id	sid	tid	token	lemma	pos
work_bcdkx2x635cq3n2rul6aysbkiu	1	1	Mechanistic	mechanistic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	1	2	Characterization	Characterization	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	1	3	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	1	4	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	1	5	Thioredoxin	Thioredoxin	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	1	6	System	System	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	1	7	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	1	8	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	1	9	Removal	Removal	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	1	10	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	1	11	Hydrogen	Hydrogen	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	1	12	Peroxide	Peroxide	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	1	13	610a	610a	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	1	14	Wednesday	Wednesday	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	1	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	1	16	February	February	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	1	17	11	11	CD
work_bcdkx2x635cq3n2rul6aysbkiu	1	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	1	19	2015	2015	CD
work_bcdkx2x635cq3n2rul6aysbkiu	1	20	co	co	NN
work_bcdkx2x635cq3n2rul6aysbkiu	1	21	-	-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	1	22	expression	expression	NN
work_bcdkx2x635cq3n2rul6aysbkiu	1	23	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	1	24	co	co	NN
work_bcdkx2x635cq3n2rul6aysbkiu	1	25	-	-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	1	26	evolution	evolution	NN
work_bcdkx2x635cq3n2rul6aysbkiu	1	27	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	1	28	MCU	MCU	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	1	29	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	2	1	MICU1	MICU1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	2	2	has	have	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	2	3	been	be	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	2	4	demonstrated	demonstrate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	2	5	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	2	6	be	be	VB
work_bcdkx2x635cq3n2rul6aysbkiu	2	7	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	2	8	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	2	9	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	2	10	-sensing	-sense	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	2	11	protein	protein	NN
work_bcdkx2x635cq3n2rul6aysbkiu	2	12	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	2	13	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	2	14	both	both	DT
work_bcdkx2x635cq3n2rul6aysbkiu	2	15	sets	set	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	2	16	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	2	17	threshold	threshold	NN
work_bcdkx2x635cq3n2rul6aysbkiu	2	18	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	2	19	low	low	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	2	20	Ca	ca	NN
work_bcdkx2x635cq3n2rul6aysbkiu	2	21	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	2	22	concentration	concentration	NN
work_bcdkx2x635cq3n2rul6aysbkiu	2	23	while	while	IN
work_bcdkx2x635cq3n2rul6aysbkiu	2	24	it	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	2	25	assures	assure	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	2	26	cooperative	cooperative	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	2	27	activation	activation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	2	28	during	during	IN
work_bcdkx2x635cq3n2rul6aysbkiu	2	29	high	high	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	2	30	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	2	31	rises	rise	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	2	32	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	3	1	Mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	3	2	Ca2þ	Ca2þ	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	3	3	uptake	uptake	NN
work_bcdkx2x635cq3n2rul6aysbkiu	3	4	shows	show	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	3	5	tissue	tissue	NN
work_bcdkx2x635cq3n2rul6aysbkiu	3	6	specific	specific	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	3	7	differences	difference	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	3	8	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	3	9	interestingly	interestingly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	3	10	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	3	11	mRNA	mrna	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	3	12	level	level	NN
work_bcdkx2x635cq3n2rul6aysbkiu	3	13	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	3	14	MICUs	micu	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	3	15	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	3	16	MCUs	MCUs	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	3	17	also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	3	18	displays	display	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	3	19	tissue	tissue	NN
work_bcdkx2x635cq3n2rul6aysbkiu	3	20	specificity	specificity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	3	21	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	4	1	We	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	4	2	set	set	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	4	3	out	out	RP
work_bcdkx2x635cq3n2rul6aysbkiu	4	4	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	4	5	investigate	investigate	VB
work_bcdkx2x635cq3n2rul6aysbkiu	4	6	if	if	IN
work_bcdkx2x635cq3n2rul6aysbkiu	4	7	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	4	8	stoichiometry	stoichiometry	NN
work_bcdkx2x635cq3n2rul6aysbkiu	4	9	between	between	IN
work_bcdkx2x635cq3n2rul6aysbkiu	4	10	MICU1	micu1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	4	11	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	4	12	MCU	MCU	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	4	13	could	could	MD
work_bcdkx2x635cq3n2rul6aysbkiu	4	14	account	account	VB
work_bcdkx2x635cq3n2rul6aysbkiu	4	15	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	4	16	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	4	17	previously	previously	RB
work_bcdkx2x635cq3n2rul6aysbkiu	4	18	described	describe	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	4	19	differences	difference	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	4	20	between	between	IN
work_bcdkx2x635cq3n2rul6aysbkiu	4	21	heart	heart	NN
work_bcdkx2x635cq3n2rul6aysbkiu	4	22	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	4	23	liver	liver	NN
work_bcdkx2x635cq3n2rul6aysbkiu	4	24	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	4	25	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	4	26	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	4	27	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	4	28	uptake	uptake	VB
work_bcdkx2x635cq3n2rul6aysbkiu	4	29	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	5	1	Immunoblotting	immunoblotte	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	5	2	showed	show	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	5	3	higher	high	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	5	4	expression	expression	NN
work_bcdkx2x635cq3n2rul6aysbkiu	5	5	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	5	6	all	all	DT
work_bcdkx2x635cq3n2rul6aysbkiu	5	7	MICU1	micu1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	5	8	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	5	9	MICU2	micu2	NN
work_bcdkx2x635cq3n2rul6aysbkiu	5	10	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	5	11	MCU	MCU	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	5	12	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	5	13	mouse	mouse	NN
work_bcdkx2x635cq3n2rul6aysbkiu	5	14	liver	liver	NN
work_bcdkx2x635cq3n2rul6aysbkiu	5	15	versus	versus	IN
work_bcdkx2x635cq3n2rul6aysbkiu	5	16	heart	heart	NN
work_bcdkx2x635cq3n2rul6aysbkiu	5	17	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	5	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	5	19	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	5	20	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	5	21	4.5	4.5	CD
work_bcdkx2x635cq3n2rul6aysbkiu	5	22	fold	fold	VB
work_bcdkx2x635cq3n2rul6aysbkiu	5	23	higher	high	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	5	24	MICU1	micu1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	5	25	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	5	26	MCU	MCU	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	5	27	ratio	ratio	NN
work_bcdkx2x635cq3n2rul6aysbkiu	5	28	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	5	29	liver	liver	NN
work_bcdkx2x635cq3n2rul6aysbkiu	5	30	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	6	1	In	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	6	2	fluorometric	fluorometric	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	6	3	measurements	measurement	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	6	4	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	6	5	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	6	6	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	6	7	uptake	uptake	NN
work_bcdkx2x635cq3n2rul6aysbkiu	6	8	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	6	9	heart	heart	NN
work_bcdkx2x635cq3n2rul6aysbkiu	6	10	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	6	11	displayed	display	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	6	12	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	6	13	decreased	decreased	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	6	14	threshold	threshold	NN
work_bcdkx2x635cq3n2rul6aysbkiu	6	15	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	6	16	lesser	less	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	6	17	cooperativity	cooperativity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	6	18	compared	compare	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	6	19	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	6	20	liver	liver	NN
work_bcdkx2x635cq3n2rul6aysbkiu	6	21	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	6	22	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	7	1	Additionally	additionally	RB
work_bcdkx2x635cq3n2rul6aysbkiu	7	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	7	3	NAD(P)H	nad(p)h	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	7	4	elevation	elevation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	7	5	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	7	6	detect-	detect-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	7	7	able	able	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	7	8	after	after	IN
work_bcdkx2x635cq3n2rul6aysbkiu	7	9	exposure	exposure	NN
work_bcdkx2x635cq3n2rul6aysbkiu	7	10	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	7	11	moderate	moderate	VB
work_bcdkx2x635cq3n2rul6aysbkiu	7	12	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	7	13	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	7	14	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	7	15	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	7	16	elevations	elevation	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	7	17	only	only	RB
work_bcdkx2x635cq3n2rul6aysbkiu	7	18	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	7	19	heart	heart	NN
work_bcdkx2x635cq3n2rul6aysbkiu	7	20	mitochondria	mitochondrion	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	7	21	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	8	1	Overexpression	overexpression	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	2	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	8	3	MICU1	micu1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	4	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	8	5	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	8	6	heart	heart	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	7	using	use	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	8	8	AAV9-MICU1	aav9-micu1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	9	tail	tail	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	10	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	8	11	vein	vein	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	12	injection	injection	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	13	significantly	significantly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	8	14	increased	increase	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	8	15	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	8	16	MICU1	micu1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	17	protein	protein	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	18	level	level	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	19	without	without	IN
work_bcdkx2x635cq3n2rul6aysbkiu	8	20	any	any	DT
work_bcdkx2x635cq3n2rul6aysbkiu	8	21	changes	change	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	8	22	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	8	23	MICU2	micu2	NN
work_bcdkx2x635cq3n2rul6aysbkiu	8	24	or	or	CC
work_bcdkx2x635cq3n2rul6aysbkiu	8	25	MCU	MCU	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	8	26	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	9	1	This	this	DT
work_bcdkx2x635cq3n2rul6aysbkiu	9	2	increased	increase	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	9	3	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	9	4	MICU1	micu1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	5	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	9	6	MCU	MCU	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	9	7	ratio	ratio	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	8	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	9	9	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	9	10	heart	heart	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	11	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	9	12	led	lead	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	9	13	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	9	14	increased	increase	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	9	15	thresholding	thresholding	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	16	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	9	17	cooperativity	cooperativity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	9	19	reproducing	reproduce	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	9	20	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	9	21	liver	liver	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	22	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	9	23	like	like	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	9	24	mito-	mito-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	25	chondrialCa2þ	chondrialCa2þ	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	9	26	uptakephenotype	uptakephenotype	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	27	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	9	28	ViceversaMICU1downregulationintheliver	ViceversaMICU1downregulationintheliver	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	9	29	has	have	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	9	30	been	be	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	9	31	shown	show	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	9	32	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	9	33	lower	lower	VB
work_bcdkx2x635cq3n2rul6aysbkiu	9	34	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	9	35	threshold	threshold	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	36	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	9	37	cooperativity	cooperativity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	38	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	9	39	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	40	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	9	41	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	9	42	uptake	uptake	NN
work_bcdkx2x635cq3n2rul6aysbkiu	9	43	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	9	44	hepatocytes	hepatocyte	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	9	45	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	10	1	Thus	thus	RB
work_bcdkx2x635cq3n2rul6aysbkiu	10	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	10	3	heart	heart	NN
work_bcdkx2x635cq3n2rul6aysbkiu	10	4	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	10	5	liver	liver	NN
work_bcdkx2x635cq3n2rul6aysbkiu	10	6	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	10	7	show	show	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	10	8	different	different	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	10	9	levels	level	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	10	10	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	10	11	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	10	12	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	10	13	threshold	threshold	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	10	14	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	10	15	cooperative	cooperative	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	10	16	activation	activation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	10	17	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	10	18	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	10	19	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	10	20	uptake	uptake	NN
work_bcdkx2x635cq3n2rul6aysbkiu	10	21	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	10	22	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	10	23	seem	seem	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	10	24	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	10	25	result	result	VB
work_bcdkx2x635cq3n2rul6aysbkiu	10	26	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	10	27	differential	differential	NN
work_bcdkx2x635cq3n2rul6aysbkiu	10	28	quantitative	quantitative	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	10	29	relationship	relationship	NN
work_bcdkx2x635cq3n2rul6aysbkiu	10	30	between	between	IN
work_bcdkx2x635cq3n2rul6aysbkiu	10	31	MICU1	micu1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	10	32	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	10	33	MCU	mcu	NN
work_bcdkx2x635cq3n2rul6aysbkiu	10	34	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	11	1	3076-Pos	3076-Pos	NFP
work_bcdkx2x635cq3n2rul6aysbkiu	11	2	Board	board	NN
work_bcdkx2x635cq3n2rul6aysbkiu	11	3	B506	B506	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	4	ER	ER	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	5	Calcium	Calcium	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	6	Release	Release	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	7	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	11	8	Tuned	tune	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	11	9	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	11	10	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	11	Redox	Redox	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	12	Nanodomains	Nanodomains	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	13	David	David	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	14	M.	M.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	15	Booth1	Booth1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	16	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	11	17	Balázs	Balázs	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	18	Enyedi2	Enyedi2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	19	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	11	20	Miklós	Miklós	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	21	Geiszt2	Geiszt2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	22	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	11	23	Péter	péter	CD
work_bcdkx2x635cq3n2rul6aysbkiu	11	24	Várnai2	várnai2	CD
work_bcdkx2x635cq3n2rul6aysbkiu	11	25	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	11	26	György	György	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	27	Hajnóczky1	Hajnóczky1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	11	28	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	12	1	1MitoCare	1mitocare	CD
work_bcdkx2x635cq3n2rul6aysbkiu	12	2	Center	Center	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	3	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	12	4	Pathology	Pathology	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	5	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	12	6	Thomas	Thomas	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	7	Jefferson	Jefferson	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	8	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	9	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	12	10	Philadelphia	Philadelphia	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	11	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	12	12	PA	PA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	13	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	12	14	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	12	16	2Department	2department	CD
work_bcdkx2x635cq3n2rul6aysbkiu	12	17	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	12	18	Physiology	Physiology	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	19	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	12	20	Semmelweis	Semmelweis	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	21	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	22	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	12	23	Budapest	Budapest	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	24	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	12	25	Hungary	Hungary	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	12	26	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	13	1	Spatially	spatially	RB
work_bcdkx2x635cq3n2rul6aysbkiu	13	2	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	13	3	temporally	temporally	RB
work_bcdkx2x635cq3n2rul6aysbkiu	13	4	controlled	control	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	13	5	increases	increase	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	13	6	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	13	7	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	13	8	emerge	emerge	NN
work_bcdkx2x635cq3n2rul6aysbkiu	13	9	as	as	IN
work_bcdkx2x635cq3n2rul6aysbkiu	13	10	an	an	DT
work_bcdkx2x635cq3n2rul6aysbkiu	13	11	intracellular	intracellular	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	13	12	signal	signal	NN
work_bcdkx2x635cq3n2rul6aysbkiu	13	13	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	14	1	We	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	14	2	hypothesized	hypothesize	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	14	3	that	that	DT
work_bcdkx2x635cq3n2rul6aysbkiu	14	4	ROS	ROS	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	14	5	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	14	6	Ca	Ca	MD
work_bcdkx2x635cq3n2rul6aysbkiu	14	7	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	14	8	interact	interact	VB
work_bcdkx2x635cq3n2rul6aysbkiu	14	9	locally	locally	RB
work_bcdkx2x635cq3n2rul6aysbkiu	14	10	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	14	11	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	14	12	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	14	13	restricted	restricted	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	14	14	vol-	vol-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	14	15	ume	ume	NN
work_bcdkx2x635cq3n2rul6aysbkiu	14	16	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	14	17	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	14	18	ER	ER	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	14	19	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	14	20	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	14	21	interface	interface	NN
work_bcdkx2x635cq3n2rul6aysbkiu	14	22	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	15	1	These	these	DT
work_bcdkx2x635cq3n2rul6aysbkiu	15	2	physically	physically	RB
work_bcdkx2x635cq3n2rul6aysbkiu	15	3	tethered	tether	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	15	4	structures	structure	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	15	5	host	host	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	15	6	enrichments	enrichment	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	15	7	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	15	8	ion	ion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	15	9	transport	transport	NN
work_bcdkx2x635cq3n2rul6aysbkiu	15	10	proteins	protein	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	15	11	such	such	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	15	12	as	as	IN
work_bcdkx2x635cq3n2rul6aysbkiu	15	13	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	15	14	IP3	IP3	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	15	15	receptor	receptor	NN
work_bcdkx2x635cq3n2rul6aysbkiu	15	16	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	15	17	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	15	18	support	support	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	15	19	elevated	elevated	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	15	20	nanodomains	nanodomain	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	15	21	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	15	22	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	15	23	during	during	IN
work_bcdkx2x635cq3n2rul6aysbkiu	15	24	signalling	signal	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	15	25	events	event	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	15	26	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	15	27	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	15	28	sensitive	sensitive	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	15	29	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	15	30	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	15	31	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	16	1	We	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	16	2	used	use	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	16	3	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	16	4	genetically	genetically	RB
work_bcdkx2x635cq3n2rul6aysbkiu	16	5	encoded	encode	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	16	6	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	16	7	sensor	sensor	NN
work_bcdkx2x635cq3n2rul6aysbkiu	16	8	HyPer	HyPer	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	16	9	incorporated	incorporate	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	16	10	into	into	IN
work_bcdkx2x635cq3n2rul6aysbkiu	16	11	an	an	DT
work_bcdkx2x635cq3n2rul6aysbkiu	16	12	inducible	inducible	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	16	13	linker	linker	NN
work_bcdkx2x635cq3n2rul6aysbkiu	16	14	system	system	NN
work_bcdkx2x635cq3n2rul6aysbkiu	16	15	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	16	16	probe	probe	VB
work_bcdkx2x635cq3n2rul6aysbkiu	16	17	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	16	18	redox	redox	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	16	19	environment	environment	NN
work_bcdkx2x635cq3n2rul6aysbkiu	16	20	at	at	IN
work_bcdkx2x635cq3n2rul6aysbkiu	16	21	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	16	22	ER-	ER-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	16	23	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	16	24	interface	interface	NN
