN
work_su6zfttle5hq7fxccg3nnnccwa	19	5	mitochon-	mitochon-	NNP
work_su6zfttle5hq7fxccg3nnnccwa	19	6	drial	drial	JJ
work_su6zfttle5hq7fxccg3nnnccwa	19	7	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	19	8	is	be	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	19	9	facilitated	facilitate	VBN
work_su6zfttle5hq7fxccg3nnnccwa	19	10	by	by	IN
work_su6zfttle5hq7fxccg3nnnccwa	19	11	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	19	12	motility	motility	NN
work_su6zfttle5hq7fxccg3nnnccwa	19	13	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	19	14	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	19	15	key	key	JJ
work_su6zfttle5hq7fxccg3nnnccwa	19	16	determinant	determinant	NN
work_su6zfttle5hq7fxccg3nnnccwa	19	17	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	19	18	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	19	19	inter	inter	JJ
work_su6zfttle5hq7fxccg3nnnccwa	19	20	-	-	JJ
work_su6zfttle5hq7fxccg3nnnccwa	19	21	mitochondrial	mitochondrial	JJ
work_su6zfttle5hq7fxccg3nnnccwa	19	22	encounter	encounter	NN
work_su6zfttle5hq7fxccg3nnnccwa	19	23	numbers	number	NNS
work_su6zfttle5hq7fxccg3nnnccwa	19	24	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	19	25	preferentially	preferentially	RB
work_su6zfttle5hq7fxccg3nnnccwa	19	26	involves	involve	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	19	27	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	19	28	front	front	JJ
work_su6zfttle5hq7fxccg3nnnccwa	19	29	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	19	30	tip	tip	NN
work_su6zfttle5hq7fxccg3nnnccwa	19	31	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	19	32	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	19	33	moving	move	VBG
work_su6zfttle5hq7fxccg3nnnccwa	19	34	organelle	organelle	NNP
work_su6zfttle5hq7fxccg3nnnccwa	19	35	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	20	1	In	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	20	2	addition	addition	NN
work_su6zfttle5hq7fxccg3nnnccwa	20	3	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	20	4	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	20	5	efficacy	efficacy	NN
work_su6zfttle5hq7fxccg3nnnccwa	20	6	depends	depend	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	20	7	on	on	IN
work_su6zfttle5hq7fxccg3nnnccwa	20	8	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	20	9	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	20	10	matrix	matrix	NN
work_su6zfttle5hq7fxccg3nnnccwa	20	11	volume	volume	NN
work_su6zfttle5hq7fxccg3nnnccwa	20	12	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	21	1	1967-Pos	1967-Pos	:
work_su6zfttle5hq7fxccg3nnnccwa	21	2	Mitochondrial	Mitochondrial	NNP
work_su6zfttle5hq7fxccg3nnnccwa	21	3	Fusion	Fusion	NNP
work_su6zfttle5hq7fxccg3nnnccwa	21	4	Dynamics	Dynamics	NNPS
work_su6zfttle5hq7fxccg3nnnccwa	21	5	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	21	6	Human	Human	NNP
work_su6zfttle5hq7fxccg3nnnccwa	21	7	Skeletal	Skeletal	NNP
work_su6zfttle5hq7fxccg3nnnccwa	21	8	Muscle	Muscle	NNP
work_su6zfttle5hq7fxccg3nnnccwa	21	9	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	21	10	Derived	derive	VBN
work_su6zfttle5hq7fxccg3nnnccwa	21	11	Cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	21	12	Veronica	Veronica	NNP
work_su6zfttle5hq7fxccg3nnnccwa	21	13	Eisner	Eisner	NNP
work_su6zfttle5hq7fxccg3nnnccwa	21	14	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	21	15	Gyorgy	Gyorgy	NNP
work_su6zfttle5hq7fxccg3nnnccwa	21	16	Hajnoczky	Hajnoczky	NNP
work_su6zfttle5hq7fxccg3nnnccwa	21	17	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	22	1	Thomas	Thomas	NNP
work_su6zfttle5hq7fxccg3nnnccwa	22	2	Jefferson	Jefferson	NNP
work_su6zfttle5hq7fxccg3nnnccwa	22	3	University	University	NNP
work_su6zfttle5hq7fxccg3nnnccwa	22	4	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	22	5	Philadelphia	Philadelphia	NNP
work_su6zfttle5hq7fxccg3nnnccwa	22	6	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	22	7	PA	PA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	22	8	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	22	9	USA	USA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	22	10	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	23	1	Mitochondria	Mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	23	2	have	have	VBP
work_su6zfttle5hq7fxccg3nnnccwa	23	3	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	23	4	fundamental	fundamental	JJ
work_su6zfttle5hq7fxccg3nnnccwa	23	5	role	role	NN
work_su6zfttle5hq7fxccg3nnnccwa	23	6	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	23	7	both	both	CC
work_su6zfttle5hq7fxccg3nnnccwa	23	8	muscle	muscle	NN
work_su6zfttle5hq7fxccg3nnnccwa	23	9	physiology	physiology	NN
work_su6zfttle5hq7fxccg3nnnccwa	23	10	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	23	11	pathol-	pathol-	NN
work_su6zfttle5hq7fxccg3nnnccwa	23	12	ogy	ogy	NN
work_su6zfttle5hq7fxccg3nnnccwa	23	13	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	24	1	Mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	24	2	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	24	3	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	24	4	fission	fission	NN
work_su6zfttle5hq7fxccg3nnnccwa	24	5	are	be	VBP
work_su6zfttle5hq7fxccg3nnnccwa	24	6	important	important	JJ
work_su6zfttle5hq7fxccg3nnnccwa	24	7	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	24	8	energy	energy	NN
work_su6zfttle5hq7fxccg3nnnccwa	24	9	metabolism	metabolism	NN
work_su6zfttle5hq7fxccg3nnnccwa	24	10	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	24	11	calcium	calcium	NN
work_su6zfttle5hq7fxccg3nnnccwa	24	12	homeostasis	homeostasis	NN
work_su6zfttle5hq7fxccg3nnnccwa	24	13	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	24	14	cell	cell	NN
work_su6zfttle5hq7fxccg3nnnccwa	24	15	death	death	NN
work_su6zfttle5hq7fxccg3nnnccwa	24	16	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	25	1	However	however	RB
work_su6zfttle5hq7fxccg3nnnccwa	25	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	25	3	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	25	4	mechanisms	mechanism	NNS
work_su6zfttle5hq7fxccg3nnnccwa	25	5	underlying	underlie	VBG
work_su6zfttle5hq7fxccg3nnnccwa	25	6	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	25	7	dynamics	dynamic	NNS
work_su6zfttle5hq7fxccg3nnnccwa	25	8	are	be	VBP
work_su6zfttle5hq7fxccg3nnnccwa	25	9	poorly	poorly	RB
work_su6zfttle5hq7fxccg3nnnccwa	25	10	understood	understand	VBN
work_su6zfttle5hq7fxccg3nnnccwa	25	11	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	25	12	especially	especially	RB
work_su6zfttle5hq7fxccg3nnnccwa	25	13	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	25	14	physiological	physiological	JJ
work_su6zfttle5hq7fxccg3nnnccwa	25	15	models	model	NNS
work_su6zfttle5hq7fxccg3nnnccwa	25	16	such	such	JJ
work_su6zfttle5hq7fxccg3nnnccwa	25	17	as	as	IN
work_su6zfttle5hq7fxccg3nnnccwa	25	18	skeletal	skeletal	JJ
work_su6zfttle5hq7fxccg3nnnccwa	25	19	muscle	muscle	NN
work_su6zfttle5hq7fxccg3nnnccwa	25	20	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	26	1	Here	here	RB
work_su6zfttle5hq7fxccg3nnnccwa	26	2	we	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	26	3	evaluated	evaluate	VBD
work_su6zfttle5hq7fxccg3nnnccwa	26	4	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	26	5	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	26	6	dy-	dy-	PRP$
work_su6zfttle5hq7fxccg3nnnccwa	26	7	namics	namic	NNS
work_su6zfttle5hq7fxccg3nnnccwa	26	8	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	26	9	human	human	JJ
work_su6zfttle5hq7fxccg3nnnccwa	26	10	skeletal	skeletal	JJ
work_su6zfttle5hq7fxccg3nnnccwa	26	11	muscle	muscle	NN
work_su6zfttle5hq7fxccg3nnnccwa	26	12	cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	26	13	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	26	14	HUSMC	HUSMC	NNP
work_su6zfttle5hq7fxccg3nnnccwa	26	15	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	26	16	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	27	1	Skeletal	skeletal	JJ
work_su6zfttle5hq7fxccg3nnnccwa	27	2	muscle	muscle	NN
work_su6zfttle5hq7fxccg3nnnccwa	27	3	satellite	satellite	NN
work_su6zfttle5hq7fxccg3nnnccwa	27	4	cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	27	5	were	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	27	6	isolated	isolate	VBN
work_su6zfttle5hq7fxccg3nnnccwa	27	7	from	from	IN
work_su6zfttle5hq7fxccg3nnnccwa	27	8	human	human	JJ
work_su6zfttle5hq7fxccg3nnnccwa	27	9	muscle	muscle	NN
work_su6zfttle5hq7fxccg3nnnccwa	27	10	biopsies	biopsy	NNS
work_su6zfttle5hq7fxccg3nnnccwa	27	11	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	27	12	were	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	27	13	maintained	maintain	VBN
work_su6zfttle5hq7fxccg3nnnccwa	27	14	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	27	15	dif-	dif-	NNS
work_su6zfttle5hq7fxccg3nnnccwa	27	16	ferentiated	ferentiate	VBN
work_su6zfttle5hq7fxccg3nnnccwa	27	17	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	27	18	cell	cell	NN
work_su6zfttle5hq7fxccg3nnnccwa	27	19	culture	culture	NN
work_su6zfttle5hq7fxccg3nnnccwa	27	20	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	28	1	Mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	28	2	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	28	3	events	event	NNS
work_su6zfttle5hq7fxccg3nnnccwa	28	4	were	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	28	5	evaluated	evaluate	VBN
work_su6zfttle5hq7fxccg3nnnccwa	28	6	by	by	IN
work_su6zfttle5hq7fxccg3nnnccwa	28	7	con-	con-	NNP
work_su6zfttle5hq7fxccg3nnnccwa	28	8	focal	focal	JJ
work_su6zfttle5hq7fxccg3nnnccwa	28	9	imaging	imaging	NN
work_su6zfttle5hq7fxccg3nnnccwa	28	10	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	28	11	cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	28	12	expressing	express	VBG
work_su6zfttle5hq7fxccg3nnnccwa	28	13	mitochondria	mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	28	14	matrix	matrix	NNP
work_su6zfttle5hq7fxccg3nnnccwa	28	15	targeted	target	VBD
work_su6zfttle5hq7fxccg3nnnccwa	28	16	DsRed	DsRed	NNP
work_su6zfttle5hq7fxccg3nnnccwa	28	17	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	28	18	matrix	matrix	NNP
work_su6zfttle5hq7fxccg3nnnccwa	28	19	targeted	target	VBD
work_su6zfttle5hq7fxccg3nnnccwa	28	20	or	or	CC
work_su6zfttle5hq7fxccg3nnnccwa	28	21	outer	outer	JJ
work_su6zfttle5hq7fxccg3nnnccwa	28	22	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	28	23	membrane	membrane	NN
work_su6zfttle5hq7fxccg3nnnccwa	28	24	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	28	25	OMM	OMM	NNP
work_su6zfttle5hq7fxccg3nnnccwa	28	26	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	28	27	targeted	target	VBD
work_su6zfttle5hq7fxccg3nnnccwa	28	28	photoacti-	photoacti-	NN
work_su6zfttle5hq7fxccg3nnnccwa	28	29	vatable	vatable	NN
work_su6zfttle5hq7fxccg3nnnccwa	28	30	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	28	31	GFP	GFP	NNP
work_su6zfttle5hq7fxccg3nnnccwa	28	32	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	29	1	When	when	WRB
work_su6zfttle5hq7fxccg3nnnccwa	29	2	we	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	29	3	tagged	tag	VBD
work_su6zfttle5hq7fxccg3nnnccwa	29	4	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	29	5	mitochondria	mitochondria	NN
work_su6zfttle5hq7fxccg3nnnccwa	29	6	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	29	7	~20	~20	NFP
work_su6zfttle5hq7fxccg3nnnccwa	29	8	%	%	NN
work_su6zfttle5hq7fxccg3nnnccwa	29	9	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	29	10	total	total	JJ
work_su6zfttle5hq7fxccg3nnnccwa	29	11	cellular	cellular	JJ
work_su6zfttle5hq7fxccg3nnnccwa	29	12	area	area	NN
work_su6zfttle5hq7fxccg3nnnccwa	29	13	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	29	14	photoactivated	photoactivate	VBN
work_su6zfttle5hq7fxccg3nnnccwa	29	15	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	29	16	GFP	GFP	NNP
work_su6zfttle5hq7fxccg3nnnccwa	29	17	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	29	18	we	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	29	19	found	find	VBD
work_su6zfttle5hq7fxccg3nnnccwa	29	20	those	those	DT
work_su6zfttle5hq7fxccg3nnnccwa	29	21	mitochondria	mitochondria	NN
work_su6zfttle5hq7fxccg3nnnccwa	29	22	undergoing	undergo	VBG
work_su6zfttle5hq7fxccg3nnnccwa	29	23	matrix	matrix	NN
work_su6zfttle5hq7fxccg3nnnccwa	29	24	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	29	25	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	29	26	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	29	27	frequency	frequency	NN
work_su6zfttle5hq7fxccg3nnnccwa	29	28	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	29	29	1.3	1.3	CD
work_su6zfttle5hq7fxccg3nnnccwa	29	30	5	5	CD
work_su6zfttle5hq7fxccg3nnnccwa	29	31	0.1	0.1	CD
work_su6zfttle5hq7fxccg3nnnccwa	29	32	events	event	NNS
work_su6zfttle5hq7fxccg3nnnccwa	29	33	/	/	SYM
work_su6zfttle5hq7fxccg3nnnccwa	29	34	min	min	NNP
work_su6zfttle5hq7fxccg3nnnccwa	29	35	/	/	SYM
work_su6zfttle5hq7fxccg3nnnccwa	29	36	cell	cell	NNP
work_su6zfttle5hq7fxccg3nnnccwa	29	37	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	29	38	n=70	n=70	NNP
work_su6zfttle5hq7fxccg3nnnccwa	29	39	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	29	40	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	30	1	Among	among	IN
work_su6zfttle5hq7fxccg3nnnccwa	30	2	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	30	3	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	30	4	events	event	NNS
work_su6zfttle5hq7fxccg3nnnccwa	30	5	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	30	6	40	40	CD
work_su6zfttle5hq7fxccg3nnnccwa	30	7	%	%	NN
work_su6zfttle5hq7fxccg3nnnccwa	30	8	led	lead	VBD
work_su6zfttle5hq7fxccg3nnnccwa	30	9	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	30	10	complete	complete	JJ
work_su6zfttle5hq7fxccg3nnnccwa	30	11	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	30	12	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	30	13	only	only	RB
work_su6zfttle5hq7fxccg3nnnccwa	30	14	10	10	CD
work_su6zfttle5hq7fxccg3nnnccwa	30	15	%	%	NN
work_su6zfttle5hq7fxccg3nnnccwa	30	16	was	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	30	17	followed	follow	VBN
work_su6zfttle5hq7fxccg3nnnccwa	30	18	by	by	IN
work_su6zfttle5hq7fxccg3nnnccwa	30	19	separation	separation	NN
work_su6zfttle5hq7fxccg3nnnccwa	30	20	at	at	IN
work_su6zfttle5hq7fxccg3nnnccwa	30	21	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	30	22	apparent	apparent	JJ
work_su6zfttle5hq7fxccg3nnnccwa	30	23	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	30	24	site	site	NN
work_su6zfttle5hq7fxccg3nnnccwa	30	25	within	within	IN
work_su6zfttle5hq7fxccg3nnnccwa	30	26	20	20	CD
work_su6zfttle5hq7fxccg3nnnccwa	30	27	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	30	28	40	40	CD
work_su6zfttle5hq7fxccg3nnnccwa	30	29	seconds	second	NNS
work_su6zfttle5hq7fxccg3nnnccwa	30	30	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	31	1	Both	both	DT
work_su6zfttle5hq7fxccg3nnnccwa	31	2	complete	complete	JJ
work_su6zfttle5hq7fxccg3nnnccwa	31	3	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	31	4	transient	transient	JJ
work_su6zfttle5hq7fxccg3nnnccwa	31	5	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	31	6	events	event	NNS
work_su6zfttle5hq7fxccg3nnnccwa	31	7	resulted	result	VBD
work_su6zfttle5hq7fxccg3nnnccwa	31	8	mostly	mostly	RB
work_su6zfttle5hq7fxccg3nnnccwa	31	9	from	from	IN
work_su6zfttle5hq7fxccg3nnnccwa	31	10	longitudinal	longitudinal	JJ
work_su6zfttle5hq7fxccg3nnnccwa	31	11	mergers	merger	NNS
work_su6zfttle5hq7fxccg3nnnccwa	31	12	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	31	13	involving	involve	VBG
work_su6zfttle5hq7fxccg3nnnccwa	31	14	end	end	NN
work_su6zfttle5hq7fxccg3nnnccwa	31	15	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	31	16	end	end	VB
work_su6zfttle5hq7fxccg3nnnccwa	31	17	interaction	interaction	NN
work_su6zfttle5hq7fxccg3nnnccwa	31	18	or	or	CC
work_su6zfttle5hq7fxccg3nnnccwa	31	19	from	from	IN
work_su6zfttle5hq7fxccg3nnnccwa	31	20	mergers	merger	NNS
work_su6zfttle5hq7fxccg3nnnccwa	31	21	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	31	22	adjacent	adjacent	JJ
work_su6zfttle5hq7fxccg3nnnccwa	31	23	mitochondria	mitochondrion	NNS
work_su6zfttle5hq7fxccg3nnnccwa	31	24	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	31	25	side	side	NN
work_su6zfttle5hq7fxccg3nnnccwa	31	26	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	31	27	side	side	VB
work_su6zfttle5hq7fxccg3nnnccwa	31	28	orien-	orien-	JJ
work_su6zfttle5hq7fxccg3nnnccwa	31	29	tation	tation	NN
work_su6zfttle5hq7fxccg3nnnccwa	31	30	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	32	1	Furthermore	furthermore	RB
work_su6zfttle5hq7fxccg3nnnccwa	32	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	32	3	we	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	32	4	found	find	VBD
work_su6zfttle5hq7fxccg3nnnccwa	32	5	that	that	IN
work_su6zfttle5hq7fxccg3nnnccwa	32	6	OMM	OMM	NNP
work_su6zfttle5hq7fxccg3nnnccwa	32	7	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	32	8	matrix	matrix	NN
work_su6zfttle5hq7fxccg3nnnccwa	32	9	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	32	10	are	be	VBP
work_su6zfttle5hq7fxccg3nnnccwa	32	11	sequential	sequential	JJ
work_su6zfttle5hq7fxccg3nnnccwa	32	12	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	32	13	separable	separable	JJ
work_su6zfttle5hq7fxccg3nnnccwa	32	14	steps	step	NNS
work_su6zfttle5hq7fxccg3nnnccwa	32	15	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	32	16	displaying	display	VBG
work_su6zfttle5hq7fxccg3nnnccwa	32	17	5.8	5.8	CD
work_su6zfttle5hq7fxccg3nnnccwa	32	18	5	5	CD
work_su6zfttle5hq7fxccg3nnnccwa	32	19	1	1	CD
work_su6zfttle5hq7fxccg3nnnccwa	32	20	seconds	second	NNS
work_su6zfttle5hq7fxccg3nnnccwa	32	21	gap	gap	NN
work_su6zfttle5hq7fxccg3nnnccwa	32	22	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	32	23	n=10	n=10	NNP
work_su6zfttle5hq7fxccg3nnnccwa	32	24	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	32	25	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	33	1	Finally	finally	RB
work_su6zfttle5hq7fxccg3nnnccwa	33	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	33	3	we	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	33	4	evaluated	evaluate	VBD
work_su6zfttle5hq7fxccg3nnnccwa	33	5	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	33	6	mitochondrial	mitochondrial	JJ
work_su6zfttle5hq7fxccg3nnnccwa	33	7	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	33	8	dynamics	dynamic	NNS
work_su6zfttle5hq7fxccg3nnnccwa	33	9	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	33	10	HUSMC	HUSMC	NNP
work_su6zfttle5hq7fxccg3nnnccwa	33	11	derived	derive	VBD
work_su6zfttle5hq7fxccg3nnnccwa	33	12	from	from	IN
work_su6zfttle5hq7fxccg3nnnccwa	33	13	both	both	CC
work_su6zfttle5hq7fxccg3nnnccwa	33	14	normal	normal	JJ
work_su6zfttle5hq7fxccg3nnnccwa	33	15	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	33	16	malignant	malignant	JJ
work_su6zfttle5hq7fxccg3nnnccwa	33	17	hyperthermia	hyperthermia	NN
work_su6zfttle5hq7fxccg3nnnccwa	33	18	susceptible	susceptible	JJ
work_su6zfttle5hq7fxccg3nnnccwa	33	19	individuals	individual	NNS
work_su6zfttle5hq7fxccg3nnnccwa	33	20	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	34	1	At	at	IN