work_bcdkx2x635cq3n2rul6aysbkiu	16	25	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	16	26	HepG2	HepG2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	16	27	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	16	28	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	17	1	We	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	17	2	found	find	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	17	3	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	17	4	moderately	moderately	RB
work_bcdkx2x635cq3n2rul6aysbkiu	17	5	elevated	elevated	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	17	6	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	17	7	nanodomain	nanodomain	NN
work_bcdkx2x635cq3n2rul6aysbkiu	17	8	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	17	9	developes	develop	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	17	10	into	into	IN
work_bcdkx2x635cq3n2rul6aysbkiu	17	11	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	17	12	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	17	13	transient	transient	NN
work_bcdkx2x635cq3n2rul6aysbkiu	17	14	following	follow	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	17	15	IP3	IP3	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	17	16	receptor-	receptor-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	17	17	mediated	mediate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	17	18	ER	ER	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	17	19	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	17	20	release	release	NN
work_bcdkx2x635cq3n2rul6aysbkiu	17	21	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	17	22	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	17	23	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	17	24	uptake	uptake	NN
work_bcdkx2x635cq3n2rul6aysbkiu	17	25	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	18	1	Pharmacological	pharmacological	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	18	2	in-	in-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	18	3	hibition	hibition	NN
work_bcdkx2x635cq3n2rul6aysbkiu	18	4	showed	show	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	18	5	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	18	6	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	18	7	transient	transient	NN
work_bcdkx2x635cq3n2rul6aysbkiu	18	8	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	18	9	dependent	dependent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	18	10	upon	upon	IN
work_bcdkx2x635cq3n2rul6aysbkiu	18	11	ER	ER	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	18	12	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	18	13	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	18	14	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	18	15	membrane	membrane	NN
work_bcdkx2x635cq3n2rul6aysbkiu	18	16	potential	potential	NN
work_bcdkx2x635cq3n2rul6aysbkiu	18	17	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	18	18	functional	functional	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	18	19	electron	electron	NN
work_bcdkx2x635cq3n2rul6aysbkiu	18	20	transport	transport	NN
work_bcdkx2x635cq3n2rul6aysbkiu	18	21	chain	chain	NN
work_bcdkx2x635cq3n2rul6aysbkiu	18	22	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	19	1	HyPer	HyPer	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	19	2	measure-	measure-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	19	3	ments	ment	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	19	4	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	19	5	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	19	6	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	19	7	intermembrane	intermembrane	NN
work_bcdkx2x635cq3n2rul6aysbkiu	19	8	space	space	NN
work_bcdkx2x635cq3n2rul6aysbkiu	19	9	revealed	reveal	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	19	10	significantly	significantly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	19	11	elevated	elevate	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	19	12	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	19	13	within	within	IN
work_bcdkx2x635cq3n2rul6aysbkiu	19	14	this	this	DT
work_bcdkx2x635cq3n2rul6aysbkiu	19	15	volume	volume	NN
work_bcdkx2x635cq3n2rul6aysbkiu	19	16	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	20	1	Using	use	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	20	2	electron	electron	NN
work_bcdkx2x635cq3n2rul6aysbkiu	20	3	microscopy	microscopy	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	20	4	we	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	20	5	found	find	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	20	6	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	20	7	HepG2	HepG2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	20	8	mito-	mito-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	20	9	chondria	chondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	20	10	possess	possess	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	20	11	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	20	12	cohort	cohort	NN
work_bcdkx2x635cq3n2rul6aysbkiu	20	13	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	20	14	dilated	dilated	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	20	15	cristae	cristae	NN
work_bcdkx2x635cq3n2rul6aysbkiu	20	16	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	20	17	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	20	18	disappeared	disappear	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	20	19	following	follow	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	20	20	IP3-	IP3-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	20	21	linked	link	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	20	22	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	20	23	release	release	NN
work_bcdkx2x635cq3n2rul6aysbkiu	20	24	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	21	1	Paxilline	Paxilline	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	21	2	that	that	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	21	3	inhibits	inhibit	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	21	4	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	21	5	BKCa	BKCa	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	21	6	channels	channel	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	21	7	blocked	block	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	21	8	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	21	9	cristae	cristae	NN
work_bcdkx2x635cq3n2rul6aysbkiu	21	10	reshaping	reshape	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	21	11	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	21	12	also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	21	13	abolished	abolish	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	21	14	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	21	15	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	21	16	transient	transient	NN
work_bcdkx2x635cq3n2rul6aysbkiu	21	17	at	at	IN
work_bcdkx2x635cq3n2rul6aysbkiu	21	18	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	21	19	inter-	inter-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	21	20	face	face	NN
work_bcdkx2x635cq3n2rul6aysbkiu	21	21	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	22	1	Furthermore	furthermore	RB
work_bcdkx2x635cq3n2rul6aysbkiu	22	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	22	3	paxilline	paxilline	NN
work_bcdkx2x635cq3n2rul6aysbkiu	22	4	caused	cause	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	22	5	suppression	suppression	NN
work_bcdkx2x635cq3n2rul6aysbkiu	22	6	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	22	7	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	22	8	IP3-linked	ip3-linked	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	22	9	calcium	calcium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	22	10	signal	signal	NN
work_bcdkx2x635cq3n2rul6aysbkiu	22	11	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	22	12	whereas	whereas	IN
work_bcdkx2x635cq3n2rul6aysbkiu	22	13	interface	interface	NN
work_bcdkx2x635cq3n2rul6aysbkiu	22	14	targeted	target	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	22	15	killer	killer	NN
work_bcdkx2x635cq3n2rul6aysbkiu	22	16	red	red	NN
work_bcdkx2x635cq3n2rul6aysbkiu	22	17	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	22	18	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	22	19	photoactivated	photoactivate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	22	20	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	22	21	source	source	NN
work_bcdkx2x635cq3n2rul6aysbkiu	22	22	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	22	23	induced	induce	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	22	24	sensitization	sensitization	NN
work_bcdkx2x635cq3n2rul6aysbkiu	22	25	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	22	26	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	22	27	IP3-linked	ip3-linked	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	22	28	agonist	agonist	NN
work_bcdkx2x635cq3n2rul6aysbkiu	22	29	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	23	1	We	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	23	2	conclude	conclude	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	23	3	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	23	4	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	23	5	intermembrane/	intermembrane/	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	23	6	cristae	cristae	NN
work_bcdkx2x635cq3n2rul6aysbkiu	23	7	volume	volume	NN
work_bcdkx2x635cq3n2rul6aysbkiu	23	8	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	23	9	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	23	10	represents	represent	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	23	11	an	an	DT
work_bcdkx2x635cq3n2rul6aysbkiu	23	12	oxidized	oxidized	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	23	13	pool	pool	NN
work_bcdkx2x635cq3n2rul6aysbkiu	23	14	fed	feed	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	23	15	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	23	16	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	23	17	electron	electron	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	23	18	transport	transport	NN
work_bcdkx2x635cq3n2rul6aysbkiu	23	19	chain	chain	NN
work_bcdkx2x635cq3n2rul6aysbkiu	23	20	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	24	1	Ca	ca	NN
work_bcdkx2x635cq3n2rul6aysbkiu	24	2	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	24	3	-uptake	-uptake	NN
work_bcdkx2x635cq3n2rul6aysbkiu	24	4	stimulates	stimulate	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	24	5	expansion	expansion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	24	6	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	24	7	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	24	8	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	24	9	matrix	matrix	NN
work_bcdkx2x635cq3n2rul6aysbkiu	24	10	via	via	IN
work_bcdkx2x635cq3n2rul6aysbkiu	24	11	Kþ	Kþ	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	24	12	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	24	13	concomitant	concomitant	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	24	14	water	water	NN
work_bcdkx2x635cq3n2rul6aysbkiu	24	15	uptake	uptake	NN
work_bcdkx2x635cq3n2rul6aysbkiu	24	16	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	24	17	squeezing	squeeze	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	24	18	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	24	19	oxidized	oxidize	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	24	20	volume	volume	NN
work_bcdkx2x635cq3n2rul6aysbkiu	24	21	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	24	22	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	24	23	cristae	cristae	NN
work_bcdkx2x635cq3n2rul6aysbkiu	24	24	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	24	25	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	24	26	interface	interface	NN
work_bcdkx2x635cq3n2rul6aysbkiu	24	27	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	25	1	Here	here	RB
work_bcdkx2x635cq3n2rul6aysbkiu	25	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	25	3	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	25	4	transient	transient	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	25	5	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	25	6	nanodomain	nanodomain	NN
work_bcdkx2x635cq3n2rul6aysbkiu	25	7	sensitizes	sensitize	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	25	8	IP3	IP3	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	25	9	recep-	recep-	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	25	10	tors	tor	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	25	11	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	25	12	further	further	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	25	13	stimulation	stimulation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	25	14	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	26	1	We	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	26	2	demonstrate	demonstrate	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	26	3	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	26	4	physiological	physiological	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	26	5	setting	setting	NN
work_bcdkx2x635cq3n2rul6aysbkiu	26	6	where	where	WRB
work_bcdkx2x635cq3n2rul6aysbkiu	26	7	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	26	8	release	release	NN
work_bcdkx2x635cq3n2rul6aysbkiu	26	9	may	may	MD
work_bcdkx2x635cq3n2rul6aysbkiu	26	10	autoregulate	autoregulate	VB
work_bcdkx2x635cq3n2rul6aysbkiu	26	11	using	use	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	26	12	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	26	13	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	26	14	released	release	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	26	15	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	26	16	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	26	17	cristae	cristae	NN
work_bcdkx2x635cq3n2rul6aysbkiu	26	18	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	27	1	3077-Pos	3077-Pos	NFP
work_bcdkx2x635cq3n2rul6aysbkiu	27	2	Board	Board	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	3	B507	B507	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	4	Reactive	Reactive	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	5	Oxygen	Oxygen	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	6	Species	Species	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	27	7	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	27	8	ROS	ROS	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	9	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	27	10	Suppress	Suppress	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	11	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	12	Motility	Motility	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	13	Valentina	Valentina	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	14	Debattisti	Debattisti	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	27	16	Masao	Masao	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	17	Saotome	Saotome	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	27	19	Sudipto	Sudipto	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	20	Das	Das	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	21	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	27	22	Gyorgy	Gyorgy	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	23	Hajnoczky	Hajnoczky	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	27	24	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	28	1	MitoCare	MitoCare	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	28	2	Center	Center	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	28	3	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	28	4	Thomas	Thomas	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	28	5	Jefferson	Jefferson	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	28	6	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	28	7	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	28	8	Philadelphia	Philadelphia	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	28	9	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	28	10	PA	PA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	28	11	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	28	12	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	28	13	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	29	1	Mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	2	distribution	distribution	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	3	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	29	4	transport	transport	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	5	play	play	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	29	6	pivotal	pivotal	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	29	7	roles	role	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	29	8	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	29	9	many	many	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	29	10	cellular	cellular	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	29	11	functions	function	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	29	12	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	29	13	including	include	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	29	14	cell	cell	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	15	differentiation	differentiation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	16	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	29	17	cell	cell	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	18	division	division	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	19	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	29	20	ensure	ensure	VB
work_bcdkx2x635cq3n2rul6aysbkiu	29	21	proper	proper	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	29	22	inheri-	inheri-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	23	tance	tance	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	24	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	29	25	apoptosis	apoptosis	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	26	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	29	27	ATP	atp	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	28	supply	supply	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	29	at	at	IN
work_bcdkx2x635cq3n2rul6aysbkiu	29	30	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	29	31	local	local	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	29	32	sites	site	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	29	33	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	29	34	demand	demand	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	35	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	29	36	Ca	ca	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	37	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	29	38	buffering	buffer	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	29	39	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	29	40	intracellular	intracellular	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	29	41	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	42	homeostasis	homeostasis	NN
work_bcdkx2x635cq3n2rul6aysbkiu	29	43	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	30	1	We	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	30	2	previously	previously	RB
work_bcdkx2x635cq3n2rul6aysbkiu	30	3	showed	show	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	30	4	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	30	5	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	30	6	motility	motility	NN
work_bcdkx2x635cq3n2rul6aysbkiu	30	7	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	30	8	mito	mito	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	30	9	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	30	10	motility	motility	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	30	11	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	30	12	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	30	13	regulated	regulate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	30	14	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	30	15	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	30	16	cytosolic	cytosolic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	30	17	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	30	18	concentration	concentration	NN
work_bcdkx2x635cq3n2rul6aysbkiu	30	19	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	30	20	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	30	21	Ca2þ]c	ca2þ]c	NN
work_bcdkx2x635cq3n2rul6aysbkiu	30	22	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	30	23	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	30	24	providing	provide	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	30	25	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	30	26	basis	basis	NN
work_bcdkx2x635cq3n2rul6aysbkiu	30	27	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	30	28	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	30	29	homeostatic	homeostatic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	30	30	circuit	circuit	NN
work_bcdkx2x635cq3n2rul6aysbkiu	30	31	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	30	32	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	30	33	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	30	34	organelles	organelle	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	30	35	decrease	decrease	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	30	36	their	-PRON-	PRP$
work_bcdkx2x635cq3n2rul6aysbkiu	30	37	movements	movement	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	30	38	along	along	IN
work_bcdkx2x635cq3n2rul6aysbkiu	30	39	microtubules	microtubule	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	30	40	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	30	41	locally	locally	RB
work_bcdkx2x635cq3n2rul6aysbkiu	30	42	buffer	buffer	VB
work_bcdkx2x635cq3n2rul6aysbkiu	30	43	high	high	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	30	44	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	30	45	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	30	46	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	30	47	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	30	48	c	c	NN
work_bcdkx2x635cq3n2rul6aysbkiu	30	49	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	30	50	contribute	contribute	VB
work_bcdkx2x635cq3n2rul6aysbkiu	30	51	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	30	52	ATP	atp	NN
work_bcdkx2x635cq3n2rul6aysbkiu	30	53	supply	supply	NN
work_bcdkx2x635cq3n2rul6aysbkiu	30	54	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	31	1	Mito-	Mito-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	31	2	chondria	chondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	31	3	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	31	4	also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	31	5	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	31	6	major	major	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	31	7	site	site	NN
work_bcdkx2x635cq3n2rul6aysbkiu	31	8	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	31	9	production	production	NN
work_bcdkx2x635cq3n2rul6aysbkiu	31	10	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	31	11	scavenging	scavenging	NN
work_bcdkx2x635cq3n2rul6aysbkiu	31	12	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	31	13	ROS	ROS	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	31	14	that	that	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	31	15	serve	serve	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	31	16	as	as	IN
work_bcdkx2x635cq3n2rul6aysbkiu	31	17	both	both	CC
work_bcdkx2x635cq3n2rul6aysbkiu	31	18	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	31	19	messenger	messenger	NN
work_bcdkx2x635cq3n2rul6aysbkiu	31	20	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	31	21	regulator	regulator	NN
work_bcdkx2x635cq3n2rul6aysbkiu	31	22	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	31	23	calcium	calcium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	31	24	signaling	signaling	NN
work_bcdkx2x635cq3n2rul6aysbkiu	31	25	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	31	26	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	31	27	particularly	particularly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	31	28	rele-	rele-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	31	29	vant	vant	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	31	30	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	31	31	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	31	32	control	control	NN
work_bcdkx2x635cq3n2rul6aysbkiu	31	33	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	31	34	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	31	35	function	function	NN
work_bcdkx2x635cq3n2rul6aysbkiu	31	36	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	32	1	Here	here	RB
work_bcdkx2x635cq3n2rul6aysbkiu	32	2	we	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	32	3	tested	test	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	32	4	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	32	5	hypothesis	hypothesis	NN
work_bcdkx2x635cq3n2rul6aysbkiu	32	6	that	that	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	32	7	ROS	ROS	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	32	8	target	target	NN
work_bcdkx2x635cq3n2rul6aysbkiu	32	9	mito	mito	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	32	10	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	32	11	motility	motility	NN
work_bcdkx2x635cq3n2rul6aysbkiu	32	12	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	32	13	control	control	VB
work_bcdkx2x635cq3n2rul6aysbkiu	32	14	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	32	15	function	function	NN
work_bcdkx2x635cq3n2rul6aysbkiu	32	16	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	33	1	H9c2	H9c2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	2	myoblast	myoblast	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	3	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	33	4	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	33	5	transfected	transfecte	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	33	6	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	33	7	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	33	8	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	9	matrix	matrix	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	10	targeted	target	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	33	11	YFP	YFP	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	12	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	33	13	then	then	RB
work_bcdkx2x635cq3n2rul6aysbkiu	33	14	loaded	load	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	33	15	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	33	16	fura2	fura2	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	17	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	33	18	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	33	19	monitor	monitor	VB
work_bcdkx2x635cq3n2rul6aysbkiu	33	20	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	33	21	mito	mito	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	22	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	33	23	motility	motility	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	24	simultaneously	simultaneously	RB
work_bcdkx2x635cq3n2rul6aysbkiu	33	25	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	33	26	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	33	27	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	28	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	33	29	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	33	30	c.	c.	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	31	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	32	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	33	33	100	100	CD