work_su6zfttle5hq7fxccg3nnnccwa	34	2	resting	rest	VBG
work_su6zfttle5hq7fxccg3nnnccwa	34	3	state	state	NN
work_su6zfttle5hq7fxccg3nnnccwa	34	4	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	34	5	no	no	DT
work_su6zfttle5hq7fxccg3nnnccwa	34	6	significant	significant	JJ
work_su6zfttle5hq7fxccg3nnnccwa	34	7	differences	difference	NNS
work_su6zfttle5hq7fxccg3nnnccwa	34	8	were	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	34	9	found	find	VBN
work_su6zfttle5hq7fxccg3nnnccwa	34	10	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	34	11	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	34	12	number	number	NN
work_su6zfttle5hq7fxccg3nnnccwa	34	13	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	34	14	events	event	NNS
work_su6zfttle5hq7fxccg3nnnccwa	34	15	or	or	CC
work_su6zfttle5hq7fxccg3nnnccwa	34	16	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	34	17	their	-PRON-	PRP$
work_su6zfttle5hq7fxccg3nnnccwa	34	18	characteristics	characteristic	NNS
work_su6zfttle5hq7fxccg3nnnccwa	34	19	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	35	1	Thus	thus	RB
work_su6zfttle5hq7fxccg3nnnccwa	35	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	35	3	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	35	4	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	35	5	commonly	commonly	RB
work_su6zfttle5hq7fxccg3nnnccwa	35	6	occurs	occur	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	35	7	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	35	8	HUSMC	HUSMC	NNP
work_su6zfttle5hq7fxccg3nnnccwa	35	9	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	35	10	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	35	11	enables	enable	NNS
work_su6zfttle5hq7fxccg3nnnccwa	35	12	mixing	mix	VBG
work_su6zfttle5hq7fxccg3nnnccwa	35	13	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	35	14	both	both	CC
work_su6zfttle5hq7fxccg3nnnccwa	35	15	soluble	soluble	JJ
work_su6zfttle5hq7fxccg3nnnccwa	35	16	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	35	17	integral	integral	JJ
work_su6zfttle5hq7fxccg3nnnccwa	35	18	membrane	membrane	NN
work_su6zfttle5hq7fxccg3nnnccwa	35	19	factors	factor	NNS
work_su6zfttle5hq7fxccg3nnnccwa	35	20	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	36	1	This	this	DT
work_su6zfttle5hq7fxccg3nnnccwa	36	2	process	process	NN
work_su6zfttle5hq7fxccg3nnnccwa	36	3	would	would	MD
work_su6zfttle5hq7fxccg3nnnccwa	36	4	help	help	VB
work_su6zfttle5hq7fxccg3nnnccwa	36	5	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	36	6	maintain	maintain	VB
work_su6zfttle5hq7fxccg3nnnccwa	36	7	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	36	8	stability	stability	NN
work_su6zfttle5hq7fxccg3nnnccwa	36	9	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	36	10	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	36	11	metabolism	metabolism	NN
work_su6zfttle5hq7fxccg3nnnccwa	36	12	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	37	1	The	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	37	2	relatively	relatively	RB
work_su6zfttle5hq7fxccg3nnnccwa	37	3	low	low	JJ
work_su6zfttle5hq7fxccg3nnnccwa	37	4	frequency	frequency	NN
work_su6zfttle5hq7fxccg3nnnccwa	37	5	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	37	6	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	37	7	tran-	tran-	JJ
work_su6zfttle5hq7fxccg3nnnccwa	37	8	sient	sient	JJ
work_su6zfttle5hq7fxccg3nnnccwa	37	9	fusion	fusion	NN
work_su6zfttle5hq7fxccg3nnnccwa	37	10	is	be	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	37	11	probably	probably	RB
work_su6zfttle5hq7fxccg3nnnccwa	37	12	due	due	IN
work_su6zfttle5hq7fxccg3nnnccwa	37	13	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	37	14	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	37	15	parallel	parallel	JJ
work_su6zfttle5hq7fxccg3nnnccwa	37	16	organization	organization	NN
work_su6zfttle5hq7fxccg3nnnccwa	37	17	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	37	18	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	37	19	cytoskeletal	cytoskeletal	JJ
work_su6zfttle5hq7fxccg3nnnccwa	37	20	tracks	track	NNS
work_su6zfttle5hq7fxccg3nnnccwa	37	21	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	37	22	mitochondria	mitochondrion	NNS
work_su6zfttle5hq7fxccg3nnnccwa	37	23	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	37	24	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	37	25	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	37	26	limited	limited	JJ
work_su6zfttle5hq7fxccg3nnnccwa	37	27	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	37	28	motility	motility	NN
work_su6zfttle5hq7fxccg3nnnccwa	37	29	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	38	1	1968-Pos	1968-Pos	:
work_su6zfttle5hq7fxccg3nnnccwa	38	2	Imaging	Imaging	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	3	Interorganelle	Interorganelle	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	4	Contacts	Contacts	NNPS
work_su6zfttle5hq7fxccg3nnnccwa	38	5	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	38	6	Local	Local	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	7	Calcium	Calcium	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	8	Dynamics	Dynamics	NNPS
work_su6zfttle5hq7fxccg3nnnccwa	38	9	at	at	IN
work_su6zfttle5hq7fxccg3nnnccwa	38	10	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	38	11	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	12	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	38	13	Mitochondrial	Mitochondrial	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	14	Interface	Interface	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	15	György	György	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	16	Csordás1	Csordás1	,
work_su6zfttle5hq7fxccg3nnnccwa	38	17	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	38	18	Péter	péter	CD
work_su6zfttle5hq7fxccg3nnnccwa	38	19	Várnai2	várnai2	CD
work_su6zfttle5hq7fxccg3nnnccwa	38	20	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	38	21	Tünde	Tünde	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	22	Golenár1	golenár1	NN
work_su6zfttle5hq7fxccg3nnnccwa	38	23	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	38	24	Swati	Swati	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	25	Roy1	Roy1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	26	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	38	27	George	George	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	28	Purkins1	Purkins1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	29	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	38	30	Tamás	Tamás	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	31	Balla3	Balla3	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	32	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	38	33	György	György	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	34	Hajnóczky1	Hajnóczky1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	38	35	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	39	1	1	1	CD
work_su6zfttle5hq7fxccg3nnnccwa	39	2	Thomas	Thomas	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	3	Jefferson	Jefferson	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	4	University	University	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	5	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	39	6	Philadelphia	Philadelphia	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	7	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	39	8	PA	PA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	9	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	39	10	USA	USA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	11	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	39	12	2	2	CD
work_su6zfttle5hq7fxccg3nnnccwa	39	13	Semmelweis	Semmelweis	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	14	University	University	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	15	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	39	16	Budapest	Budapest	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	17	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	39	18	Hungary	Hungary	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	19	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	39	20	3National	3National	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	21	Institutes	Institutes	NNPS
work_su6zfttle5hq7fxccg3nnnccwa	39	22	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	39	23	Child	Child	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	24	Health	Health	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	25	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	39	26	Human	Human	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	27	Development	Development	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	28	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	39	29	Bethesda	Bethesda	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	30	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	39	31	MD	MD	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	32	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	39	33	USA	USA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	39	34	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	40	1	The	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	40	2	local	local	JJ
work_su6zfttle5hq7fxccg3nnnccwa	40	3	coupling	coupling	NN
work_su6zfttle5hq7fxccg3nnnccwa	40	4	between	between	IN
work_su6zfttle5hq7fxccg3nnnccwa	40	5	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	40	6	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	40	7	mitochondria	mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	40	8	is	be	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	40	9	essential	essential	JJ