work_bcdkx2x635cq3n2rul6aysbkiu	33	34	mM	mM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	35	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	33	36	caused	cause	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	33	37	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	33	38	decrease	decrease	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	39	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	33	40	mito	mito	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	41	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	33	42	motility	motility	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	43	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	33	44	6458	6458	CD
work_bcdkx2x635cq3n2rul6aysbkiu	33	45	%	%	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	46	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	33	47	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	33	48	an	an	DT
work_bcdkx2x635cq3n2rul6aysbkiu	33	49	elevation	elevation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	50	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	33	51	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	33	52	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	53	2þ	2þ	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	54	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	33	55	c	c	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	56	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	33	57	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	33	58	5558	5558	CD
work_bcdkx2x635cq3n2rul6aysbkiu	33	59	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	33	60	9158	9158	CD
work_bcdkx2x635cq3n2rul6aysbkiu	33	61	nM	nM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	33	62	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	33	63	at	at	IN
work_bcdkx2x635cq3n2rul6aysbkiu	33	64	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	33	65	same	same	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	33	66	time	time	NN
work_bcdkx2x635cq3n2rul6aysbkiu	33	67	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	34	1	When	when	WRB
work_bcdkx2x635cq3n2rul6aysbkiu	34	2	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	34	3	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	34	4	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	34	5	incu-	incu-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	6	bated	bate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	34	7	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	34	8	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	34	9	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	34	10	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	34	11	-free	-free	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	34	12	medium	medium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	13	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	34	14	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	34	15	pretreated	pretreate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	34	16	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	34	17	thapsigargin	thapsigargin	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	18	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	34	19	prevent	prevent	VB
work_bcdkx2x635cq3n2rul6aysbkiu	34	20	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	21	entry	entry	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	22	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	34	23	intracellular	intracellular	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	34	24	Ca2þ	ca2þ	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	25	mobilization	mobilization	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	26	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	34	27	respectively	respectively	RB
work_bcdkx2x635cq3n2rul6aysbkiu	34	28	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	34	29	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	34	30	continued	continue	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	34	31	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	34	32	inhibit	inhibit	VB
work_bcdkx2x635cq3n2rul6aysbkiu	34	33	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	34	34	mito	mito	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	34	35	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	34	36	motility	motility	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	34	37	dose	dose	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	38	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	34	39	dependently	dependently	RB
work_bcdkx2x635cq3n2rul6aysbkiu	34	40	without	without	IN
work_bcdkx2x635cq3n2rul6aysbkiu	34	41	any	any	DT
work_bcdkx2x635cq3n2rul6aysbkiu	34	42	changes	change	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	34	43	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	34	44	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	34	45	Ca2þ]c	Ca2þ]c	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	34	46	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	34	47	These	these	DT
work_bcdkx2x635cq3n2rul6aysbkiu	34	48	results	result	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	34	49	indicate	indicate	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	34	50	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	34	51	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	34	52	can	can	MD
work_bcdkx2x635cq3n2rul6aysbkiu	34	53	cause	cause	VB
work_bcdkx2x635cq3n2rul6aysbkiu	34	54	suppression	suppression	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	55	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	34	56	mito	mito	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	34	57	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	34	58	motility	motility	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	59	through	through	IN
work_bcdkx2x635cq3n2rul6aysbkiu	34	60	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	34	61	Ca	Ca	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	34	62	2þ	2þ	CD
work_bcdkx2x635cq3n2rul6aysbkiu	34	63	independent	independent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	34	64	mechanism	mechanism	NN
work_bcdkx2x635cq3n2rul6aysbkiu	34	65	we	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	34	66	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	34	67	currently	currently	RB
work_bcdkx2x635cq3n2rul6aysbkiu	34	68	analyzing	analyze	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	34	69	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	35	1	3078-Pos	3078-Pos	:
work_bcdkx2x635cq3n2rul6aysbkiu	35	2	Board	board	NN
work_bcdkx2x635cq3n2rul6aysbkiu	35	3	B508	B508	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	4	Miro1	miro1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	35	5	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	35	6	Dispensable	dispensable	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	35	7	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	35	8	Calcium	Calcium	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	9	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	35	10	Mediated	mediate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	35	11	Inhibition	Inhibition	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	12	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	35	13	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	14	Movement	Movement	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	15	David	David	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	16	B.	B.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	17	Weaver1	Weaver1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	35	19	Agnieszka	Agnieszka	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	20	Lewandowska2	Lewandowska2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	21	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	35	22	Tammy	Tammy	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	23	T.	T.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	24	Nguyen2	Nguyen2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	25	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	35	26	Valentina	Valentina	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	27	Debattisti1	Debattisti1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	28	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	35	29	Janet	Janet	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	30	M.	M.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	31	Shaw2	Shaw2	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	35	32	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	35	33	Gyorgy	Gyorgy	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	34	Hajnoczky1	Hajnoczky1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	35	35	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	36	1	1MitoCare	1mitocare	CD
work_bcdkx2x635cq3n2rul6aysbkiu	36	2	Center	Center	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	3	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	4	Dept	Dept	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	5	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	36	6	Pathology	Pathology	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	7	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	8	Anatomy	Anatomy	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	9	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	36	10	Cell	Cell	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	11	Biology	Biology	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	12	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	13	Thomas	Thomas	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	14	Jefferson	Jefferson	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	15	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	16	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	17	Philadelphia	Philadelphia	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	19	PA	PA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	20	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	21	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	22	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	23	2Biochemistry	2Biochemistry	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	24	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	25	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	26	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	36	27	Utah	Utah	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	28	School	School	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	29	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	36	30	Medicine	Medicine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	31	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	32	Salt	Salt	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	33	Lake	Lake	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	34	City	City	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	35	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	36	UT	UT	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	37	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	36	38	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	36	39	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	37	1	Miro1	miro1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	37	2	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	37	3	2	2	CD
work_bcdkx2x635cq3n2rul6aysbkiu	37	4	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	37	5	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	37	6	Rhot1	Rhot1	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	37	7	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	37	8	2	2	CD
work_bcdkx2x635cq3n2rul6aysbkiu	37	9	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	37	10	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	37	11	two	two	CD
work_bcdkx2x635cq3n2rul6aysbkiu	37	12	highly	highly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	37	13	similar	similar	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	37	14	GTPases	gtpase	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	37	15	that	that	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	37	16	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	37	17	bound	bind	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	37	18	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	37	19	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	37	20	surface	surface	NN
work_bcdkx2x635cq3n2rul6aysbkiu	37	21	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	37	22	mitochondria	mitochondrion	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	37	23	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	37	24	possess	possess	VB
work_bcdkx2x635cq3n2rul6aysbkiu	37	25	EF	EF	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	37	26	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	37	27	hand	hand	NN
work_bcdkx2x635cq3n2rul6aysbkiu	37	28	calcium	calcium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	37	29	binding	bind	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	37	30	motifs	motif	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	37	31	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	38	1	Several	several	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	38	2	groups	group	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	38	3	have	have	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	38	4	reported	report	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	38	5	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	38	6	Miro	Miro	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	38	7	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	38	8	involved	involve	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	38	9	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	38	10	mitochondrial	mitochondrial	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	38	11	motility	motility	NN
work_bcdkx2x635cq3n2rul6aysbkiu	38	12	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	38	13	inheritance	inheritance	NN
work_bcdkx2x635cq3n2rul6aysbkiu	38	14	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	38	15	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	38	16	particularly	particularly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	38	17	its	-PRON-	PRP$
work_bcdkx2x635cq3n2rul6aysbkiu	38	18	calcium	calcium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	38	19	regulation	regulation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	38	20	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	38	21	but	but	CC
work_bcdkx2x635cq3n2rul6aysbkiu	38	22	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	38	23	roles	role	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	38	24	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	38	25	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	38	26	two	two	CD
work_bcdkx2x635cq3n2rul6aysbkiu	38	27	isoforms	isoform	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	38	28	have	have	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	38	29	not	not	RB
work_bcdkx2x635cq3n2rul6aysbkiu	38	30	been	be	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	38	31	established	establish	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	38	32	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	39	1	Genetic	genetic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	39	2	deletion	deletion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	39	3	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	39	4	Miro1	miro1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	39	5	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	39	6	mouse	mouse	NN
work_bcdkx2x635cq3n2rul6aysbkiu	39	7	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	39	8	lethal	lethal	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	39	9	at	at	IN
work_bcdkx2x635cq3n2rul6aysbkiu	39	10	birth	birth	NN
work_bcdkx2x635cq3n2rul6aysbkiu	39	11	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	39	12	Nguyen	Nguyen	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	39	13	et	et	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	39	14	al	al	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	39	15	.	.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	39	16	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	39	17	2014	2014	CD
work_bcdkx2x635cq3n2rul6aysbkiu	39	18	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	39	19	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	39	20	fibroblasts	fibroblast	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	39	21	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	39	22	MEFs	MEFs	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	39	23	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	39	24	derived	derive	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	39	25	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	39	26	Miro1	miro1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	39	27	KO	KO	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	39	28	em-	em-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	39	29	bryos	bryos	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	39	30	show	show	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	39	31	abnormal	abnormal	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	39	32	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	39	33	distribution	distribution	NN
work_bcdkx2x635cq3n2rul6aysbkiu	39	34	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	39	35	but	but	CC
work_bcdkx2x635cq3n2rul6aysbkiu	39	36	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	39	37	calcium	calcium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	39	38	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	39	39	dependent	dependent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	39	40	in-	in-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	39	41	hibition	hibition	NN
work_bcdkx2x635cq3n2rul6aysbkiu	39	42	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	39	43	motility	motility	NN
work_bcdkx2x635cq3n2rul6aysbkiu	39	44	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	39	45	unaffected	unaffected	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	39	46	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	39	47	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	39	48	respiratory	respiratory	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	39	49	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	39	50	calcium	calcium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	39	51	buffering	buffering	NN
work_bcdkx2x635cq3n2rul6aysbkiu	39	52	capacities	capacity	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	39	53	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	39	54	normal	normal	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	39	55	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	40	1	Neuron	neuron	NN
work_bcdkx2x635cq3n2rul6aysbkiu	40	2	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	40	3	specific	specific	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	40	4	knockout	knockout	NN
work_bcdkx2x635cq3n2rul6aysbkiu	40	5	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	40	6	Miro1	miro1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	40	7	leads	lead	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	40	8	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	40	9	progressive	progressive	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	40	10	deficits	deficit	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	40	11	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	40	12	upper	upper	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	40	13	motor	motor	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	40	14	neuron	neuron	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	40	15	function	function	NN
work_bcdkx2x635cq3n2rul6aysbkiu	40	16	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	40	17	however	however	RB
work_bcdkx2x635cq3n2rul6aysbkiu	40	18	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	40	19	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	40	20	processes	process	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	40	21	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	40	22	cortical	cortical	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	40	23	neurons	neuron	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	40	24	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	40	25	Miro1	miro1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	40	26	KO	KO	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	40	27	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	40	28	wild	wild	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	40	29	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	40	30	type	type	NN
work_bcdkx2x635cq3n2rul6aysbkiu	40	31	embryos	embryo	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	40	32	showed	show	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	40	33	comparable	comparable	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	40	34	calcium	calcium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	40	35	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	40	36	sensitive	sensitive	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	40	37	motility	motility	NN
work_bcdkx2x635cq3n2rul6aysbkiu	40	38	inhibition	inhibition	NN
work_bcdkx2x635cq3n2rul6aysbkiu	40	39	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	41	1	While	while	IN
work_bcdkx2x635cq3n2rul6aysbkiu	41	2	no	no	DT
work_bcdkx2x635cq3n2rul6aysbkiu	41	3	significant	significant	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	41	4	increase	increase	NN
work_bcdkx2x635cq3n2rul6aysbkiu	41	5	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	41	6	Miro2	miro2	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	41	7	pro-	pro-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	41	8	tein	tein	NN
work_bcdkx2x635cq3n2rul6aysbkiu	41	9	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	41	10	observed	observe	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	41	11	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	41	12	Miro1	miro1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	41	13	KO	KO	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	41	14	MEFs	MEFs	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	41	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	41	16	these	these	DT
work_bcdkx2x635cq3n2rul6aysbkiu	41	17	data	datum	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	41	18	raise	raise	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	41	19	two	two	CD
work_bcdkx2x635cq3n2rul6aysbkiu	41	20	possibilities	possibility	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	41	21	:	:	:
work_bcdkx2x635cq3n2rul6aysbkiu	41	22	Miro1	miro1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	41	23	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	41	24	2	2	CD
work_bcdkx2x635cq3n2rul6aysbkiu	41	25	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	41	26	interchangeable	interchangeable	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	41	27	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	41	28	regard	regard	NN
work_bcdkx2x635cq3n2rul6aysbkiu	41	29	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	41	30	calcium	calcium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	41	31	regulation	regulation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	41	32	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	41	33	mitochondrial	mitochondrial	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	41	34	motility	motility	NN
work_bcdkx2x635cq3n2rul6aysbkiu	41	35	or	or	CC
work_bcdkx2x635cq3n2rul6aysbkiu	41	36	Miro2	miro2	NN
work_bcdkx2x635cq3n2rul6aysbkiu	41	37	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	41	38	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	41	39	key	key	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	41	40	player	player	NN
work_bcdkx2x635cq3n2rul6aysbkiu	41	41	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	41	42	this	this	DT
work_bcdkx2x635cq3n2rul6aysbkiu	41	43	regard	regard	NN
work_bcdkx2x635cq3n2rul6aysbkiu	41	44	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	42	1	To	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	42	2	finally	finally	RB
work_bcdkx2x635cq3n2rul6aysbkiu	42	3	resolve	resolve	VB
work_bcdkx2x635cq3n2rul6aysbkiu	42	4	this	this	DT
work_bcdkx2x635cq3n2rul6aysbkiu	42	5	question	question	NN
work_bcdkx2x635cq3n2rul6aysbkiu	42	6	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	42	7	we	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	42	8	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	42	9	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	42	10	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	42	11	process	process	NN
work_bcdkx2x635cq3n2rul6aysbkiu	42	12	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	42	13	generating	generate	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	42	14	Miro2	miro2	CD
work_bcdkx2x635cq3n2rul6aysbkiu	42	15	KO	KO	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	42	16	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	42	17	Miro1/2	Miro1/2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	42	18	KO	KO	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	42	19	cell	cell	NN
work_bcdkx2x635cq3n2rul6aysbkiu	42	20	lines	line	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	42	21	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	43	1	3079-Pos	3079-Pos	NFP
work_bcdkx2x635cq3n2rul6aysbkiu	43	2	Board	Board	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	3	B509	B509	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	4	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	5	Fusion	Fusion	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	6	Dynamics	Dynamics	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	43	7	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	43	8	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	43	9	Heart	Heart	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	10	Veronica	Veronica	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	11	Eisner1	Eisner1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	12	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	43	13	Ryan	Ryan	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	14	Cupo1	Cupo1	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	43	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	43	16	Erhe	Erhe	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	17	Gao2	Gao2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	43	19	György	György	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	20	Csordás1	csordás1	ADD
work_bcdkx2x635cq3n2rul6aysbkiu	43	21	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	43	22	Lan	Lan	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	23	Cheng3	Cheng3	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	24	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	43	25	Jessica	Jessica	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	26	Ibetti2	Ibetti2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	27	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	43	28	J.	J.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	29	Kurt	Kurt	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	30	Chuprun2	Chuprun2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	31	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	43	32	Walter	Walter	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	33	J.	J.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	34	Koch2	koch2	NN
work_bcdkx2x635cq3n2rul6aysbkiu	43	35	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	43	36	György	György	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	37	Hajnóczky1	Hajnóczky1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	43	38	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	44	1	1MitoCare	1mitocare	CD
work_bcdkx2x635cq3n2rul6aysbkiu	44	2	Center	Center	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	3	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	4	Pathology	Pathology	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	5	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	6	Thomas	Thomas	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	7	Jefferson	Jefferson	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	8	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	9	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	10	Philadelphia	Philadelphia	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	11	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	12	PA	PA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	13	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	14	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	16	2Center	2Center	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	17	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	44	18	Translational	Translational	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	19	Medicine	Medicine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	20	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	21	Temple	Temple	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	22	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	23	School	School	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	24	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	44	25	Medicine	Medicine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	26	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	27	Philadelphia	Philadelphia	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	28	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	29	PA	PA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	30	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	31	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	32	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	33	3Center	3Center	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	34	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	44	35	Translational	Translational	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	36	Medicine	Medicine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	37	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	38	Thomas	Thomas	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	39	Jefferson	Jefferson	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	40	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	41	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	42	Philadelphia	Philadelphia	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	43	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	44	PA	PA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	45	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	44	46	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	44	47	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	45	1	Heart	heart	NN
work_bcdkx2x635cq3n2rul6aysbkiu	45	2	physiology	physiology	NN
work_bcdkx2x635cq3n2rul6aysbkiu	45	3	depends	depend	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	45	4	on	on	IN
work_bcdkx2x635cq3n2rul6aysbkiu	45	5	oxidative	oxidative	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	45	6	metabolism	metabolism	NN
work_bcdkx2x635cq3n2rul6aysbkiu	45	7	that	that	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	45	8	likely	likely	RB
work_bcdkx2x635cq3n2rul6aysbkiu	45	9	requires	require	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	45	10	dy-	dy-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	45	11	namic	namic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	45	12	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	45	13	permanent	permanent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	45	14	reorganization	reorganization	NN
work_bcdkx2x635cq3n2rul6aysbkiu	45	15	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	45	16	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	45	17	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	45	18	fusion	fusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	45	19	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	45	20	fission	fission	NN
work_bcdkx2x635cq3n2rul6aysbkiu	45	21	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	46	1	To	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	46	2	directly	directly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	46	3	evaluate	evaluate	VB
work_bcdkx2x635cq3n2rul6aysbkiu	46	4	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	46	5	fusion	fusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	46	6	dynamics	dynamic	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	46	7	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	46	8	cardiomyocytes	cardiomyocyte	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	46	9	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	46	10	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	46	11	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	46	12	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	46	13	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	46	14	matrix	matrix	NN
work_bcdkx2x635cq3n2rul6aysbkiu	46	15	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	46	16	targeted	target	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	46	17	photoactivatable	photoactivatable	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	46	18	GFP	GFP	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	46	19	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	46	20	DsRed	DsRed	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	46	21	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	46	22	intro-	intro-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	46	23	duced	duce	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	46	24	either	either	CC
work_bcdkx2x635cq3n2rul6aysbkiu	46	25	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	46	26	vitro	vitro	FW
work_bcdkx2x635cq3n2rul6aysbkiu	46	27	or	or	CC
work_bcdkx2x635cq3n2rul6aysbkiu	46	28	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	46	29	vivo	vivo	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	46	30	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	46	31	adenovirus	adenovirus	NN
work_bcdkx2x635cq3n2rul6aysbkiu	46	32	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	46	33	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	46	34	followed	follow	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	46	35	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	46	36	confocal	confocal	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	46	37	microscopy	microscopy	NN
work_bcdkx2x635cq3n2rul6aysbkiu	46	38	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	47	1	Four	four	CD
work_bcdkx2x635cq3n2rul6aysbkiu	47	2	conditions	condition	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	47	3	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	47	4	analyzed	analyze	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	47	5	:	:	:
work_bcdkx2x635cq3n2rul6aysbkiu	47	6	24	24	CD
work_bcdkx2x635cq3n2rul6aysbkiu	47	7	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	47	8	48	48	CD
work_bcdkx2x635cq3n2rul6aysbkiu	47	9	h	h	NN
work_bcdkx2x635cq3n2rul6aysbkiu	47	10	cultured	cultured	IN
work_bcdkx2x635cq3n2rul6aysbkiu	47	11	neonatal	neonatal	NN
work_bcdkx2x635cq3n2rul6aysbkiu	47	12	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	47	13	in	in	FW
work_bcdkx2x635cq3n2rul6aysbkiu	47	14	vitro	vitro	FW
work_bcdkx2x635cq3n2rul6aysbkiu	47	15	transduced	transduce	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	47	16	adult	adult	NN
work_bcdkx2x635cq3n2rul6aysbkiu	47	17	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	47	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	47	19	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	47	20	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	47	21	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	47	22	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	47	23	vivo	vivo	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	47	24	infected	infected	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	47	25	rat	rat	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	47	26	hearts	heart	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	47	27	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	48	1	In	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	48	2	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	48	3	latter	latter	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	48	4	case	case	NN
work_bcdkx2x635cq3n2rul6aysbkiu	48	5	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	48	6	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	48	7	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	48	8	isolated	isolate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	48	9	7	7	CD
work_bcdkx2x635cq3n2rul6aysbkiu	48	10	-	-	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	48	11	10	10	CD
work_bcdkx2x635cq3n2rul6aysbkiu	48	12	days	day	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	48	13	after	after	IN
work_bcdkx2x635cq3n2rul6aysbkiu	48	14	infection	infection	NN
work_bcdkx2x635cq3n2rul6aysbkiu	48	15	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	48	16	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	48	17	imaged	image	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	48	18	promptly	promptly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	48	19	or	or	CC
work_bcdkx2x635cq3n2rul6aysbkiu	48	20	24	24	CD
work_bcdkx2x635cq3n2rul6aysbkiu	48	21	-	-	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	48	22	48	48	CD
work_bcdkx2x635cq3n2rul6aysbkiu	48	23	h	h	NN
work_bcdkx2x635cq3n2rul6aysbkiu	48	24	post	post	NN
work_bcdkx2x635cq3n2rul6aysbkiu	48	25	harvesting	harvesting	NN
work_bcdkx2x635cq3n2rul6aysbkiu	48	26	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	49	1	Neonatal	Neonatal	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	49	2	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	49	3	mitochondria	mitochondrion	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	49	4	form	form	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	49	5	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	49	6	highly	highly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	49	7	connected	connected	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	49	8	network	network	NN
work_bcdkx2x635cq3n2rul6aysbkiu	49	9	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	49	10	whereas	whereas	IN
work_bcdkx2x635cq3n2rul6aysbkiu	49	11	both	both	DT
work_bcdkx2x635cq3n2rul6aysbkiu	49	12	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	49	13	vitro	vitro	FW
work_bcdkx2x635cq3n2rul6aysbkiu	49	14	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	49	15	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	49	16	vivo	vivo	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	49	17	transformed	transform	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	49	18	cultured	cultured	IN
work_bcdkx2x635cq3n2rul6aysbkiu	49	19	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	49	20	displayed	display	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	49	21	only	only	RB
work_bcdkx2x635cq3n2rul6aysbkiu	49	22	some	some	DT
work_bcdkx2x635cq3n2rul6aysbkiu	49	23	connectivity	connectivity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	49	24	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	50	1	Impressively	impressively	RB
work_bcdkx2x635cq3n2rul6aysbkiu	50	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	50	3	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	50	4	vivo	vivo	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	50	5	transduced	transduce	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	50	6	adult	adult	NN
work_bcdkx2x635cq3n2rul6aysbkiu	50	7	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	50	8	that	that	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	50	9	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	50	10	imaged	image	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	50	11	promptly	promptly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	50	12	after	after	IN
work_bcdkx2x635cq3n2rul6aysbkiu	50	13	harvesting	harvesting	NN
work_bcdkx2x635cq3n2rul6aysbkiu	50	14	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	50	15	unveiled	unveil	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	50	16	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	50	17	significantly	significantly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	50	18	higher	high	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	50	19	con-	con-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	50	20	nectivity	nectivity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	50	21	among	among	IN
work_bcdkx2x635cq3n2rul6aysbkiu	50	22	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	50	23	than	than	IN
work_bcdkx2x635cq3n2rul6aysbkiu	50	24	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	50	25	24	24	CD
work_bcdkx2x635cq3n2rul6aysbkiu	50	26	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	50	27	48h	48h	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	50	28	cultured	cultured	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	50	29	adult	adult	NN
work_bcdkx2x635cq3n2rul6aysbkiu	50	30	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	50	31	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	51	1	Furthermore	furthermore	RB
work_bcdkx2x635cq3n2rul6aysbkiu	51	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	51	3	fusion	fusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	51	4	events	event	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	51	5	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	51	6	f.e./75	f.e./75	IN
work_bcdkx2x635cq3n2rul6aysbkiu	51	7	square	square	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	51	8	micrometers	micrometer	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	51	9	/	/	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	51	10	min	min	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	51	11	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	51	12	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	51	13	almost	almost	RB
work_bcdkx2x635cq3n2rul6aysbkiu	51	14	absent	absent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	51	15	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	51	16	cultured	cultured	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	51	17	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	51	18	vitro	vitro	FW
work_bcdkx2x635cq3n2rul6aysbkiu	51	19	transduced	transduced	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	51	20	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	51	21	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	51	22	meanwhile	meanwhile	RB
work_bcdkx2x635cq3n2rul6aysbkiu	51	23	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	51	24	vivo	vivo	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	51	25	transduced	transduced	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	51	26	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	51	27	cultured	cultured	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	51	28	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	51	29	showed	show	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	51	30	0.450.2	0.450.2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	51	31	f.e./min	f.e./min	LS
work_bcdkx2x635cq3n2rul6aysbkiu	51	32	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	51	33	whereas	whereas	IN
work_bcdkx2x635cq3n2rul6aysbkiu	51	34	isolated	isolated	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	51	35	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	51	36	freshly	freshly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	51	37	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	51	38	imaged	image	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	51	39	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	51	40	displayed	display	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	51	41	1.45	1.45	CD
work_bcdkx2x635cq3n2rul6aysbkiu	51	42	0.1	0.1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	51	43	f.e./min	f.e./min	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	51	44	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	52	1	Imaging	image	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	52	2	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	52	3	perfused	perfuse	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	52	4	whole	whole	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	52	5	heart	heart	NN
work_bcdkx2x635cq3n2rul6aysbkiu	52	6	ex	ex	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	52	7	vivo	vivo	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	52	8	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	52	9	showed	show	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	52	10	consider-	consider-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	52	11	able	able	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	52	12	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	52	13	continuity	continuity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	52	14	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	52	15	fusion	fusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	52	16	activity	activity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	52	17	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	52	18	ventricular	ventricular	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	52	19	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	52	20	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	53	1	To	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	53	2	study	study	VB
work_bcdkx2x635cq3n2rul6aysbkiu	53	3	more	more	RBR
work_bcdkx2x635cq3n2rul6aysbkiu	53	4	directly	directly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	53	5	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	53	6	role	role	NN
work_bcdkx2x635cq3n2rul6aysbkiu	53	7	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	53	8	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	53	9	’s	’s	POS
work_bcdkx2x635cq3n2rul6aysbkiu	53	10	contractile	contractile	NN
work_bcdkx2x635cq3n2rul6aysbkiu	53	11	activity	activity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	53	12	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	53	13	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	53	14	fusion	fusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	53	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	53	16	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	53	17	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	53	18	incubated	incubate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	53	19	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	53	20	Verapamil	Verapamil	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	53	21	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	53	22	10mM	10mm	CD
work_bcdkx2x635cq3n2rul6aysbkiu	53	23	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	53	24	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	53	25	that	that	DT
work_bcdkx2x635cq3n2rul6aysbkiu	53	26	blocked	block	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	53	27	spontaneous	spontaneous	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	53	28	contrac-	contrac-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	53	29	tion	tion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	53	30	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	53	31	partially	partially	RB
work_bcdkx2x635cq3n2rul6aysbkiu	53	32	suppressed	suppress	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	53	33	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	53	34	fusion	fusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	53	35	activity	activity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	53	36	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	53	37	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	53	38	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	54	1	Also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	54	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	54	3	mito-	mito-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	54	4	chondrial	chondrial	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	54	5	fusion	fusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	54	6	activity	activity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	54	7	appeared	appear	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	54	8	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	54	9	be	be	VB
work_bcdkx2x635cq3n2rul6aysbkiu	54	10	higher	high	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	54	11	after	after	IN
work_bcdkx2x635cq3n2rul6aysbkiu	54	12	spontaneous	spontaneous	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	54	13	contraction	contraction	NN
work_bcdkx2x635cq3n2rul6aysbkiu	54	14	or	or	CC
work_bcdkx2x635cq3n2rul6aysbkiu	54	15	short	short	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	54	16	term	term	NN
work_bcdkx2x635cq3n2rul6aysbkiu	54	17	field	field	NN
work_bcdkx2x635cq3n2rul6aysbkiu	54	18	stimulation	stimulation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	54	19	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	54	20	isolated	isolate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	54	21	freshly	freshly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	54	22	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	54	23	imaged	image	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	54	24	CM	cm	NN
work_bcdkx2x635cq3n2rul6aysbkiu	54	25	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	55	1	Thus	thus	RB
work_bcdkx2x635cq3n2rul6aysbkiu	55	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	55	3	mitochon-	mitochon-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	55	4	dria	dria	NN
work_bcdkx2x635cq3n2rul6aysbkiu	55	5	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	55	6	dynamic	dynamic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	55	7	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	55	8	both	both	CC
work_bcdkx2x635cq3n2rul6aysbkiu	55	9	neonatal	neonatal	NN
work_bcdkx2x635cq3n2rul6aysbkiu	55	10	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	55	11	adult	adult	NN
work_bcdkx2x635cq3n2rul6aysbkiu	55	12	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	55	13	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	55	14	but	but	CC
work_bcdkx2x635cq3n2rul6aysbkiu	55	15	under	under	IN
work_bcdkx2x635cq3n2rul6aysbkiu	55	16	culture	culture	NN
work_bcdkx2x635cq3n2rul6aysbkiu	55	17	conditions	condition	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	55	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	55	19	adult	adult	NN
work_bcdkx2x635cq3n2rul6aysbkiu	55	20	CM	CM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	55	21	lose	lose	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	55	22	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	55	23	fusion	fusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	55	24	activity	activity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	55	25	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	56	1	This	this	DT
work_bcdkx2x635cq3n2rul6aysbkiu	56	2	might	may	MD
work_bcdkx2x635cq3n2rul6aysbkiu	56	3	be	be	VB
work_bcdkx2x635cq3n2rul6aysbkiu	56	4	at	at	IN
work_bcdkx2x635cq3n2rul6aysbkiu	56	5	least	least	JJS
work_bcdkx2x635cq3n2rul6aysbkiu	56	6	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	56	7	part	part	NN
work_bcdkx2x635cq3n2rul6aysbkiu	56	8	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	56	9	because	because	IN
work_bcdkx2x635cq3n2rul6aysbkiu	56	10	cardiomyocyte	cardiomyocyte	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	56	11	contractile	contractile	NN
work_bcdkx2x635cq3n2rul6aysbkiu	56	12	activity	activity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	56	13	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	56	14	altered	alter	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	56	15	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	56	16	culture	culture	NN
work_bcdkx2x635cq3n2rul6aysbkiu	56	17	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	56	18	contractions	contraction	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	56	19	likely	likely	RB
work_bcdkx2x635cq3n2rul6aysbkiu	56	20	provide	provide	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	56	21	some	some	DT
work_bcdkx2x635cq3n2rul6aysbkiu	56	22	factors	factor	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	56	23	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	56	24	support	support	VB
work_bcdkx2x635cq3n2rul6aysbkiu	56	25	mitochondrial	mitochondrial	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	56	26	fusion	fusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	56	27	activity	activity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	56	28	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	57	1	3080-Pos	3080-Pos	NFP
work_bcdkx2x635cq3n2rul6aysbkiu	57	2	Board	board	NN
work_bcdkx2x635cq3n2rul6aysbkiu	57	3	B510	B510	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	4	Mechanistic	Mechanistic	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	5	Characterization	Characterization	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	6	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	57	7	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	57	8	Thioredoxin	Thioredoxin	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	9	System	System	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	10	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	57	11	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	57	12	Removal	Removal	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	13	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	57	14	Hydrogen	Hydrogen	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	15	Peroxide	Peroxide	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	16	Venkat	Venkat	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	17	R.	R.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	18	Pannala	Pannala	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	19	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	57	20	Ranjan	Ranjan	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	21	K.	K.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	22	Dash	Dash	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	57	23	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	58	1	Bioengineering	bioengineering	NN