work_su6zfttle5hq7fxccg3nnnccwa	40	10	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	40	11	proper	proper	JJ
work_su6zfttle5hq7fxccg3nnnccwa	40	12	cell	cell	NN
work_su6zfttle5hq7fxccg3nnnccwa	40	13	function	function	NN
work_su6zfttle5hq7fxccg3nnnccwa	40	14	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	41	1	A	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	41	2	main	main	JJ
work_su6zfttle5hq7fxccg3nnnccwa	41	3	role	role	NN
work_su6zfttle5hq7fxccg3nnnccwa	41	4	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	41	5	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	41	6	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	41	7	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	41	8	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	41	9	junctions	junction	NNS
work_su6zfttle5hq7fxccg3nnnccwa	41	10	is	be	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	41	11	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	41	12	provide	provide	VB
work_su6zfttle5hq7fxccg3nnnccwa	41	13	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	41	14	local	local	JJ
work_su6zfttle5hq7fxccg3nnnccwa	41	15	calcium	calcium	NN
work_su6zfttle5hq7fxccg3nnnccwa	41	16	signaling	signal	VBG
work_su6zfttle5hq7fxccg3nnnccwa	41	17	domain	domain	NN
work_su6zfttle5hq7fxccg3nnnccwa	41	18	that	that	WDT
work_su6zfttle5hq7fxccg3nnnccwa	41	19	is	be	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	41	20	important	important	JJ
work_su6zfttle5hq7fxccg3nnnccwa	41	21	both	both	DT
work_su6zfttle5hq7fxccg3nnnccwa	41	22	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	41	23	keeping	keep	VBG
work_su6zfttle5hq7fxccg3nnnccwa	41	24	energy	energy	NN
work_su6zfttle5hq7fxccg3nnnccwa	41	25	production	production	NN
work_su6zfttle5hq7fxccg3nnnccwa	41	26	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	41	27	line	line	NN
work_su6zfttle5hq7fxccg3nnnccwa	41	28	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	41	29	demand	demand	NN
work_su6zfttle5hq7fxccg3nnnccwa	41	30	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	41	31	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	41	32	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	41	33	control	control	NN
work_su6zfttle5hq7fxccg3nnnccwa	41	34	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	41	35	apoptotic	apoptotic	JJ
work_su6zfttle5hq7fxccg3nnnccwa	41	36	mechanisms	mechanism	NNS
work_su6zfttle5hq7fxccg3nnnccwa	41	37	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	42	1	So	so	RB
work_su6zfttle5hq7fxccg3nnnccwa	42	2	far	far	RB
work_su6zfttle5hq7fxccg3nnnccwa	42	3	it	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	42	4	has	have	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	42	5	not	not	RB
work_su6zfttle5hq7fxccg3nnnccwa	42	6	been	be	VBN
work_su6zfttle5hq7fxccg3nnnccwa	42	7	possible	possible	JJ
work_su6zfttle5hq7fxccg3nnnccwa	42	8	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	42	9	visualize	visualize	VB
work_su6zfttle5hq7fxccg3nnnccwa	42	10	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	42	11	tiny	tiny	JJ
work_su6zfttle5hq7fxccg3nnnccwa	42	12	ER	er	NN
work_su6zfttle5hq7fxccg3nnnccwa	42	13	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	42	14	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	42	15	contact	contact	NN
work_su6zfttle5hq7fxccg3nnnccwa	42	16	points	point	NNS
work_su6zfttle5hq7fxccg3nnnccwa	42	17	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	42	18	living	living	NN
work_su6zfttle5hq7fxccg3nnnccwa	42	19	cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	42	20	or	or	CC
work_su6zfttle5hq7fxccg3nnnccwa	42	21	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	42	22	monitor	monitor	VB
work_su6zfttle5hq7fxccg3nnnccwa	42	23	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	42	24	localized	localized	JJ
work_su6zfttle5hq7fxccg3nnnccwa	42	25	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	42	26	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	42	27	]	]	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	42	28	changes	change	NNS
work_su6zfttle5hq7fxccg3nnnccwa	42	29	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	42	30	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	42	31	narrow	narrow	JJ
work_su6zfttle5hq7fxccg3nnnccwa	42	32	space	space	NN
work_su6zfttle5hq7fxccg3nnnccwa	42	33	between	between	IN
work_su6zfttle5hq7fxccg3nnnccwa	42	34	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	42	35	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	42	36	mitochondria	mitochondrion	NNS
work_su6zfttle5hq7fxccg3nnnccwa	42	37	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	42	38	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	42	39	Ca2þ]ER	Ca2þ]ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	42	40	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	42	41	mt	mt	NNP
work_su6zfttle5hq7fxccg3nnnccwa	42	42	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	42	43	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	43	1	Here	here	RB
work_su6zfttle5hq7fxccg3nnnccwa	43	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	43	3	we	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	43	4	exploited	exploit	VBD
work_su6zfttle5hq7fxccg3nnnccwa	43	5	rapamycin	rapamycin	NNS
work_su6zfttle5hq7fxccg3nnnccwa	43	6	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	43	7	mediated	mediate	VBN
work_su6zfttle5hq7fxccg3nnnccwa	43	8	heterodimerization	heterodimerization	NN
work_su6zfttle5hq7fxccg3nnnccwa	43	9	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	43	10	FKBP12	FKBP12	NNP
work_su6zfttle5hq7fxccg3nnnccwa	43	11	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	43	12	FRB	FRB	NNP
work_su6zfttle5hq7fxccg3nnnccwa	43	13	domains	domain	NNS
work_su6zfttle5hq7fxccg3nnnccwa	43	14	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	43	15	fluorescent	fluorescent	JJ
work_su6zfttle5hq7fxccg3nnnccwa	43	16	protein	protein	NN
work_su6zfttle5hq7fxccg3nnnccwa	43	17	constructs	construct	NNS
work_su6zfttle5hq7fxccg3nnnccwa	43	18	respectively	respectively	RB
work_su6zfttle5hq7fxccg3nnnccwa	43	19	targeted	target	VBN
work_su6zfttle5hq7fxccg3nnnccwa	43	20	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	43	21	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	43	22	outer	outer	JJ
work_su6zfttle5hq7fxccg3nnnccwa	43	23	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	43	24	membrane	membrane	NN
work_su6zfttle5hq7fxccg3nnnccwa	43	25	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	43	26	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	43	27	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	43	28	as	as	IN
work_su6zfttle5hq7fxccg3nnnccwa	43	29	drug	drug	NN
work_su6zfttle5hq7fxccg3nnnccwa	43	30	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	43	31	inducible	inducible	JJ
work_su6zfttle5hq7fxccg3nnnccwa	43	32	inter	inter	JJ
work_su6zfttle5hq7fxccg3nnnccwa	43	33	-	-	JJ
work_su6zfttle5hq7fxccg3nnnccwa	43	34	organelle	organelle	JJ
work_su6zfttle5hq7fxccg3nnnccwa	43	35	linkers	linker	NNS
work_su6zfttle5hq7fxccg3nnnccwa	43	36	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	43	37	identify	identify	VB
work_su6zfttle5hq7fxccg3nnnccwa	43	38	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	43	39	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	43	40	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	43	41	contacts	contact	NNS
work_su6zfttle5hq7fxccg3nnnccwa	43	42	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	43	43	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	43	44	measure	measure	VB
work_su6zfttle5hq7fxccg3nnnccwa	43	45	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	43	46	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	43	47	Ca	Ca	NNP
work_su6zfttle5hq7fxccg3nnnccwa	43	48	2þ	2þ	CD
work_su6zfttle5hq7fxccg3nnnccwa	43	49	]	]	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	43	50	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	43	51	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	43	52	mt	mt	NNP
work_su6zfttle5hq7fxccg3nnnccwa	43	53	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	44	1	High-	High-	NNP
work_su6zfttle5hq7fxccg3nnnccwa	44	2	resolution	resolution	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	3	fluorescence	fluorescence	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	4	imaging	imaging	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	5	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	44	6	3D	3d	JJ
work_su6zfttle5hq7fxccg3nnnccwa	44	7	reconstruction	reconstruction	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	8	revealed	reveal	VBD
work_su6zfttle5hq7fxccg3nnnccwa	44	9	rapamycin	rapamycin	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	10	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	44	11	in-	in-	RB
work_su6zfttle5hq7fxccg3nnnccwa	44	12	duced	duced	JJ
work_su6zfttle5hq7fxccg3nnnccwa	44	13	clustering	clustering	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	14	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	44	15	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	44	16	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	44	17	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	44	18	targeted	target	VBN