work_bcdkx2x635cq3n2rul6aysbkiu	58	2	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	58	3	Biotechnology	Biotechnology	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	58	4	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	58	5	Department	Department	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	58	6	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	58	7	Physiology	Physiology	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	58	8	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	58	9	Medical	Medical	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	58	10	College	College	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	58	11	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	58	12	Wisconsin	Wisconsin	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	58	13	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	58	14	Wauwatosa	Wauwatosa	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	58	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	58	16	WI	WI	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	58	17	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	58	18	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	58	19	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	59	1	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	59	2	thioredoxin	thioredoxin	NN
work_bcdkx2x635cq3n2rul6aysbkiu	59	3	system	system	NN
work_bcdkx2x635cq3n2rul6aysbkiu	59	4	plays	play	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	59	5	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	59	6	critical	critical	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	59	7	role	role	NN
work_bcdkx2x635cq3n2rul6aysbkiu	59	8	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	59	9	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	59	10	defense	defense	NN
work_bcdkx2x635cq3n2rul6aysbkiu	59	11	against	against	IN
work_bcdkx2x635cq3n2rul6aysbkiu	59	12	oxidative	oxidative	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	59	13	stress	stress	NN
work_bcdkx2x635cq3n2rul6aysbkiu	59	14	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	59	15	removing	remove	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	59	16	harmful	harmful	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	59	17	hydrogen	hydrogen	NN
work_bcdkx2x635cq3n2rul6aysbkiu	59	18	peroxide	peroxide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	59	19	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	59	20	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	59	21	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	59	22	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	60	1	Specifically	specifically	RB
work_bcdkx2x635cq3n2rul6aysbkiu	60	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	60	3	Wednesday	Wednesday	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	60	4	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	60	5	February	February	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	60	6	11	11	CD
work_bcdkx2x635cq3n2rul6aysbkiu	60	7	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	60	8	2015	2015	CD
work_bcdkx2x635cq3n2rul6aysbkiu	60	9	611a	611a	NN
work_bcdkx2x635cq3n2rul6aysbkiu	60	10	thioredoxin	thioredoxin	NN
work_bcdkx2x635cq3n2rul6aysbkiu	60	11	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	60	12	Trx	trx	NN
work_bcdkx2x635cq3n2rul6aysbkiu	60	13	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	60	14	donates	donate	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	60	15	electrons	electron	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	60	16	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	60	17	peroxiredoxin	peroxiredoxin	NN
work_bcdkx2x635cq3n2rul6aysbkiu	60	18	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	60	19	Prx	Prx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	60	20	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	60	21	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	60	22	remove	remove	VB
work_bcdkx2x635cq3n2rul6aysbkiu	60	23	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	60	24	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	60	25	then	then	RB
work_bcdkx2x635cq3n2rul6aysbkiu	60	26	thioredoxin	thioredoxin	VB
work_bcdkx2x635cq3n2rul6aysbkiu	60	27	reductase	reductase	NN
work_bcdkx2x635cq3n2rul6aysbkiu	60	28	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	60	29	TrxR	TrxR	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	60	30	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	60	31	maintains	maintain	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	60	32	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	60	33	reduced	reduced	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	60	34	Trx	Trx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	60	35	concentration	concentration	NN
work_bcdkx2x635cq3n2rul6aysbkiu	60	36	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	60	37	NADPH	NADPH	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	60	38	as	as	IN
work_bcdkx2x635cq3n2rul6aysbkiu	60	39	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	60	40	cofactor	cofactor	NN
work_bcdkx2x635cq3n2rul6aysbkiu	60	41	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	61	1	Despite	despite	IN
work_bcdkx2x635cq3n2rul6aysbkiu	61	2	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	61	3	great	great	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	61	4	deal	deal	NN
work_bcdkx2x635cq3n2rul6aysbkiu	61	5	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	61	6	kinetic	kinetic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	61	7	information	information	NN
work_bcdkx2x635cq3n2rul6aysbkiu	61	8	gath-	gath-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	61	9	ered	ered	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	61	10	on	on	IN
work_bcdkx2x635cq3n2rul6aysbkiu	61	11	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	61	12	removal	removal	NN
work_bcdkx2x635cq3n2rul6aysbkiu	61	13	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	61	14	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	61	15	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	61	16	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	61	17	Trx	Trx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	61	18	system	system	NN
work_bcdkx2x635cq3n2rul6aysbkiu	61	19	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	61	20	various	various	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	61	21	sources	source	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	61	22	/	/	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	61	23	species	specie	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	61	24	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	61	25	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	61	26	mechanistic	mechanistic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	61	27	understanding	understanding	NN
work_bcdkx2x635cq3n2rul6aysbkiu	61	28	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	61	29	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	61	30	associated	associated	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	61	31	enzymes	enzyme	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	61	32	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	61	33	still	still	RB
work_bcdkx2x635cq3n2rul6aysbkiu	61	34	not	not	RB
work_bcdkx2x635cq3n2rul6aysbkiu	61	35	available	available	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	61	36	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	62	1	We	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	62	2	address	address	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	62	3	this	this	DT
work_bcdkx2x635cq3n2rul6aysbkiu	62	4	issue	issue	NN
work_bcdkx2x635cq3n2rul6aysbkiu	62	5	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	62	6	developing	develop	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	62	7	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	62	8	thermodynamically	thermodynamically	RB
work_bcdkx2x635cq3n2rul6aysbkiu	62	9	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	62	10	consistent	consistent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	62	11	mathematical	mathematical	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	62	12	model	model	NN
work_bcdkx2x635cq3n2rul6aysbkiu	62	13	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	62	14	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	62	15	Trx	Trx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	62	16	system	system	NN
work_bcdkx2x635cq3n2rul6aysbkiu	62	17	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	62	18	entails	entail	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	62	19	mechanistic	mechanistic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	62	20	details	detail	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	62	21	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	62	22	provides	provide	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	62	23	quan-	quan-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	62	24	titative	titative	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	62	25	insights	insight	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	62	26	into	into	IN
work_bcdkx2x635cq3n2rul6aysbkiu	62	27	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	62	28	kinetics	kinetic	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	62	29	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	62	30	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	62	31	TrxR	TrxR	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	62	32	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	62	33	Prx	Prx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	62	34	enzymes	enzyme	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	62	35	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	63	1	Consistent	consistent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	63	2	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	63	3	experimental	experimental	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	63	4	studies	study	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	63	5	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	63	6	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	63	7	model	model	NN
work_bcdkx2x635cq3n2rul6aysbkiu	63	8	analyses	analysis	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	63	9	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	63	10	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	63	11	available	available	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	63	12	data	datum	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	63	13	show	show	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	63	14	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	63	15	both	both	DT
work_bcdkx2x635cq3n2rul6aysbkiu	63	16	enzymes	enzyme	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	63	17	operate	operate	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	63	18	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	63	19	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	63	20	ping	ping	NN
work_bcdkx2x635cq3n2rul6aysbkiu	63	21	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	63	22	pong	pong	NN
work_bcdkx2x635cq3n2rul6aysbkiu	63	23	mechanism	mechanism	NN
work_bcdkx2x635cq3n2rul6aysbkiu	63	24	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	64	1	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	64	2	proposed	propose	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	64	3	mechanism	mechanism	NN
work_bcdkx2x635cq3n2rul6aysbkiu	64	4	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	64	5	TrxR	TrxR	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	64	6	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	64	7	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	64	8	incorporates	incorporate	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	64	9	substrate	substrate	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	64	10	inhibition	inhibition	NN
work_bcdkx2x635cq3n2rul6aysbkiu	64	11	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	64	12	NADPH	NADPH	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	64	13	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	64	14	intermediate	intermediate	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	64	15	protonation	protonation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	64	16	states	state	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	64	17	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	64	18	well	well	RB
work_bcdkx2x635cq3n2rul6aysbkiu	64	19	describes	describe	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	64	20	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	64	21	available	available	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	64	22	data	datum	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	64	23	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	64	24	accurately	accurately	RB
work_bcdkx2x635cq3n2rul6aysbkiu	64	25	predicts	predict	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	64	26	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	64	27	bell	bell	NN
work_bcdkx2x635cq3n2rul6aysbkiu	64	28	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	64	29	shaped	shape	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	64	30	behavior	behavior	NN
work_bcdkx2x635cq3n2rul6aysbkiu	64	31	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	64	32	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	64	33	effect	effect	NN
work_bcdkx2x635cq3n2rul6aysbkiu	64	34	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	64	35	pH	pH	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	64	36	on	on	IN
work_bcdkx2x635cq3n2rul6aysbkiu	64	37	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	64	38	TrxR	TrxR	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	64	39	activity	activity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	64	40	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	65	1	Most	Most	JJS
work_bcdkx2x635cq3n2rul6aysbkiu	65	2	impor-	impor-	RB
work_bcdkx2x635cq3n2rul6aysbkiu	65	3	tantly	tantly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	65	4	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	65	5	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	65	6	model	model	NN
work_bcdkx2x635cq3n2rul6aysbkiu	65	7	also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	65	8	predicts	predict	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	65	9	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	65	10	inhibitory	inhibitory	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	65	11	effects	effect	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	65	12	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	65	13	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	65	14	reaction	reaction	NN
work_bcdkx2x635cq3n2rul6aysbkiu	65	15	products	product	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	65	16	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	65	17	NADPþ	NADPþ	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	65	18	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	65	19	Trx(SH)2	Trx(SH)2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	65	20	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	65	21	on	on	IN
work_bcdkx2x635cq3n2rul6aysbkiu	65	22	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	65	23	TrxR	TrxR	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	65	24	activity	activity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	65	25	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	65	26	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	65	27	suitable	suitable	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	65	28	experimental	experimental	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	65	29	data	datum	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	65	30	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	65	31	not	not	RB
work_bcdkx2x635cq3n2rul6aysbkiu	65	32	available	available	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	65	33	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	66	1	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	66	2	model	model	NN
work_bcdkx2x635cq3n2rul6aysbkiu	66	3	analyses	analyse	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	66	4	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	66	5	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	66	6	available	available	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	66	7	data	datum	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	66	8	on	on	IN
work_bcdkx2x635cq3n2rul6aysbkiu	66	9	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	66	10	kinetics	kinetic	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	66	11	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	66	12	Prx	Prx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	66	13	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	66	14	mammalian	mammalian	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	66	15	sources	source	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	66	16	reveal	reveal	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	66	17	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	66	18	Prx	Prx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	66	19	operates	operate	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	66	20	at	at	IN
work_bcdkx2x635cq3n2rul6aysbkiu	66	21	very	very	RB
work_bcdkx2x635cq3n2rul6aysbkiu	66	22	low	low	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	66	23	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	66	24	con-	con-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	66	25	centrations	centration	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	66	26	compared	compare	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	66	27	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	66	28	their	-PRON-	PRP$
work_bcdkx2x635cq3n2rul6aysbkiu	66	29	human	human	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	66	30	parasite	parasite	NN
work_bcdkx2x635cq3n2rul6aysbkiu	66	31	counterparts	counterpart	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	66	32	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	67	1	Furthermore	furthermore	RB
work_bcdkx2x635cq3n2rul6aysbkiu	67	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	67	3	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	67	4	model	model	NN
work_bcdkx2x635cq3n2rul6aysbkiu	67	5	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	67	6	able	able	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	67	7	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	67	8	predict	predict	VB
work_bcdkx2x635cq3n2rul6aysbkiu	67	9	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	67	10	dynamic	dynamic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	67	11	overoxidation	overoxidation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	67	12	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	67	13	Prx	Prx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	67	14	at	at	IN
work_bcdkx2x635cq3n2rul6aysbkiu	67	15	high	high	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	67	16	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	67	17	con-	con-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	67	18	centrations	centration	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	67	19	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	67	20	consistent	consistent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	67	21	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	67	22	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	67	23	available	available	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	67	24	data	datum	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	67	25	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	68	1	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	68	2	integrated	integrated	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	68	3	Prx	Prx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	68	4	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	68	5	TrxR	TrxR	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	68	6	model	model	NN
work_bcdkx2x635cq3n2rul6aysbkiu	68	7	simulations	simulation	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	68	8	show	show	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	68	9	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	68	10	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	68	11	coupling	coupling	NN
work_bcdkx2x635cq3n2rul6aysbkiu	68	12	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	68	13	TrxR-	TrxR-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	68	14	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	68	15	Prx	Prx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	68	16	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	68	17	dependent	dependent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	68	18	reduction	reduction	NN
work_bcdkx2x635cq3n2rul6aysbkiu	68	19	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	68	20	H2O2	H2O2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	68	21	allowed	allow	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	68	22	ultrasensitive	ultrasensitive	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	68	23	changes	change	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	68	24	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	68	25	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	68	26	Trx	Trx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	68	27	concentration	concentration	NN
work_bcdkx2x635cq3n2rul6aysbkiu	68	28	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	68	29	response	response	NN
work_bcdkx2x635cq3n2rul6aysbkiu	68	30	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	68	31	changes	change	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	68	32	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	68	33	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	68	34	TrxR	TrxR	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	68	35	concentration	concentration	NN
work_bcdkx2x635cq3n2rul6aysbkiu	68	36	at	at	IN
work_bcdkx2x635cq3n2rul6aysbkiu	68	37	high	high	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	68	38	Prx	Prx	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	68	39	concentrations	concentration	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	68	40	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	69	1	3081-Pos	3081-Pos	NFP
work_bcdkx2x635cq3n2rul6aysbkiu	69	2	Board	Board	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	3	B511	B511	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	4	Higher	Higher	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	5	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	6	Membrane	Membrane	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	7	Potential	Potential	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	8	Induces	Induces	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	69	9	ROS	ros	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	69	10	Production	production	NN
work_bcdkx2x635cq3n2rul6aysbkiu	69	11	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	69	12	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	69	13	Familiar	Familiar	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	14	Form	Form	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	15	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	69	16	Frontotemporal	Frontotemporal	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	17	Dementia	Dementia	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	18	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	69	19	MAPT	MAPT	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	20	Mutations	Mutations	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	69	21	Noemi	Noemi	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	22	Esteras	Esteras	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	69	23	Gallego	Gallego	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	24	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	69	25	Selina	Selina	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	26	Wray	Wray	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	27	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	69	28	Elisavet	Elisavet	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	29	Preza	Preza	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	30	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	69	31	Andrey	Andrey	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	32	Y.	Y.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	33	Abramov	Abramov	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	69	34	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	70	1	Molecular	Molecular	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	70	2	Neuroscience	Neuroscience	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	70	3	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	70	4	Institute	Institute	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	70	5	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	70	6	Neurology	Neurology	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	70	7	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	70	8	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	70	9	College	College	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	70	10	London	London	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	70	11	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	70	12	London	London	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	70	13	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	70	14	United	United	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	70	15	Kingdom	Kingdom	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	70	16	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	71	1	Frontotemporal	frontotemporal	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	71	2	dementia	dementia	NN
work_bcdkx2x635cq3n2rul6aysbkiu	71	3	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	71	4	parkinsonism	parkinsonism	NN
work_bcdkx2x635cq3n2rul6aysbkiu	71	5	linked	link	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	71	6	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	71	7	chromosome	chromosome	VB
work_bcdkx2x635cq3n2rul6aysbkiu	71	8	17	17	CD
work_bcdkx2x635cq3n2rul6aysbkiu	71	9	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	71	10	FTDP-	FTDP-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	71	11	17	17	CD
work_bcdkx2x635cq3n2rul6aysbkiu	71	12	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	71	13	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	71	14	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	71	15	neurodegenerative	neurodegenerative	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	71	16	disorder	disorder	NN
work_bcdkx2x635cq3n2rul6aysbkiu	71	17	caused	cause	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	71	18	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	71	19	mutations	mutation	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	71	20	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	71	21	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	71	22	MAPT	mapt	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	71	23	gene	gene	NN
work_bcdkx2x635cq3n2rul6aysbkiu	71	24	en-	en-	CC
work_bcdkx2x635cq3n2rul6aysbkiu	71	25	coding	code	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	71	26	tau	tau	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	71	27	protein	protein	NN
work_bcdkx2x635cq3n2rul6aysbkiu	71	28	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	72	1	Mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	72	2	alterations	alteration	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	72	3	have	have	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	72	4	been	be	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	72	5	associated	associate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	72	6	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	72	7	neuronal	neuronal	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	72	8	death	death	NN
work_bcdkx2x635cq3n2rul6aysbkiu	72	9	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	72	10	several	several	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	72	11	diseases	disease	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	72	12	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	73	1	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	73	2	objective	objective	NN
work_bcdkx2x635cq3n2rul6aysbkiu	73	3	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	73	4	our	-PRON-	PRP$
work_bcdkx2x635cq3n2rul6aysbkiu	73	5	study	study	NN
work_bcdkx2x635cq3n2rul6aysbkiu	73	6	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	73	7	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	73	8	analyse	analyse	VB
work_bcdkx2x635cq3n2rul6aysbkiu	73	9	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	73	10	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	73	11	function	function	NN
work_bcdkx2x635cq3n2rul6aysbkiu	73	12	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	73	13	human	human	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	73	14	iPS	ip	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	73	15	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	73	16	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	73	17	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	73	18	patient	patient	NN
work_bcdkx2x635cq3n2rul6aysbkiu	73	19	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	73	20	FTDP-17	ftdp-17	NN
work_bcdkx2x635cq3n2rul6aysbkiu	73	21	car-	car-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	73	22	rying	rye	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	73	23	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	73	24	10þ16	10þ16	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	73	25	MAPT	MAPT	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	73	26	mutation	mutation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	73	27	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	74	1	In	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	74	2	addition	addition	NN
work_bcdkx2x635cq3n2rul6aysbkiu	74	3	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	74	4	we	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	74	5	have	have	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	74	6	selected	select	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	74	7	three	three	CD
work_bcdkx2x635cq3n2rul6aysbkiu	74	8	different	different	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	74	9	time	time	NN
work_bcdkx2x635cq3n2rul6aysbkiu	74	10	points	point	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	74	11	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	74	12	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	74	13	differentiation	differentiation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	74	14	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	74	15	pluripotent	pluripotent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	74	16	stem	stem	NN
work_bcdkx2x635cq3n2rul6aysbkiu	74	17	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	74	18	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	74	19	cortical	cortical	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	74	20	neurons	neuron	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	74	21	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	74	22	study	study	VB
work_bcdkx2x635cq3n2rul6aysbkiu	74	23	how	how	WRB
work_bcdkx2x635cq3n2rul6aysbkiu	74	24	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	74	25	alterations	alteration	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	74	26	develop	develop	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	74	27	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	75	1	We	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	75	2	have	have	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	75	3	used	use	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	75	4	fluorescence	fluorescence	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	5	imaging	imaging	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	6	techniques	technique	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	75	7	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	75	8	examine	examine	VB
work_bcdkx2x635cq3n2rul6aysbkiu	75	9	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	75	10	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	11	function	function	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	12	:	:	:
work_bcdkx2x635cq3n2rul6aysbkiu	75	13	TMRM	TMRM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	75	14	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	75	15	measure	measure	VB
work_bcdkx2x635cq3n2rul6aysbkiu	75	16	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	75	17	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	18	membrane	membrane	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	19	potential	potential	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	20	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	75	21	Dcm	Dcm	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	75	22	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	75	23	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	75	24	dyhidroethidium	dyhidroethidium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	25	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	75	26	DHE	DHE	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	75	27	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	75	28	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	75	29	measure	measure	VB
work_bcdkx2x635cq3n2rul6aysbkiu	75	30	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	75	31	rate	rate	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	32	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	75	33	reactive	reactive	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	75	34	oxygen	oxygen	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	35	species	specie	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	75	36	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	75	37	ROS	ros	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	38	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	75	39	production	production	NN
work_bcdkx2x635cq3n2rul6aysbkiu	75	40	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	76	1	Dcm	dcm	NN
work_bcdkx2x635cq3n2rul6aysbkiu	76	2	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	76	3	higher	high	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	76	4	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	76	5	iPS	ips	RB
work_bcdkx2x635cq3n2rul6aysbkiu	76	6	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	76	7	derived	derive	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	76	8	neurons	neuron	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	76	9	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	76	10	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	76	11	patient	patient	NN
work_bcdkx2x635cq3n2rul6aysbkiu	76	12	bearing	bear	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	76	13	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	76	14	MAPT	MAPT	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	76	15	mu-	mu-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	76	16	tation	tation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	76	17	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	76	18	158.3530.2	158.3530.2	CD
work_bcdkx2x635cq3n2rul6aysbkiu	76	19	%	%	NN
work_bcdkx2x635cq3n2rul6aysbkiu	76	20	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	76	21	control	control	NN
work_bcdkx2x635cq3n2rul6aysbkiu	76	22	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	76	23	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	77	1	Higher	high	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	77	2	Dcm	Dcm	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	77	3	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	77	4	also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	77	5	found	find	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	77	6	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	77	7	non-	non-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	77	8	differentiated	differentiate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	77	9	pluripotent	pluripotent	NN
work_bcdkx2x635cq3n2rul6aysbkiu	77	10	stem	stem	NN
work_bcdkx2x635cq3n2rul6aysbkiu	77	11	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	77	12	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	77	13	133.4510.1	133.4510.1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	77	14	%	%	NN
work_bcdkx2x635cq3n2rul6aysbkiu	77	15	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	77	16	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	77	17	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	77	18	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	77	19	neural	neural	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	77	20	rosettes	rosette	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	77	21	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	77	22	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	77	23	represent	represent	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	77	24	an	an	DT
work_bcdkx2x635cq3n2rul6aysbkiu	77	25	earlier	early	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	77	26	stage	stage	NN
work_bcdkx2x635cq3n2rul6aysbkiu	77	27	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	77	28	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	77	29	differentiation	differentiation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	77	30	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	77	31	151.5512.4	151.5512.4	CD
work_bcdkx2x635cq3n2rul6aysbkiu	77	32	%	%	NN
work_bcdkx2x635cq3n2rul6aysbkiu	77	33	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	77	34	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	78	1	In	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	78	2	contrast	contrast	NN
work_bcdkx2x635cq3n2rul6aysbkiu	78	3	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	78	4	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	78	5	mass	mass	NN
work_bcdkx2x635cq3n2rul6aysbkiu	78	6	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	78	7	lower	low	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	78	8	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	78	9	mutant	mutant	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	78	10	iPS	ips	RB
work_bcdkx2x635cq3n2rul6aysbkiu	78	11	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	78	12	derived	derive	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	78	13	neurons	neuron	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	78	14	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	78	15	85.153.9	85.153.9	CD
work_bcdkx2x635cq3n2rul6aysbkiu	78	16	%	%	NN
work_bcdkx2x635cq3n2rul6aysbkiu	78	17	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	78	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	78	19	although	although	IN
work_bcdkx2x635cq3n2rul6aysbkiu	78	20	it	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	78	21	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	78	22	similar	similar	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	78	23	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	78	24	non	non	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	78	25	-	-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	78	26	differentiated	differentiated	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	78	27	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	78	28	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	79	1	We	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	79	2	have	have	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	79	3	also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	79	4	found	find	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	79	5	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	79	6	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	79	7	rate	rate	NN
work_bcdkx2x635cq3n2rul6aysbkiu	79	8	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	79	9	ROS	ros	NN
work_bcdkx2x635cq3n2rul6aysbkiu	79	10	production	production	NN
work_bcdkx2x635cq3n2rul6aysbkiu	79	11	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	79	12	measured	measure	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	79	13	using	use	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	79	14	DHE	DHE	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	79	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	79	16	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	79	17	also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	79	18	higher	high	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	79	19	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	79	20	iPS	ips	RB
work_bcdkx2x635cq3n2rul6aysbkiu	79	21	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	79	22	derived	derive	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	79	23	neurons	neuron	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	79	24	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	79	25	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	79	26	patient	patient	NN
work_bcdkx2x635cq3n2rul6aysbkiu	79	27	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	79	28	127513.9	127513.9	CD
work_bcdkx2x635cq3n2rul6aysbkiu	79	29	%	%	NN
work_bcdkx2x635cq3n2rul6aysbkiu	79	30	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	79	31	control	control	NN
work_bcdkx2x635cq3n2rul6aysbkiu	79	32	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	79	33	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	80	1	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	80	2	increased	increase	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	80	3	rate	rate	NN
work_bcdkx2x635cq3n2rul6aysbkiu	80	4	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	80	5	ROS	ros	NN
work_bcdkx2x635cq3n2rul6aysbkiu	80	6	production	production	NN
work_bcdkx2x635cq3n2rul6aysbkiu	80	7	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	80	8	these	these	DT
work_bcdkx2x635cq3n2rul6aysbkiu	80	9	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	80	10	may	may	MD
work_bcdkx2x635cq3n2rul6aysbkiu	80	11	be	be	VB
work_bcdkx2x635cq3n2rul6aysbkiu	80	12	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	80	13	consequence	consequence	NN
work_bcdkx2x635cq3n2rul6aysbkiu	80	14	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	80	15	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	80	16	enhanced	enhanced	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	80	17	membrane	membrane	NN
work_bcdkx2x635cq3n2rul6aysbkiu	80	18	potential	potential	NN
work_bcdkx2x635cq3n2rul6aysbkiu	80	19	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	81	1	Consistently	consistently	RB
work_bcdkx2x635cq3n2rul6aysbkiu	81	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	81	3	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	81	4	rate	rate	NN
work_bcdkx2x635cq3n2rul6aysbkiu	81	5	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	81	6	ROS	ros	NN
work_bcdkx2x635cq3n2rul6aysbkiu	81	7	production	production	NN
work_bcdkx2x635cq3n2rul6aysbkiu	81	8	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	81	9	non	non	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	81	10	-	-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	81	11	differentiated	differentiated	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	81	12	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	81	13	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	81	14	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	81	15	neural	neural	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	81	16	rosettes	rosette	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	81	17	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	81	18	also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	81	19	significantly	significantly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	81	20	higher	high	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	81	21	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	81	22	123512.9	123512.9	CD
work_bcdkx2x635cq3n2rul6aysbkiu	81	23	%	%	NN
work_bcdkx2x635cq3n2rul6aysbkiu	81	24	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	81	25	13056.9	13056.9	CD
work_bcdkx2x635cq3n2rul6aysbkiu	81	26	%	%	NN
work_bcdkx2x635cq3n2rul6aysbkiu	81	27	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	81	28	respectively	respectively	RB
work_bcdkx2x635cq3n2rul6aysbkiu	81	29	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	81	30	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	82	1	Our	-PRON-	PRP$
work_bcdkx2x635cq3n2rul6aysbkiu	82	2	study	study	NN
work_bcdkx2x635cq3n2rul6aysbkiu	82	3	indicates	indicate	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	82	4	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	82	5	this	this	DT
work_bcdkx2x635cq3n2rul6aysbkiu	82	6	MAPT	MAPT	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	82	7	mutation	mutation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	82	8	leads	lead	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	82	9	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	82	10	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	82	11	higher	high	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	82	12	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	82	13	membrane	membrane	NN
work_bcdkx2x635cq3n2rul6aysbkiu	82	14	potential	potential	NN
work_bcdkx2x635cq3n2rul6aysbkiu	82	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	82	16	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	82	17	induces	induce	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	82	18	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	82	19	higher	high	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	82	20	ROS	ros	NN
work_bcdkx2x635cq3n2rul6aysbkiu	82	21	production	production	NN
work_bcdkx2x635cq3n2rul6aysbkiu	82	22	that	that	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	82	23	may	may	MD
work_bcdkx2x635cq3n2rul6aysbkiu	82	24	be	be	VB
work_bcdkx2x635cq3n2rul6aysbkiu	82	25	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	82	26	trigger	trigger	NN
work_bcdkx2x635cq3n2rul6aysbkiu	82	27	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	82	28	neurodegeneration	neurodegeneration	NN
work_bcdkx2x635cq3n2rul6aysbkiu	82	29	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	83	1	3082-Pos	3082-Pos	NFP
work_bcdkx2x635cq3n2rul6aysbkiu	83	2	Board	board	NN
work_bcdkx2x635cq3n2rul6aysbkiu	83	3	B512	B512	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	4	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	83	5	Overexpression	Overexpression	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	6	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	83	7	Superoxide	Superoxide	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	8	Dismutase	dismutase	NN
work_bcdkx2x635cq3n2rul6aysbkiu	83	9	1	1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	83	10	Restores	restore	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	83	11	Growth	Growth	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	12	Defect	Defect	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	13	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	83	14	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	83	15	Porin1-Less	porin1-less	NN
work_bcdkx2x635cq3n2rul6aysbkiu	83	16	Yeast	Yeast	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	17	Strain	Strain	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	18	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	83	19	Improves	improve	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	83	20	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	21	Metabolism	Metabolism	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	22	Andrea	Andrea	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	23	Magrı̀1	Magrı̀1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	24	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	83	25	Simona	Simona	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	26	Reina1	Reina1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	27	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	83	28	Flora	Flora	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	29	M.	M.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	30	Tomasello2	Tomasello2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	31	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	83	32	Maria	Maria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	33	C.	C.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	34	Di	Di	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	35	Rosa1	Rosa1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	36	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	83	37	Angela	Angela	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	38	Messina1	Messina1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	39	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	83	40	Vito	Vito	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	41	De	De	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	42	Pinto1	Pinto1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	83	43	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	84	1	1Biological	1biological	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	84	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	84	3	Geological	Geological	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	4	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	84	5	Environmental	Environmental	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	6	Sciences	Sciences	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	84	7	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	84	8	Section	Section	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	9	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	84	10	Biochemistry	Biochemistry	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	11	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	84	12	Molecular	Molecular	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	13	Biology	Biology	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	14	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	84	15	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	16	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	84	17	Catania	Catania	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	84	19	Catania	Catania	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	20	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	84	21	Italy	Italy	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	22	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	84	23	2CNR	2CNR	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	24	–	–	:
work_bcdkx2x635cq3n2rul6aysbkiu	84	25	Institute	Institute	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	26	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	84	27	Biostructure	Biostructure	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	28	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	84	29	Bioimaging	Bioimaging	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	30	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	84	31	Section	Section	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	32	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	84	33	Catania	Catania	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	34	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	84	35	Catania	Catania	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	36	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	84	37	Italy	Italy	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	84	38	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	85	1	Metabolic	metabolic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	85	2	exchanges	exchange	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	85	3	between	between	IN
work_bcdkx2x635cq3n2rul6aysbkiu	85	4	cytosol	cytosol	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	85	5	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	85	6	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	85	7	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	85	8	made	make	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	85	9	possible	possible	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	85	10	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	85	11	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	85	12	presence	presence	NN
work_bcdkx2x635cq3n2rul6aysbkiu	85	13	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	85	14	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	85	15	pore	pore	NN
work_bcdkx2x635cq3n2rul6aysbkiu	85	16	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	85	17	forming	form	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	85	18	protein	protein	NN
work_bcdkx2x635cq3n2rul6aysbkiu	85	19	VDAC1	VDAC1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	85	20	on	on	IN
work_bcdkx2x635cq3n2rul6aysbkiu	85	21	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	85	22	outer	outer	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	85	23	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	85	24	membrane	membrane	NN
work_bcdkx2x635cq3n2rul6aysbkiu	85	25	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	85	26	1	1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	85	27	-	-	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	85	28	3	3	CD
work_bcdkx2x635cq3n2rul6aysbkiu	85	29	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	85	30	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	86	1	VDAC1	VDAC1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	86	2	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	86	3	directly	directly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	86	4	involved	involve	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	86	5	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	86	6	ATP	ATP	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	86	7	/	/	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	86	8	ADP	ADP	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	86	9	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	86	10	glucose	glucose	NN
work_bcdkx2x635cq3n2rul6aysbkiu	86	11	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	86	12	ions	ion	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	86	13	transportation	transportation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	86	14	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	86	15	calcium	calcium	NN
work_bcdkx2x635cq3n2rul6aysbkiu	86	16	homeostasis	homeostasis	NN
work_bcdkx2x635cq3n2rul6aysbkiu	86	17	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	86	18	apoptosis	apoptosis	NN
work_bcdkx2x635cq3n2rul6aysbkiu	86	19	regulation	regulation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	86	20	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	87	1	Moreover	moreover	RB
work_bcdkx2x635cq3n2rul6aysbkiu	87	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	87	3	it	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	87	4	shows	show	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	87	5	high	high	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	87	6	level	level	NN
work_bcdkx2x635cq3n2rul6aysbkiu	87	7	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	87	8	sequence	sequence	NN