work_su6zfttle5hq7fxccg3nnnccwa	44	19	fluorescent	fluorescent	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	20	linker	linker	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	21	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	44	22	half	half	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	23	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	44	24	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	44	25	contact	contact	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	26	areas	area	NNS
work_su6zfttle5hq7fxccg3nnnccwa	44	27	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	44	28	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	44	29	mitochondria	mitochondria	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	30	without	without	IN
work_su6zfttle5hq7fxccg3nnnccwa	44	31	major	major	JJ
work_su6zfttle5hq7fxccg3nnnccwa	44	32	changes	change	NNS
work_su6zfttle5hq7fxccg3nnnccwa	44	33	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	44	34	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	44	35	spatial	spatial	JJ
work_su6zfttle5hq7fxccg3nnnccwa	44	36	arrangement	arrangement	NN
work_su6zfttle5hq7fxccg3nnnccwa	44	37	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	44	38	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	44	39	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	44	40	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	45	1	Essentially	essentially	RB
work_su6zfttle5hq7fxccg3nnnccwa	45	2	all	all	DT
work_su6zfttle5hq7fxccg3nnnccwa	45	3	mitochondria	mitochondrion	NNS
work_su6zfttle5hq7fxccg3nnnccwa	45	4	displayed	display	VBD
work_su6zfttle5hq7fxccg3nnnccwa	45	5	contacts	contact	NNS
work_su6zfttle5hq7fxccg3nnnccwa	45	6	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	45	7	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	45	8	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	45	9	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	45	10	both	both	CC
work_su6zfttle5hq7fxccg3nnnccwa	45	11	RBL-2H3	RBL-2H3	NNS
work_su6zfttle5hq7fxccg3nnnccwa	45	12	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	45	13	H9c2	H9c2	NNP
work_su6zfttle5hq7fxccg3nnnccwa	45	14	cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	45	15	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	46	1	Plasma	plasma	NN
work_su6zfttle5hq7fxccg3nnnccwa	46	2	membrane	membrane	NN
work_su6zfttle5hq7fxccg3nnnccwa	46	3	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	46	4	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	46	5	contacts	contact	NNS
work_su6zfttle5hq7fxccg3nnnccwa	46	6	were	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	46	7	less	less	RBR
work_su6zfttle5hq7fxccg3nnnccwa	46	8	frequent	frequent	JJ
work_su6zfttle5hq7fxccg3nnnccwa	46	9	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	46	10	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	46	11	stacks	stack	NNS
work_su6zfttle5hq7fxccg3nnnccwa	46	12	being	be	VBG
work_su6zfttle5hq7fxccg3nnnccwa	46	13	inserted	insert	VBN
work_su6zfttle5hq7fxccg3nnnccwa	46	14	between	between	IN
work_su6zfttle5hq7fxccg3nnnccwa	46	15	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	46	16	two	two	CD
work_su6zfttle5hq7fxccg3nnnccwa	46	17	organelles	organelle	NNS
work_su6zfttle5hq7fxccg3nnnccwa	46	18	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	47	1	Single	single	JJ
work_su6zfttle5hq7fxccg3nnnccwa	47	2	mitochondria	mitochondrion	NNS
work_su6zfttle5hq7fxccg3nnnccwa	47	3	display	display	VBP
work_su6zfttle5hq7fxccg3nnnccwa	47	4	discrete	discrete	JJ
work_su6zfttle5hq7fxccg3nnnccwa	47	5	patches	patch	NNS
work_su6zfttle5hq7fxccg3nnnccwa	47	6	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	47	7	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	47	8	contacts	contact	NNS
work_su6zfttle5hq7fxccg3nnnccwa	47	9	as	as	RB
work_su6zfttle5hq7fxccg3nnnccwa	47	10	well	well	RB
work_su6zfttle5hq7fxccg3nnnccwa	47	11	as	as	IN
work_su6zfttle5hq7fxccg3nnnccwa	47	12	continuous	continuous	JJ
work_su6zfttle5hq7fxccg3nnnccwa	47	13	as-	as-	NN
work_su6zfttle5hq7fxccg3nnnccwa	47	14	sociations	sociation	NNS
work_su6zfttle5hq7fxccg3nnnccwa	47	15	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	48	1	Cytoplasmic	cytoplasmic	JJ
work_su6zfttle5hq7fxccg3nnnccwa	48	2	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	48	3	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	48	4	matrix	matrix	NN
work_su6zfttle5hq7fxccg3nnnccwa	48	5	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	48	6	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	48	7	]	]	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	48	8	showed	show	VBD
work_su6zfttle5hq7fxccg3nnnccwa	48	9	robust	robust	JJ
work_su6zfttle5hq7fxccg3nnnccwa	48	10	ER	er	NN
work_su6zfttle5hq7fxccg3nnnccwa	48	11	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	48	12	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	48	13	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	48	14	transfer	transfer	NN
work_su6zfttle5hq7fxccg3nnnccwa	48	15	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	48	16	considerable	considerable	JJ
work_su6zfttle5hq7fxccg3nnnccwa	48	17	heterogeneity	heterogeneity	NN
work_su6zfttle5hq7fxccg3nnnccwa	48	18	even	even	RB
work_su6zfttle5hq7fxccg3nnnccwa	48	19	among	among	IN
work_su6zfttle5hq7fxccg3nnnccwa	48	20	adjacent	adjacent	JJ
work_su6zfttle5hq7fxccg3nnnccwa	48	21	mitochondria	mitochondrion	NNS
work_su6zfttle5hq7fxccg3nnnccwa	48	22	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	49	1	Pericam	Pericam	NNP
work_su6zfttle5hq7fxccg3nnnccwa	49	2	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	49	3	containing	contain	VBG
work_su6zfttle5hq7fxccg3nnnccwa	49	4	linkers	linker	NNS
work_su6zfttle5hq7fxccg3nnnccwa	49	5	revealed	reveal	VBD
work_su6zfttle5hq7fxccg3nnnccwa	49	6	IP3-induced	ip3-induced	JJ
work_su6zfttle5hq7fxccg3nnnccwa	49	7	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	49	8	Ca	Ca	NNP
work_su6zfttle5hq7fxccg3nnnccwa	49	9	2þ	2þ	CD
work_su6zfttle5hq7fxccg3nnnccwa	49	10	]	]	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	49	11	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	49	12	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	49	13	mt	mt	NNP
work_su6zfttle5hq7fxccg3nnnccwa	49	14	signals	signal	NNS
work_su6zfttle5hq7fxccg3nnnccwa	49	15	that	that	WDT
work_su6zfttle5hq7fxccg3nnnccwa	49	16	were	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	49	17	resistant	resistant	JJ
work_su6zfttle5hq7fxccg3nnnccwa	49	18	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	49	19	buffering	buffer	VBG
work_su6zfttle5hq7fxccg3nnnccwa	49	20	bulk	bulk	JJ
work_su6zfttle5hq7fxccg3nnnccwa	49	21	cytosolic	cytosolic	NN
work_su6zfttle5hq7fxccg3nnnccwa	49	22	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	49	23	Ca	Ca	NNP
work_su6zfttle5hq7fxccg3nnnccwa	49	24	2þ	2þ	NNP
work_su6zfttle5hq7fxccg3nnnccwa	49	25	]	]	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	49	26	c	c	NN
work_su6zfttle5hq7fxccg3nnnccwa	49	27	in-	in-	JJ
work_su6zfttle5hq7fxccg3nnnccwa	49	28	creases	crease	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	49	29	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	49	30	exceeded	exceed	VBD
work_su6zfttle5hq7fxccg3nnnccwa	49	31	9	9	CD
work_su6zfttle5hq7fxccg3nnnccwa	49	32	uM.	um.	RB
work_su6zfttle5hq7fxccg3nnnccwa	50	1	The	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	50	2	largest	large	JJS
work_su6zfttle5hq7fxccg3nnnccwa	50	3	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	50	4	Ca	ca	NN
work_su6zfttle5hq7fxccg3nnnccwa	50	5	2þ	2þ	CD
work_su6zfttle5hq7fxccg3nnnccwa	50	6	]	]	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	50	7	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	50	8	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	50	9	mt	mt	NNP
work_su6zfttle5hq7fxccg3nnnccwa	50	10	signals	signal	NNS
work_su6zfttle5hq7fxccg3nnnccwa	50	11	did	do	VBD
work_su6zfttle5hq7fxccg3nnnccwa	50	12	not	not	RB
work_su6zfttle5hq7fxccg3nnnccwa	50	13	occur	occur	VB
work_su6zfttle5hq7fxccg3nnnccwa	50	14	at	at	IN
work_su6zfttle5hq7fxccg3nnnccwa	50	15	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	50	16	tightest	tight	JJS
work_su6zfttle5hq7fxccg3nnnccwa	50	17	associations	association	NNS
work_su6zfttle5hq7fxccg3nnnccwa	50	18	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	50	19	indicating	indicate	VBG
work_su6zfttle5hq7fxccg3nnnccwa	50	20	space	space	NN
work_su6zfttle5hq7fxccg3nnnccwa	50	21	requirements	requirement	NNS
work_su6zfttle5hq7fxccg3nnnccwa	50	22	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	50	23	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	50	24	Ca	Ca	NNP
work_su6zfttle5hq7fxccg3nnnccwa	50	25	2þ	2þ	CD
work_su6zfttle5hq7fxccg3nnnccwa	50	26	transfer	transfer	NN
work_su6zfttle5hq7fxccg3nnnccwa	50	27	machinery	machinery	NN
work_su6zfttle5hq7fxccg3nnnccwa	50	28	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	50	29	functional	functional	JJ
work_su6zfttle5hq7fxccg3nnnccwa	50	30	diversity	diversity	NN
work_su6zfttle5hq7fxccg3nnnccwa	50	31	among	among	IN
work_su6zfttle5hq7fxccg3nnnccwa	50	32	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	50	33	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	50	34	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	50	35	junctions	junction	NNS
work_su6zfttle5hq7fxccg3nnnccwa	50	36	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	51	1	These	these	DT
work_su6zfttle5hq7fxccg3nnnccwa	51	2	studies	study	NNS
work_su6zfttle5hq7fxccg3nnnccwa	51	3	provide	provide	VBP
work_su6zfttle5hq7fxccg3nnnccwa	51	4	direct	direct	JJ
work_su6zfttle5hq7fxccg3nnnccwa	51	5	evidence	evidence	NN
work_su6zfttle5hq7fxccg3nnnccwa	51	6	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	51	7	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	51	8	existence	existence	NN