work_bcdkx2x635cq3n2rul6aysbkiu	87	9	conservation	conservation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	87	10	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	87	11	all	all	DT
work_bcdkx2x635cq3n2rul6aysbkiu	87	12	eukaryotes	eukaryote	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	87	13	:	:	:
work_bcdkx2x635cq3n2rul6aysbkiu	87	14	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	87	15	homologous	homologous	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	87	16	por1	por1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	87	17	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	87	18	yeast	yeast	NN
work_bcdkx2x635cq3n2rul6aysbkiu	87	19	S.	S.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	87	20	cerevisiae	cerevisiae	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	87	21	shows	show	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	87	22	70	70	CD
work_bcdkx2x635cq3n2rul6aysbkiu	87	23	%	%	NN
work_bcdkx2x635cq3n2rul6aysbkiu	87	24	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	87	25	identity	identity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	87	26	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	87	27	similar	similar	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	87	28	functional	functional	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	87	29	prop-	prop-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	87	30	erties	ertie	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	87	31	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	87	32	1	1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	87	33	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	87	34	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	88	1	Recent	recent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	88	2	studies	study	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	88	3	have	have	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	88	4	highlighted	highlight	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	88	5	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	88	6	existence	existence	NN
work_bcdkx2x635cq3n2rul6aysbkiu	88	7	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	88	8	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	88	9	link	link	NN
work_bcdkx2x635cq3n2rul6aysbkiu	88	10	between	between	IN
work_bcdkx2x635cq3n2rul6aysbkiu	88	11	VDAC1	VDAC1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	88	12	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	88	13	SOD1	SOD1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	88	14	enzyme	enzyme	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	88	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	88	16	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	88	17	most	most	RBS
work_bcdkx2x635cq3n2rul6aysbkiu	88	18	important	important	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	88	19	cytosolic	cytosolic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	88	20	defense	defense	NN
work_bcdkx2x635cq3n2rul6aysbkiu	88	21	against	against	IN
work_bcdkx2x635cq3n2rul6aysbkiu	88	22	superoxide	superoxide	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	88	23	anion	anion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	88	24	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	89	1	In	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	89	2	yeast	yeast	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	3	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	89	4	SOD1	SOD1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	89	5	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	89	6	required	require	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	89	7	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	89	8	protect	protect	VB
work_bcdkx2x635cq3n2rul6aysbkiu	89	9	VDAC1	VDAC1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	89	10	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	89	11	oxidation	oxidation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	12	but	but	CC
work_bcdkx2x635cq3n2rul6aysbkiu	89	13	also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	89	14	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	89	15	carbonylation	carbonylation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	16	induced	induce	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	89	17	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	89	18	ROS	ROS	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	89	19	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	89	20	3	3	CD
work_bcdkx2x635cq3n2rul6aysbkiu	89	21	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	89	22	;	;	:
work_bcdkx2x635cq3n2rul6aysbkiu	89	23	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	89	24	addition	addition	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	25	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	89	26	yeast	yeast	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	27	strains	strain	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	89	28	devoid	devoid	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	89	29	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	89	30	endogenous	endogenous	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	89	31	SOD1	SOD1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	89	32	show	show	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	33	down	down	RP
work_bcdkx2x635cq3n2rul6aysbkiu	89	34	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	89	35	regulated	regulated	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	89	36	VDAC1	vdac1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	37	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	89	38	TOM40	tom40	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	39	levels	level	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	89	40	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	89	41	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	89	42	VDAC	VDAC	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	89	43	shows	show	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	89	44	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	89	45	significantly	significantly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	89	46	less	less	RBR
work_bcdkx2x635cq3n2rul6aysbkiu	89	47	pronounced	pronounce	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	89	48	voltage	voltage	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	49	dependence	dependence	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	50	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	89	51	conductance	conductance	NN
work_bcdkx2x635cq3n2rul6aysbkiu	89	52	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	89	53	4	4	CD
work_bcdkx2x635cq3n2rul6aysbkiu	89	54	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	89	55	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	90	1	To	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	90	2	unravel	unravel	VB
work_bcdkx2x635cq3n2rul6aysbkiu	90	3	SOD1	SOD1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	90	4	metabolic	metabolic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	90	5	role	role	NN
work_bcdkx2x635cq3n2rul6aysbkiu	90	6	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	90	7	relation	relation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	90	8	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	90	9	VDAC1-mediated	VDAC1-mediated	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	90	10	metabolism	metabolism	NN
work_bcdkx2x635cq3n2rul6aysbkiu	90	11	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	90	12	we	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	90	13	expressed	express	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	90	14	human	human	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	90	15	SOD1	SOD1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	90	16	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	90	17	yeast	yeast	NN
work_bcdkx2x635cq3n2rul6aysbkiu	90	18	devoid	devoid	NN
work_bcdkx2x635cq3n2rul6aysbkiu	90	19	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	90	20	endogenous	endogenous	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	90	21	VDAC	VDAC	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	90	22	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	90	23	Dpor1	dpor1	NN
work_bcdkx2x635cq3n2rul6aysbkiu	90	24	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	90	25	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	91	1	While	while	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	2	Dpor1	Dpor1	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	91	3	strain	strain	NN
work_bcdkx2x635cq3n2rul6aysbkiu	91	4	can	can	MD
work_bcdkx2x635cq3n2rul6aysbkiu	91	5	not	not	RB
work_bcdkx2x635cq3n2rul6aysbkiu	91	6	grow	grow	VB
work_bcdkx2x635cq3n2rul6aysbkiu	91	7	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	8	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	91	9	presence	presence	NN
work_bcdkx2x635cq3n2rul6aysbkiu	91	10	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	11	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	91	12	not	not	RB
work_bcdkx2x635cq3n2rul6aysbkiu	91	13	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	91	14	fermentable	fermentable	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	91	15	carbon	carbon	NN
work_bcdkx2x635cq3n2rul6aysbkiu	91	16	source	source	NN
work_bcdkx2x635cq3n2rul6aysbkiu	91	17	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	91	18	possibly	possibly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	91	19	due	due	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	20	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	21	altered	alter	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	91	22	mitochondria	mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	91	23	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	91	24	our	-PRON-	PRP$
work_bcdkx2x635cq3n2rul6aysbkiu	91	25	results	result	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	91	26	indicates	indicate	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	91	27	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	28	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	91	29	overexpression	overexpression	NN
work_bcdkx2x635cq3n2rul6aysbkiu	91	30	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	31	hSOD1	hSOD1	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	91	32	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	33	Dpor1	Dpor1	JJR
work_bcdkx2x635cq3n2rul6aysbkiu	91	34	strain	strain	NN
work_bcdkx2x635cq3n2rul6aysbkiu	91	35	relieves	relieve	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	91	36	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	91	37	growth	growth	NN
work_bcdkx2x635cq3n2rul6aysbkiu	91	38	defect	defect	NN
work_bcdkx2x635cq3n2rul6aysbkiu	91	39	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	91	40	suggesting	suggest	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	91	41	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	42	SOD1	SOD1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	91	43	participates	participate	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	91	44	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	45	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	91	46	mitochondrial	mitochondrial	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	91	47	metabolic	metabolic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	91	48	intersection	intersection	NN
work_bcdkx2x635cq3n2rul6aysbkiu	91	49	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	91	50	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	91	51	cytosol	cytosol	NN
work_bcdkx2x635cq3n2rul6aysbkiu	91	52	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	92	1	Acknowledgments	acknowledgment	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	92	2	:	:	:
work_bcdkx2x635cq3n2rul6aysbkiu	92	3	PRIN	prin	NN
work_bcdkx2x635cq3n2rul6aysbkiu	92	4	2010CSJX4F	2010csjx4f	CD
work_bcdkx2x635cq3n2rul6aysbkiu	92	5	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	92	6	VDP	vdp	NN
work_bcdkx2x635cq3n2rul6aysbkiu	92	7	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	92	8	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	92	9	ARISLA	ARISLA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	92	10	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	92	11	AM	AM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	92	12	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	92	13	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	93	1	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	93	2	1	1	LS
work_bcdkx2x635cq3n2rul6aysbkiu	93	3	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	93	4	Messina	Messina	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	5	et	et	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	6	al	al	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	7	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	8	2012	2012	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	9	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	10	BBA	BBA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	11	1818	1818	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	12	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	13	1466	1466	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	14	-	-	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	93	15	1476	1476	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	16	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	93	17	2	2	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	18	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	93	19	De	De	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	20	Pinto	Pinto	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	21	et	et	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	22	al	al	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	23	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	24	1989	1989	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	25	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	26	BBA	BBA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	27	987	987	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	28	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	29	1	1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	30	-	-	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	93	31	7	7	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	32	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	93	33	3	3	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	34	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	93	35	Tomasello	Tomasello	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	36	et	et	FW
work_bcdkx2x635cq3n2rul6aysbkiu	93	37	al	al	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	38	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	39	PlosOne	PlosOne	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	40	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	41	2013	2013	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	42	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	43	8	8	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	44	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	45	e81522	e81522	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	46	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	93	47	4	4	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	48	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	93	49	O’Brien	O’Brien	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	50	et	et	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	51	al	al	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	52	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	53	2004	2004	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	54	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	55	JBC	JBC	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	56	279	279	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	57	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	58	51817	51817	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	59	-	-	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	93	60	51827	51827	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	61	[	[	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	93	62	5	5	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	63	]	]	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	93	64	Karakitos	Karakitos	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	65	et	et	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	66	al	al	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	67	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	68	2009	2009	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	69	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	70	FEBS	FEBS	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	71	Lett	Lett	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	72	583	583	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	73	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	74	449	449	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	75	-	-	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	93	76	455	455	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	77	3083-Pos	3083-pos	CD
work_bcdkx2x635cq3n2rul6aysbkiu	93	78	Board	Board	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	79	B513	B513	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	80	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	93	81	Role	role	NN
work_bcdkx2x635cq3n2rul6aysbkiu	93	82	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	93	83	Complex	Complex	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	84	I	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	93	85	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	93	86	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	87	Reactive	Reactive	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	88	Oxygen	Oxygen	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	89	Species	Species	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	93	90	Formation	Formation	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	91	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	93	92	Cochlear	Cochlear	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	93	Sensory	Sensory	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	94	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	93	95	Supporting	support	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	93	96	Cells	Cells	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	93	97	during	during	IN
work_bcdkx2x635cq3n2rul6aysbkiu	93	98	Ototoxic	Ototoxic	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	99	Aminoglycoside	Aminoglycoside	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	100	Exposure	Exposure	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	101	Danielle	Danielle	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	102	Desa1	Desa1	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	93	103	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	104	Michael	Michael	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	105	G.	G.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	106	Nichols1	Nichols1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	107	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	93	108	Heather	Heather	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	109	Jensen	Jensen	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	110	Smith2	Smith2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	93	111	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	94	1	1Physics	1Physics	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	2	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	94	3	Creighton	Creighton	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	4	Univeristy	Univeristy	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	5	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	94	6	Omaha	Omaha	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	7	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	94	8	NE	NE	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	9	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	94	10	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	11	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	94	12	2Biomedical	2Biomedical	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	13	Sciences	Sciences	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	94	14	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	94	15	Creighton	Creighton	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	16	Univeristy	Univeristy	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	17	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	94	18	Omaha	Omaha	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	19	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	94	20	NE	NE	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	21	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	94	22	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	94	23	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	95	1	Aminoglycosides	aminoglycoside	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	95	2	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	95	3	AGs	ag	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	95	4	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	95	5	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	95	6	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	95	7	most	most	RBS
work_bcdkx2x635cq3n2rul6aysbkiu	95	8	widely	widely	RB
work_bcdkx2x635cq3n2rul6aysbkiu	95	9	used	use	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	95	10	class	class	NN
work_bcdkx2x635cq3n2rul6aysbkiu	95	11	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	95	12	antibiotics	antibiotic	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	95	13	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	95	14	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	95	15	world	world	NN
work_bcdkx2x635cq3n2rul6aysbkiu	95	16	despite	despite	IN
work_bcdkx2x635cq3n2rul6aysbkiu	95	17	causing	cause	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	95	18	permanent	permanent	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	95	19	hearing	hearing	NN
work_bcdkx2x635cq3n2rul6aysbkiu	95	20	loss	loss	NN
work_bcdkx2x635cq3n2rul6aysbkiu	95	21	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	95	22	damaging	damage	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	95	23	inner	inner	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	95	24	ear	ear	NN
work_bcdkx2x635cq3n2rul6aysbkiu	95	25	sensory	sensory	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	95	26	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	95	27	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	96	1	Although	although	IN
work_bcdkx2x635cq3n2rul6aysbkiu	96	2	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	96	3	mechanisms	mechanism	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	96	4	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	96	5	cochlear	cochlear	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	96	6	sensory	sensory	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	96	7	cell	cell	NN
work_bcdkx2x635cq3n2rul6aysbkiu	96	8	damage	damage	NN
work_bcdkx2x635cq3n2rul6aysbkiu	96	9	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	96	10	not	not	RB
work_bcdkx2x635cq3n2rul6aysbkiu	96	11	fully	fully	RB
work_bcdkx2x635cq3n2rul6aysbkiu	96	12	known	know	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	96	13	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	96	14	reactive	reactive	VB
work_bcdkx2x635cq3n2rul6aysbkiu	96	15	oxygen	oxygen	NN
work_bcdkx2x635cq3n2rul6aysbkiu	96	16	species	specie	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	96	17	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	96	18	ROS	ROS	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	96	19	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	96	20	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	96	21	clearly	clearly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	96	22	involved	involve	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	96	23	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	97	1	During	during	IN
work_bcdkx2x635cq3n2rul6aysbkiu	97	2	normal	normal	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	97	3	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	97	4	metabolism	metabolism	NN
work_bcdkx2x635cq3n2rul6aysbkiu	97	5	low	low	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	97	6	levels	level	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	97	7	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	97	8	ROS	ROS	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	97	9	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	97	10	primarily	primarily	RB
work_bcdkx2x635cq3n2rul6aysbkiu	97	11	superoxide	superoxide	RB
work_bcdkx2x635cq3n2rul6aysbkiu	97	12	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	97	13	are	be	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	97	14	pro-	pro-	RB
work_bcdkx2x635cq3n2rul6aysbkiu	97	15	duced	duce	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	97	16	at	at	IN
work_bcdkx2x635cq3n2rul6aysbkiu	97	17	complexes	complex	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	97	18	I	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	97	19	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	97	20	III	iii	CD
work_bcdkx2x635cq3n2rul6aysbkiu	97	21	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	97	22	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	97	23	electron	electron	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	97	24	transport	transport	NN
work_bcdkx2x635cq3n2rul6aysbkiu	97	25	chain	chain	NN
work_bcdkx2x635cq3n2rul6aysbkiu	97	26	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	98	1	These	these	DT
work_bcdkx2x635cq3n2rul6aysbkiu	98	2	levels	level	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	98	3	can	can	MD
work_bcdkx2x635cq3n2rul6aysbkiu	98	4	increase	increase	VB
work_bcdkx2x635cq3n2rul6aysbkiu	98	5	when	when	WRB
work_bcdkx2x635cq3n2rul6aysbkiu	98	6	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	98	7	dysfunction	dysfunction	NN
work_bcdkx2x635cq3n2rul6aysbkiu	98	8	occurs	occur	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	98	9	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	99	1	Complex	complex	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	99	2	I	i	NN
work_bcdkx2x635cq3n2rul6aysbkiu	99	3	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	99	4	specific	specific	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	99	5	ROS	ros	NN
work_bcdkx2x635cq3n2rul6aysbkiu	99	6	for-	for-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	99	7	mation	mation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	99	8	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	99	9	evaluated	evaluate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	99	10	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	99	11	acutely	acutely	RB
work_bcdkx2x635cq3n2rul6aysbkiu	99	12	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	99	13	cultured	cultured	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	99	14	murine	murine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	99	15	cochlear	cochlear	NN
work_bcdkx2x635cq3n2rul6aysbkiu	99	16	explants	explant	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	99	17	exposed	expose	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	99	18	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	99	19	gentamicin	gentamicin	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	99	20	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	99	21	GM	GM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	99	22	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	99	23	300	300	CD