work_su6zfttle5hq7fxccg3nnnccwa	51	9	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	51	10	high	high	JJ
work_su6zfttle5hq7fxccg3nnnccwa	51	11	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	51	12	microdo-	microdo-	NN
work_su6zfttle5hq7fxccg3nnnccwa	51	13	mains	main	NNS
work_su6zfttle5hq7fxccg3nnnccwa	51	14	between	between	IN
work_su6zfttle5hq7fxccg3nnnccwa	51	15	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	51	16	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	51	17	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	51	18	mitochondria	mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	51	19	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	51	20	living	live	VBG
work_su6zfttle5hq7fxccg3nnnccwa	51	21	cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	51	22	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	51	23	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	51	24	open	open	VB
work_su6zfttle5hq7fxccg3nnnccwa	51	25	new	new	JJ
work_su6zfttle5hq7fxccg3nnnccwa	51	26	possibil-	possibil-	JJ
work_su6zfttle5hq7fxccg3nnnccwa	51	27	ities	itie	NNS
work_su6zfttle5hq7fxccg3nnnccwa	51	28	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	51	29	probe	probe	VB
work_su6zfttle5hq7fxccg3nnnccwa	51	30	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	51	31	functional	functional	JJ
work_su6zfttle5hq7fxccg3nnnccwa	51	32	importance	importance	NN
work_su6zfttle5hq7fxccg3nnnccwa	51	33	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	51	34	this	this	DT
work_su6zfttle5hq7fxccg3nnnccwa	51	35	specialized	specialized	JJ
work_su6zfttle5hq7fxccg3nnnccwa	51	36	compartment	compartment	NN
work_su6zfttle5hq7fxccg3nnnccwa	51	37	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	52	1	1969-Pos	1969-Pos	NFP
work_su6zfttle5hq7fxccg3nnnccwa	52	2	Dependence	dependence	NN
work_su6zfttle5hq7fxccg3nnnccwa	52	3	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	52	4	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	5	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	52	6	Mitochondria	Mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	7	Calcium	Calcium	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	8	Transfer	Transfer	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	9	on	on	IN
work_su6zfttle5hq7fxccg3nnnccwa	52	10	Different	Different	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	11	IP3	IP3	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	12	Receptor	Receptor	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	13	Isoforms	Isoforms	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	14	Tunde	Tunde	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	15	Golenar1	Golenar1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	16	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	52	17	Szava	Szava	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	18	Bansaghi1	Bansaghi1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	19	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	52	20	Gyorgy	Gyorgy	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	21	Csordas1	Csordas1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	22	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	52	23	David	David	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	24	I.	I.	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	25	Yule2	yule2	NN
work_su6zfttle5hq7fxccg3nnnccwa	52	26	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	52	27	Suresh	Suresh	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	28	K.	K.	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	29	Joseph1	Joseph1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	30	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	52	31	Gyorgy	Gyorgy	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	32	Hajnoczky1	Hajnoczky1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	52	33	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	53	1	1Thomas	1Thomas	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	2	Jefferson	Jefferson	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	3	University	University	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	4	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	53	5	Philadelphia	Philadelphia	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	6	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	53	7	PA	PA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	8	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	53	9	USA	USA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	10	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	53	11	2University	2University	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	12	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	53	13	Rochester	Rochester	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	14	Medical	Medical	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	15	Center	Center	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	16	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	53	17	Rochester	Rochester	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	18	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	53	19	NY	NY	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	20	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	53	21	USA	USA	NNP
work_su6zfttle5hq7fxccg3nnnccwa	53	22	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	54	1	IP3	ip3	NN
work_su6zfttle5hq7fxccg3nnnccwa	54	2	receptors	receptor	NNS
work_su6zfttle5hq7fxccg3nnnccwa	54	3	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	54	4	IP3Rs	ip3rs	LS
work_su6zfttle5hq7fxccg3nnnccwa	54	5	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	54	6	release	release	VBP
work_su6zfttle5hq7fxccg3nnnccwa	54	7	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	54	8	from	from	IN
work_su6zfttle5hq7fxccg3nnnccwa	54	9	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	54	10	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	54	11	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	54	12	which	which	WDT
work_su6zfttle5hq7fxccg3nnnccwa	54	13	is	be	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	54	14	locally	locally	RB
work_su6zfttle5hq7fxccg3nnnccwa	54	15	relayed	relay	VBN
work_su6zfttle5hq7fxccg3nnnccwa	54	16	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	54	17	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	54	18	mitochondria	mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	54	19	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	54	20	control	control	VB
work_su6zfttle5hq7fxccg3nnnccwa	54	21	several	several	JJ
work_su6zfttle5hq7fxccg3nnnccwa	54	22	aspects	aspect	NNS
work_su6zfttle5hq7fxccg3nnnccwa	54	23	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	54	24	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	54	25	function	function	NN
work_su6zfttle5hq7fxccg3nnnccwa	54	26	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	55	1	Recent	recent	JJ
work_su6zfttle5hq7fxccg3nnnccwa	55	2	stud-	stud-	JJ
work_su6zfttle5hq7fxccg3nnnccwa	55	3	ies	ie	NNS
work_su6zfttle5hq7fxccg3nnnccwa	55	4	have	have	VBP
work_su6zfttle5hq7fxccg3nnnccwa	55	5	suggested	suggest	VBN
work_su6zfttle5hq7fxccg3nnnccwa	55	6	that	that	DT
work_su6zfttle5hq7fxccg3nnnccwa	55	7	type	type	NN
work_su6zfttle5hq7fxccg3nnnccwa	55	8	3	3	CD
work_su6zfttle5hq7fxccg3nnnccwa	55	9	IP3Rs	IP3Rs	NNP
work_su6zfttle5hq7fxccg3nnnccwa	55	10	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	55	11	IP3R3	IP3R3	NNP
work_su6zfttle5hq7fxccg3nnnccwa	55	12	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	55	13	are	be	VBP
work_su6zfttle5hq7fxccg3nnnccwa	55	14	particularly	particularly	RB
work_su6zfttle5hq7fxccg3nnnccwa	55	15	important	important	JJ
work_su6zfttle5hq7fxccg3nnnccwa	55	16	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	55	17	me-	me-	XX
work_su6zfttle5hq7fxccg3nnnccwa	55	18	diating	diate	VBG
work_su6zfttle5hq7fxccg3nnnccwa	55	19	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	55	20	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	55	21	transfer	transfer	NN
work_su6zfttle5hq7fxccg3nnnccwa	55	22	at	at	IN
work_su6zfttle5hq7fxccg3nnnccwa	55	23	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	55	24	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	55	25	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	55	26	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	55	27	interface	interface	NN
work_su6zfttle5hq7fxccg3nnnccwa	55	28	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	56	1	We	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	56	2	set	set	VBD
work_su6zfttle5hq7fxccg3nnnccwa	56	3	out	out	RP
work_su6zfttle5hq7fxccg3nnnccwa	56	4	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	56	5	sys-	sys-	NNP
work_su6zfttle5hq7fxccg3nnnccwa	56	6	tematically	tematically	RB
work_su6zfttle5hq7fxccg3nnnccwa	56	7	evaluate	evaluate	VB
work_su6zfttle5hq7fxccg3nnnccwa	56	8	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	56	9	respective	respective	JJ
work_su6zfttle5hq7fxccg3nnnccwa	56	10	role	role	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	11	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	56	12	each	each	DT
work_su6zfttle5hq7fxccg3nnnccwa	56	13	IP3R	ip3r	SYM
work_su6zfttle5hq7fxccg3nnnccwa	56	14	isoform	isoform	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	15	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	56	16	chicken	chicken	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	17	DT40	DT40	NNP
work_su6zfttle5hq7fxccg3nnnccwa	56	18	cell	cell	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	19	lines	line	NNS
work_su6zfttle5hq7fxccg3nnnccwa	56	20	that	that	WDT
work_su6zfttle5hq7fxccg3nnnccwa	56	21	express	express	VBP
work_su6zfttle5hq7fxccg3nnnccwa	56	22	only	only	RB
work_su6zfttle5hq7fxccg3nnnccwa	56	23	one	one	CD
work_su6zfttle5hq7fxccg3nnnccwa	56	24	IP3R	ip3r	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	25	isoform	isoform	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	26	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	56	27	double	double	JJ
work_su6zfttle5hq7fxccg3nnnccwa	56	28	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	56	29	knockout	knockout	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	30	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	56	31	DKO1	DKO1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	56	32	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	56	33	DKO2	DKO2	NNP
work_su6zfttle5hq7fxccg3nnnccwa	56	34	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	56	35	DKO3	DKO3	NNP
work_su6zfttle5hq7fxccg3nnnccwa	56	36	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	56	37	or	or	CC
work_su6zfttle5hq7fxccg3nnnccwa	56	38	provide	provide	VB
work_su6zfttle5hq7fxccg3nnnccwa	56	39	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	56	40	null	null	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	41	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	56	42	background	background	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	43	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	56	44	triple	triple	JJ
work_su6zfttle5hq7fxccg3nnnccwa	56	45	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	56	46	knockout	knockout	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	47	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	56	48	TKO	TKO	NNP
work_su6zfttle5hq7fxccg3nnnccwa	56	49	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	56	50	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	56	51	analysis	analysis	NN
work_su6zfttle5hq7fxccg3nnnccwa	56	52	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	56	53	mammalian	mammalian	NNP
work_su6zfttle5hq7fxccg3nnnccwa	56	54	IP3Rs	IP3Rs	NNP
work_su6zfttle5hq7fxccg3nnnccwa	56	55	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	56	56	their	-PRON-	PRP$
work_su6zfttle5hq7fxccg3nnnccwa	56	57	mutants	mutant	NNS
work_su6zfttle5hq7fxccg3nnnccwa	56	58	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	57	1	Simultaneous	simultaneous	JJ
work_su6zfttle5hq7fxccg3nnnccwa	57	2	imaging	imaging	NN
work_su6zfttle5hq7fxccg3nnnccwa	57	3	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	57	4	cytoplasmic	cytoplasmic	JJ
work_su6zfttle5hq7fxccg3nnnccwa	57	5	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	57	6	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	57	7	matrix	matrix	NN
work_su6zfttle5hq7fxccg3nnnccwa	57	8	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	57	9	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	57	10	]	]	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	57	11	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	57	12	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	57	13	Ca2þ]c	Ca2þ]c	NNS
work_su6zfttle5hq7fxccg3nnnccwa	57	14	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	57	15	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	57	16	Ca2þ]m	ca2þ]m	NN
work_su6zfttle5hq7fxccg3nnnccwa	57	17	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	57	18	was	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	57	19	performed	perform	VBN
work_su6zfttle5hq7fxccg3nnnccwa	57	20	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	57	21	either	either	CC
work_su6zfttle5hq7fxccg3nnnccwa	57	22	permeabilized	permeabilized	JJ
work_su6zfttle5hq7fxccg3nnnccwa	57	23	cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	57	24	chal-	chal-	VBP
work_su6zfttle5hq7fxccg3nnnccwa	57	25	lenged	lenge	VBN
work_su6zfttle5hq7fxccg3nnnccwa	57	26	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	57	27	IP3	IP3	NNP
work_su6zfttle5hq7fxccg3nnnccwa	57	28	or	or	CC
work_su6zfttle5hq7fxccg3nnnccwa	57	29	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	57	30	muscarinic	muscarinic	JJ
work_su6zfttle5hq7fxccg3nnnccwa	57	31	receptor	receptor	NN
work_su6zfttle5hq7fxccg3nnnccwa	57	32	overexpressing	overexpresse	VBG
work_su6zfttle5hq7fxccg3nnnccwa	57	33	intact	intact	JJ
work_su6zfttle5hq7fxccg3nnnccwa	57	34	cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	57	35	stimulated	stimulate	VBN
work_su6zfttle5hq7fxccg3nnnccwa	57	36	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	57	37	carbachol	carbachol	NNP
work_su6zfttle5hq7fxccg3nnnccwa	57	38	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	57	39	Cch	Cch	NNP
work_su6zfttle5hq7fxccg3nnnccwa	57	40	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	57	41	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	57	42	an	an	DT
work_su6zfttle5hq7fxccg3nnnccwa	57	43	IP3-linked	ip3-linked	JJ
work_su6zfttle5hq7fxccg3nnnccwa	57	44	agonist	agonist	NN
work_su6zfttle5hq7fxccg3nnnccwa	57	45	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	58	1	Saturating	Saturating	NNP
work_su6zfttle5hq7fxccg3nnnccwa	58	2	IP3	IP3	NNP
work_su6zfttle5hq7fxccg3nnnccwa	58	3	evoked	evoke	VBD
work_su6zfttle5hq7fxccg3nnnccwa	58	4	complete	complete	JJ
work_su6zfttle5hq7fxccg3nnnccwa	58	5	discharge	discharge	NN
work_su6zfttle5hq7fxccg3nnnccwa	58	6	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	58	7	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	58	8	calcium	calcium	NN
work_su6zfttle5hq7fxccg3nnnccwa	58	9	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	58	10	resulted	result	VBD
work_su6zfttle5hq7fxccg3nnnccwa	58	11	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	58	12	comparable	comparable	JJ
work_su6zfttle5hq7fxccg3nnnccwa	58	13	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	58	14	Ca2þ]m	ca2þ]m	NN
work_su6zfttle5hq7fxccg3nnnccwa	58	15	increases	increase	NNS
work_su6zfttle5hq7fxccg3nnnccwa	58	16	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	58	17	each	each	DT
work_su6zfttle5hq7fxccg3nnnccwa	58	18	DKO	dko	NN
work_su6zfttle5hq7fxccg3nnnccwa	58	19	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	59	1	Furthermore	furthermore	RB
work_su6zfttle5hq7fxccg3nnnccwa	59	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	59	3	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	59	4	Cch	Cch	NNP
work_su6zfttle5hq7fxccg3nnnccwa	59	5	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	59	6	induced	induce	VBN
work_su6zfttle5hq7fxccg3nnnccwa	59	7	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	59	8	Ca2þ]c	ca2þ]c	NN
work_su6zfttle5hq7fxccg3nnnccwa	59	9	spike	spike	NN
work_su6zfttle5hq7fxccg3nnnccwa	59	10	was	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	59	11	closely	closely	RB
work_su6zfttle5hq7fxccg3nnnccwa	59	12	followed	follow	VBN
work_su6zfttle5hq7fxccg3nnnccwa	59	13	by	by	IN
work_su6zfttle5hq7fxccg3nnnccwa	59	14	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	59	15	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	59	16	Ca2þ]m	ca2þ]m	NN
work_su6zfttle5hq7fxccg3nnnccwa	59	17	rise	rise	NN
work_su6zfttle5hq7fxccg3nnnccwa	59	18	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	59	19	each	each	DT
work_su6zfttle5hq7fxccg3nnnccwa	59	20	DKO	dko	NN
work_su6zfttle5hq7fxccg3nnnccwa	59	21	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	60	1	When	when	WRB
work_su6zfttle5hq7fxccg3nnnccwa	60	2	TKO	tko	NN
work_su6zfttle5hq7fxccg3nnnccwa	60	3	cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	60	4	were	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	60	5	rescued	rescue	VBN
work_su6zfttle5hq7fxccg3nnnccwa	60	6	with	with	IN
work_su6zfttle5hq7fxccg3nnnccwa	60	7	rat	rat	NN
work_su6zfttle5hq7fxccg3nnnccwa	60	8	IP3R1	IP3R1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	60	9	or	or	CC
work_su6zfttle5hq7fxccg3nnnccwa	60	10	IP3R3	IP3R3	NNP
work_su6zfttle5hq7fxccg3nnnccwa	60	11	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	60	12	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	60	13	latter	latter	NN
work_su6zfttle5hq7fxccg3nnnccwa	60	14	mediated	mediate	VBD
work_su6zfttle5hq7fxccg3nnnccwa	60	15	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	60	16	larger	large	JJR
work_su6zfttle5hq7fxccg3nnnccwa	60	17	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	60	18	Ca2þ]c	ca2þ]c	NN
work_su6zfttle5hq7fxccg3nnnccwa	60	19	transient	transient	NN
work_su6zfttle5hq7fxccg3nnnccwa	60	20	but	but	CC
work_su6zfttle5hq7fxccg3nnnccwa	60	21	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	60	22	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	60	23	Ca2þ]m	ca2þ]m	NN
work_su6zfttle5hq7fxccg3nnnccwa	60	24	increases	increase	NNS
work_su6zfttle5hq7fxccg3nnnccwa	60	25	were	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	60	26	very	very	RB
work_su6zfttle5hq7fxccg3nnnccwa	60	27	similar	similar	JJ
work_su6zfttle5hq7fxccg3nnnccwa	60	28	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	60	29	both	both	DT
work_su6zfttle5hq7fxccg3nnnccwa	60	30	isoforms	isoform	NNS
work_su6zfttle5hq7fxccg3nnnccwa	60	31	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	61	1	The	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	61	2	relationship	relationship	NN
work_su6zfttle5hq7fxccg3nnnccwa	61	3	between	between	IN
work_su6zfttle5hq7fxccg3nnnccwa	61	4	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	61	5	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	61	6	Ca2þ]c	Ca2þ]c	NNP
work_su6zfttle5hq7fxccg3nnnccwa	61	7	peak	peak	NN
work_su6zfttle5hq7fxccg3nnnccwa	61	8	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	61	9	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	61	10	corresponding	corresponding	JJ
work_su6zfttle5hq7fxccg3nnnccwa	61	11	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	61	12	Ca2þ]m	ca2þ]m	JJ
work_su6zfttle5hq7fxccg3nnnccwa	61	13	response	response	NN
work_su6zfttle5hq7fxccg3nnnccwa	61	14	was	be	VBD
work_su6zfttle5hq7fxccg3nnnccwa	61	15	also	also	RB
work_su6zfttle5hq7fxccg3nnnccwa	61	16	very	very	RB
work_su6zfttle5hq7fxccg3nnnccwa	61	17	similar	similar	JJ
work_su6zfttle5hq7fxccg3nnnccwa	61	18	for	for	IN
work_su6zfttle5hq7fxccg3nnnccwa	61	19	IP3R1	IP3R1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	61	20	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	61	21	IP3R3	IP3R3	NNP
work_su6zfttle5hq7fxccg3nnnccwa	61	22	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	62	1	To	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	62	2	assess	assess	VB
work_su6zfttle5hq7fxccg3nnnccwa	62	3	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	62	4	impact	impact	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	5	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	62	6	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	62	7	release	release	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	8	kinetic	kinetic	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	9	through	through	IN
work_su6zfttle5hq7fxccg3nnnccwa	62	10	IP3R1	IP3R1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	62	11	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	62	12	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	62	13	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	14	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	15	transfer	transfer	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	16	we	-PRON-	PRP
work_su6zfttle5hq7fxccg3nnnccwa	62	17	used	use	VBD
work_su6zfttle5hq7fxccg3nnnccwa	62	18	two	two	CD
work_su6zfttle5hq7fxccg3nnnccwa	62	19	point	point	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	20	mutants	mutant	NNS
work_su6zfttle5hq7fxccg3nnnccwa	62	21	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	62	22	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	62	23	IP3R1	IP3R1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	62	24	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	62	25	which	which	WDT
work_su6zfttle5hq7fxccg3nnnccwa	62	26	display	display	VBP
work_su6zfttle5hq7fxccg3nnnccwa	62	27	either	either	CC
work_su6zfttle5hq7fxccg3nnnccwa	62	28	enhanced	enhanced	JJ
work_su6zfttle5hq7fxccg3nnnccwa	62	29	inhibition	inhibition	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	30	by	by	IN
work_su6zfttle5hq7fxccg3nnnccwa	62	31	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	32	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	62	33	D426N	d426n	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	34	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	62	35	or	or	CC
work_su6zfttle5hq7fxccg3nnnccwa	62	36	are	be	VBP
work_su6zfttle5hq7fxccg3nnnccwa	62	37	relatively	relatively	RB
work_su6zfttle5hq7fxccg3nnnccwa	62	38	insensitive	insensitive	JJ
work_su6zfttle5hq7fxccg3nnnccwa	62	39	to	to	IN
work_su6zfttle5hq7fxccg3nnnccwa	62	40	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	41	inhibition	inhibition	NN
work_su6zfttle5hq7fxccg3nnnccwa	62	42	(	(	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	62	43	D442N	d442n	CD
work_su6zfttle5hq7fxccg3nnnccwa	62	44	)	)	-RRB-
work_su6zfttle5hq7fxccg3nnnccwa	62	45	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	63	1	D426N	d426n	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	2	showed	show	VBD
work_su6zfttle5hq7fxccg3nnnccwa	63	3	dampened	dampen	VBN
work_su6zfttle5hq7fxccg3nnnccwa	63	4	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	63	5	Ca2þ]m	ca2þ]m	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	6	signal	signal	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	7	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	63	8	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	63	9	Ca2þ]m	ca2þ]m	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	10	vs.	vs.	IN
work_su6zfttle5hq7fxccg3nnnccwa	63	11	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	63	12	Ca2þ]c	ca2þ]c	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	13	relationship	relationship	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	14	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	63	15	whereas	whereas	IN
work_su6zfttle5hq7fxccg3nnnccwa	63	16	D442N	d442n	CD
work_su6zfttle5hq7fxccg3nnnccwa	63	17	displayed	display	VBD
work_su6zfttle5hq7fxccg3nnnccwa	63	18	a	a	DT
work_su6zfttle5hq7fxccg3nnnccwa	63	19	steeper	steeper	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	20	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	63	21	Ca2þ]m	ca2þ]m	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	22	vs.	vs.	IN
work_su6zfttle5hq7fxccg3nnnccwa	63	23	[	[	-LRB-
work_su6zfttle5hq7fxccg3nnnccwa	63	24	Ca2þ]c	ca2þ]c	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	25	relationship	relationship	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	26	than	than	IN
work_su6zfttle5hq7fxccg3nnnccwa	63	27	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	63	28	wild	wild	JJ
work_su6zfttle5hq7fxccg3nnnccwa	63	29	type	type	NN
work_su6zfttle5hq7fxccg3nnnccwa	63	30	IP3R1	IP3R1	NNP
work_su6zfttle5hq7fxccg3nnnccwa	63	31	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	64	1	Thus	thus	RB
work_su6zfttle5hq7fxccg3nnnccwa	64	2	,	,	,
work_su6zfttle5hq7fxccg3nnnccwa	64	3	each	each	DT
work_su6zfttle5hq7fxccg3nnnccwa	64	4	IP3R	ip3r	IN
work_su6zfttle5hq7fxccg3nnnccwa	64	5	isoform	isoform	NN
work_su6zfttle5hq7fxccg3nnnccwa	64	6	can	can	MD
work_su6zfttle5hq7fxccg3nnnccwa	64	7	support	support	VB
work_su6zfttle5hq7fxccg3nnnccwa	64	8	local	local	JJ
work_su6zfttle5hq7fxccg3nnnccwa	64	9	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	64	10	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	64	11	mitochondrial	mitochondrial	NN
work_su6zfttle5hq7fxccg3nnnccwa	64	12	Ca2þ	ca2þ	NN
work_su6zfttle5hq7fxccg3nnnccwa	64	13	transfer	transfer	NN
work_su6zfttle5hq7fxccg3nnnccwa	64	14	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	64	15	their	-PRON-	PRP$
work_su6zfttle5hq7fxccg3nnnccwa	64	16	competence	competence	NN
work_su6zfttle5hq7fxccg3nnnccwa	64	17	to	to	TO
work_su6zfttle5hq7fxccg3nnnccwa	64	18	activate	activate	VB
work_su6zfttle5hq7fxccg3nnnccwa	64	19	mitochondrial	mitochondrial	NNP
work_su6zfttle5hq7fxccg3nnnccwa	64	20	Ca2þ	Ca2þ	NNP
work_su6zfttle5hq7fxccg3nnnccwa	64	21	uptake	uptake	NN
work_su6zfttle5hq7fxccg3nnnccwa	64	22	depends	depend	VBZ
work_su6zfttle5hq7fxccg3nnnccwa	64	23	on	on	IN
work_su6zfttle5hq7fxccg3nnnccwa	64	24	their	-PRON-	PRP$
work_su6zfttle5hq7fxccg3nnnccwa	64	25	deactiva-	deactiva-	JJ
work_su6zfttle5hq7fxccg3nnnccwa	64	26	tion	tion	NN
work_su6zfttle5hq7fxccg3nnnccwa	64	27	kinetic	kinetic	NNP
work_su6zfttle5hq7fxccg3nnnccwa	64	28	.	.	.
work_su6zfttle5hq7fxccg3nnnccwa	65	1	Biophysical	biophysical	JJ
work_su6zfttle5hq7fxccg3nnnccwa	65	2	Properties	Properties	NNPS
work_su6zfttle5hq7fxccg3nnnccwa	65	3	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	65	4	Mitochondria	Mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	5	Undergoing	Undergoing	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	6	Fusion	Fusion	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	7	Mitochondrial	Mitochondrial	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	8	Fusion	Fusion	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	9	Dynamics	Dynamics	NNPS
work_su6zfttle5hq7fxccg3nnnccwa	65	10	in	in	IN
work_su6zfttle5hq7fxccg3nnnccwa	65	11	Human	Human	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	12	Skeletal	Skeletal	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	13	Muscle	Muscle	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	14	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	65	15	Derived	derive	VBN
work_su6zfttle5hq7fxccg3nnnccwa	65	16	Cells	cell	NNS
work_su6zfttle5hq7fxccg3nnnccwa	65	17	Imaging	Imaging	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	18	Interorganelle	Interorganelle	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	19	Contacts	Contacts	NNPS
work_su6zfttle5hq7fxccg3nnnccwa	65	20	and	and	CC
work_su6zfttle5hq7fxccg3nnnccwa	65	21	Local	Local	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	22	Calcium	Calcium	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	23	Dynamics	Dynamics	NNPS
work_su6zfttle5hq7fxccg3nnnccwa	65	24	at	at	IN
work_su6zfttle5hq7fxccg3nnnccwa	65	25	the	the	DT
work_su6zfttle5hq7fxccg3nnnccwa	65	26	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	27	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	65	28	Mitochondrial	Mitochondrial	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	29	Interface	Interface	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	30	Dependence	Dependence	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	31	of	of	IN
work_su6zfttle5hq7fxccg3nnnccwa	65	32	ER	ER	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	33	-	-	HYPH
work_su6zfttle5hq7fxccg3nnnccwa	65	34	Mitochondria	Mitochondria	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	35	Calcium	Calcium	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	36	Transfer	Transfer	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	37	on	on	IN
work_su6zfttle5hq7fxccg3nnnccwa	65	38	Different	Different	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	39	IP3	IP3	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	40	Receptor	Receptor	NNP
work_su6zfttle5hq7fxccg3nnnccwa	65	41	Isoforms	Isoforms	NNPS