work_bcdkx2x635cq3n2rul6aysbkiu	99	24	mg	mg	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	99	25	/	/	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	99	26	ml	ml	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	99	27	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	99	28	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	99	29	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	99	30	representative	representative	NN
work_bcdkx2x635cq3n2rul6aysbkiu	99	31	ototoxic	ototoxic	NN
work_bcdkx2x635cq3n2rul6aysbkiu	99	32	AG	AG	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	99	33	antibiotic	antibiotic	NN
work_bcdkx2x635cq3n2rul6aysbkiu	99	34	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	100	1	Mito-	Mito-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	100	2	chondrial	chondrial	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	100	3	membrane	membrane	NN
work_bcdkx2x635cq3n2rul6aysbkiu	100	4	potential	potential	NN
work_bcdkx2x635cq3n2rul6aysbkiu	100	5	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	100	6	pro	pro	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	100	7	-	-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	100	8	apoptotic	apoptotic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	100	9	signaling	signaling	NN
work_bcdkx2x635cq3n2rul6aysbkiu	100	10	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	100	11	measured	measure	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	100	12	using	use	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	100	13	Tetramethylrhodamine	Tetramethylrhodamine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	100	14	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	100	15	apoptosis	apoptosis	NN
work_bcdkx2x635cq3n2rul6aysbkiu	100	16	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	100	17	inducing	induce	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	100	18	factor	factor	NN
work_bcdkx2x635cq3n2rul6aysbkiu	100	19	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	100	20	AIF	AIF	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	100	21	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	100	22	labeling	labeling	NN
work_bcdkx2x635cq3n2rul6aysbkiu	100	23	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	100	24	respec-	respec-	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	100	25	tively	tively	RB
work_bcdkx2x635cq3n2rul6aysbkiu	100	26	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	101	1	Fluorescence	Fluorescence	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	101	2	intensity	intensity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	101	3	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	101	4	based	base	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	101	5	measurements	measurement	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	101	6	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	101	7	nicotinamide	nicotinamide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	101	8	adenine	adenine	NN
work_bcdkx2x635cq3n2rul6aysbkiu	101	9	dinucleotide	dinucleotide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	101	10	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	101	11	NADH	NADH	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	101	12	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	101	13	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	101	14	used	use	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	101	15	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	101	16	detect	detect	VB
work_bcdkx2x635cq3n2rul6aysbkiu	101	17	changes	change	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	101	18	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	101	19	metabolism	metabolism	NN
work_bcdkx2x635cq3n2rul6aysbkiu	101	20	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	102	1	Relative	relative	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	102	2	amounts	amount	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	102	3	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	102	4	superoxide	superoxide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	102	5	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	102	6	hydrogen	hydrogen	NN
work_bcdkx2x635cq3n2rul6aysbkiu	102	7	peroxide	peroxide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	102	8	produced	produce	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	102	9	during	during	IN
work_bcdkx2x635cq3n2rul6aysbkiu	102	10	acute	acute	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	102	11	GM	GM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	102	12	exposure	exposure	NN
work_bcdkx2x635cq3n2rul6aysbkiu	102	13	were	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	102	14	measured	measure	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	102	15	using	use	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	102	16	MitoSox	MitoSox	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	102	17	Red	Red	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	102	18	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	102	19	Dihydrorhodamine	Dihydrorhodamine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	102	20	123	123	CD
work_bcdkx2x635cq3n2rul6aysbkiu	102	21	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	102	22	respectively	respectively	RB
work_bcdkx2x635cq3n2rul6aysbkiu	102	23	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	103	1	GM	GM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	103	2	increased	increase	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	103	3	NADH	NADH	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	103	4	fluorescence	fluorescence	NN
work_bcdkx2x635cq3n2rul6aysbkiu	103	5	intensity	intensity	NN
work_bcdkx2x635cq3n2rul6aysbkiu	103	6	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	103	7	low-	low-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	103	8	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	103	9	high	high	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	103	10	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	103	11	frequency	frequency	NN
work_bcdkx2x635cq3n2rul6aysbkiu	103	12	sensory	sensory	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	103	13	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	103	14	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	104	1	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	104	2	complex	complex	NN
work_bcdkx2x635cq3n2rul6aysbkiu	104	3	I	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	104	4	inhibitor	inhibitor	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	104	5	rotenone	rotenone	NN
work_bcdkx2x635cq3n2rul6aysbkiu	104	6	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	104	7	250	250	CD
work_bcdkx2x635cq3n2rul6aysbkiu	104	8	nM	nM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	104	9	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	104	10	significantly	significantly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	104	11	increased	increase	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	104	12	superoxide	superoxide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	104	13	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	104	14	not	not	RB
work_bcdkx2x635cq3n2rul6aysbkiu	104	15	hydrogen	hydrogen	NN
work_bcdkx2x635cq3n2rul6aysbkiu	104	16	peroxide	peroxide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	104	17	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	104	18	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	104	19	low-	low-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	104	20	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	104	21	high-	high-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	104	22	frequency	frequency	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	104	23	sensory	sensory	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	104	24	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	104	25	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	104	26	p	p	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	104	27	<	<	XX
work_bcdkx2x635cq3n2rul6aysbkiu	104	28	0.01	0.01	XX
work_bcdkx2x635cq3n2rul6aysbkiu	104	29	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	104	30	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	105	1	GM	GM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	105	2	significantly	significantly	RB
work_bcdkx2x635cq3n2rul6aysbkiu	105	3	increased	increase	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	105	4	superoxide	superoxide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	105	5	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	105	6	hydrogen	hydrogen	NN
work_bcdkx2x635cq3n2rul6aysbkiu	105	7	peroxide	peroxide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	105	8	formation	formation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	105	9	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	105	10	low-	low-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	105	11	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	105	12	high	high	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	105	13	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	105	14	frequency	frequency	NN
work_bcdkx2x635cq3n2rul6aysbkiu	105	15	sensory	sensory	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	105	16	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	105	17	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	105	18	p	p	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	105	19	<	<	XX
work_bcdkx2x635cq3n2rul6aysbkiu	105	20	0.05	0.05	CD
work_bcdkx2x635cq3n2rul6aysbkiu	105	21	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	105	22	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	106	1	Rotenone	Rotenone	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	106	2	increased	increase	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	106	3	GM	GM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	106	4	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	106	5	induced	induce	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	106	6	superoxide	superoxide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	106	7	formation	formation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	106	8	but	but	CC
work_bcdkx2x635cq3n2rul6aysbkiu	106	9	decreased	decrease	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	106	10	GM	GM	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	106	11	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	106	12	induced	induce	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	106	13	hydrogen	hydrogen	NN
work_bcdkx2x635cq3n2rul6aysbkiu	106	14	peroxide	peroxide	NN
work_bcdkx2x635cq3n2rul6aysbkiu	106	15	formation	formation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	106	16	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	107	1	This	this	DT
work_bcdkx2x635cq3n2rul6aysbkiu	107	2	effect	effect	NN
work_bcdkx2x635cq3n2rul6aysbkiu	107	3	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	107	4	greatest	great	JJS
work_bcdkx2x635cq3n2rul6aysbkiu	107	5	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	107	6	high-	high-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	107	7	frequency	frequency	NN
work_bcdkx2x635cq3n2rul6aysbkiu	107	8	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	107	9	indicating	indicate	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	107	10	fundamental	fundamental	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	107	11	differences	difference	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	107	12	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	107	13	ROS	ros	NN
work_bcdkx2x635cq3n2rul6aysbkiu	107	14	formation	formation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	107	15	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	107	16	high-	high-	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	107	17	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	107	18	low	low	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	107	19	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	107	20	frequency	frequency	NN
work_bcdkx2x635cq3n2rul6aysbkiu	107	21	sensory	sensory	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	107	22	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	107	23	exposed	expose	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	107	24	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	107	25	ototoxic	ototoxic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	107	26	antibiotics	antibiotic	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	107	27	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	108	1	This	this	DT
work_bcdkx2x635cq3n2rul6aysbkiu	108	2	project	project	NN
work_bcdkx2x635cq3n2rul6aysbkiu	108	3	provides	provide	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	108	4	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	108	5	base	base	NN
work_bcdkx2x635cq3n2rul6aysbkiu	108	6	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	108	7	understanding	understand	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	108	8	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	108	9	underlying	underlie	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	108	10	mechanisms	mechanism	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	108	11	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	108	12	mitochondrial	mitochondrial	NN
work_bcdkx2x635cq3n2rul6aysbkiu	108	13	ROS	ros	NN
work_bcdkx2x635cq3n2rul6aysbkiu	108	14	production	production	NN
work_bcdkx2x635cq3n2rul6aysbkiu	108	15	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	108	16	cochlear	cochlear	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	108	17	cells	cell	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	108	18	during	during	IN
work_bcdkx2x635cq3n2rul6aysbkiu	108	19	exposures	exposure	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	108	20	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	108	21	ototoxic	ototoxic	VB
work_bcdkx2x635cq3n2rul6aysbkiu	108	22	antibiotics	antibiotic	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	108	23	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	109	1	Supported	support	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	109	2	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	109	3	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	109	4	National	National	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	109	5	Institute	Institute	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	109	6	on	on	IN
work_bcdkx2x635cq3n2rul6aysbkiu	109	7	Deafness	Deafness	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	109	8	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	109	9	Other	other	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	109	10	Communication	communication	NN
work_bcdkx2x635cq3n2rul6aysbkiu	109	11	Disorders	disorder	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	109	12	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	109	13	NIDCD	nidcd	RB
work_bcdkx2x635cq3n2rul6aysbkiu	109	14	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	109	15	RO3DC012109	ro3dc012109	NN
work_bcdkx2x635cq3n2rul6aysbkiu	109	16	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	109	17	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	109	18	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	109	19	COBRe	COBRe	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	109	20	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	109	21	8P20GM103471	8p20gm103471	CD
work_bcdkx2x635cq3n2rul6aysbkiu	109	22	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	109	23	09	09	CD
work_bcdkx2x635cq3n2rul6aysbkiu	109	24	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	109	25	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	109	26	HJS	HJS	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	109	27	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	109	28	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	109	29	Ferlic	Ferlic	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	109	30	Undergraduate	Undergraduate	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	109	31	Research	Research	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	109	32	Scholarship	Scholarship	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	109	33	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	109	34	DD	DD	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	109	35	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	110	1	3084-Pos	3084-Pos	NFP
work_bcdkx2x635cq3n2rul6aysbkiu	110	2	Board	Board	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	3	B514	B514	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	4	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	5	Iron	Iron	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	6	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	110	7	Sphingosine	Sphingosine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	8	Synergize	synergize	VB
work_bcdkx2x635cq3n2rul6aysbkiu	110	9	Initiation	initiation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	110	10	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	110	11	Hepatocyte	Hepatocyte	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	12	Death	Death	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	13	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	110	14	Augmenting	augment	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	110	15	Oxidative	Oxidative	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	16	Stress	Stress	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	17	Sergei	Sergei	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	18	A.	a.	NN
work_bcdkx2x635cq3n2rul6aysbkiu	110	19	Novgorodov1	Novgorodov1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	20	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	110	21	Tatyana	Tatyana	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	22	I.	I.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	23	Gudz1	Gudz1	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	110	24	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	110	25	Andaleb	Andaleb	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	26	Kholmukhamedov2	Kholmukhamedov2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	27	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	110	28	Raymond	Raymond	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	29	Deepe2	Deepe2	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	30	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	110	31	John	John	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	32	J.	J.	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	33	Lemasters3,4	Lemasters3,4	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	110	34	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	111	1	1	1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	111	2	Neurosciences	Neurosciences	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	3	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	4	Medical	Medical	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	5	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	6	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	111	7	South	South	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	8	Carolina	Carolina	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	9	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	10	Charleston	Charleston	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	11	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	12	SC	SC	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	13	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	14	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	16	2	2	CD
work_bcdkx2x635cq3n2rul6aysbkiu	111	17	Drug	Drug	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	18	Discovery	Discovery	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	19	&	&	CC
work_bcdkx2x635cq3n2rul6aysbkiu	111	20	Biomedical	Biomedical	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	21	Sciences	Sciences	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	111	22	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	23	Medical	Medical	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	24	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	25	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	111	26	South	South	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	27	Carolina	Carolina	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	28	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	29	Charleston	Charleston	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	30	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	31	SC	SC	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	32	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	33	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	34	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	35	3Biochemistry	3Biochemistry	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	36	&	&	CC
work_bcdkx2x635cq3n2rul6aysbkiu	111	37	Molecular	Molecular	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	38	Biology	Biology	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	39	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	40	Medical	Medical	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	41	University	University	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	42	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	111	43	South	South	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	44	Carolina	Carolina	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	45	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	46	Charleston	Charleston	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	47	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	48	SC	SC	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	49	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	50	USA	USA	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	51	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	52	4Institute	4institute	NN
work_bcdkx2x635cq3n2rul6aysbkiu	111	53	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	111	54	Theoretical	Theoretical	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	55	&	&	CC
work_bcdkx2x635cq3n2rul6aysbkiu	111	56	Experimentla	Experimentla	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	57	Biophysics	Biophysics	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	111	58	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	59	Pushchino	Pushchino	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	60	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	111	61	Russian	Russian	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	62	Federation	Federation	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	111	63	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	112	1	Hepatocytes	hepatocyte	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	112	2	exposed	expose	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	112	3	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	112	4	ischemia	ischemia	NN
work_bcdkx2x635cq3n2rul6aysbkiu	112	5	/	/	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	112	6	reperfusion	reperfusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	112	7	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	112	8	I	i	NN
work_bcdkx2x635cq3n2rul6aysbkiu	112	9	/	/	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	112	10	R	r	NN
work_bcdkx2x635cq3n2rul6aysbkiu	112	11	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	112	12	succumb	succumb	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	112	13	to	to	TO
work_bcdkx2x635cq3n2rul6aysbkiu	112	14	cell	cell	NN
work_bcdkx2x635cq3n2rul6aysbkiu	112	15	death	death	NN
work_bcdkx2x635cq3n2rul6aysbkiu	112	16	after	after	IN
work_bcdkx2x635cq3n2rul6aysbkiu	112	17	reperfusion	reperfusion	NN
work_bcdkx2x635cq3n2rul6aysbkiu	112	18	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	113	1	Sphingosine	sphingosine	VB
work_bcdkx2x635cq3n2rul6aysbkiu	113	2	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	113	3	ceramide	ceramide	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	113	4	profiles	profile	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	113	5	revealed	reveal	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	113	6	substantial	substantial	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	113	7	accumula-	accumula-	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	113	8	tion	tion	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	113	9	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	113	10	sphingosine	sphingosine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	113	11	after	after	IN
work_bcdkx2x635cq3n2rul6aysbkiu	113	12	4h	4h	CD
work_bcdkx2x635cq3n2rul6aysbkiu	113	13	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	113	14	ischemia	ischemia	NN
work_bcdkx2x635cq3n2rul6aysbkiu	113	15	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	113	16	rat	rat	NN
work_bcdkx2x635cq3n2rul6aysbkiu	113	17	hepatocytes	hepatocyte	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	113	18	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	113	19	whereas	whereas	IN
work_bcdkx2x635cq3n2rul6aysbkiu	113	20	other	other	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	113	21	sphin-	sphin-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	113	22	goid	goid	NN
work_bcdkx2x635cq3n2rul6aysbkiu	113	23	bases	basis	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	113	24	did	do	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	113	25	not	not	RB
work_bcdkx2x635cq3n2rul6aysbkiu	113	26	change	change	VB
work_bcdkx2x635cq3n2rul6aysbkiu	113	27	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	114	1	A	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	114	2	lysosomotropic	lysosomotropic	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	114	3	inhibitor	inhibitor	NN
work_bcdkx2x635cq3n2rul6aysbkiu	114	4	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	114	5	acid	acid	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	114	6	ceramidase	ceramidase	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	114	7	suppressed	suppress	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	114	8	I	I	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	114	9	/	/	SYM
work_bcdkx2x635cq3n2rul6aysbkiu	114	10	R	r	NN
work_bcdkx2x635cq3n2rul6aysbkiu	114	11	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	114	12	induced	induce	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	114	13	death	death	NN
work_bcdkx2x635cq3n2rul6aysbkiu	114	14	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	114	15	indicating	indicate	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	114	16	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	114	17	lysosomal	lysosomal	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	114	18	origin	origin	NN
work_bcdkx2x635cq3n2rul6aysbkiu	114	19	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	114	20	sphingosine	sphingosine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	114	21	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	115	1	Addition	addition	NN
work_bcdkx2x635cq3n2rul6aysbkiu	115	2	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	115	3	exogenous	exogenous	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	115	4	sphingosine	sphingosine	NN
work_bcdkx2x635cq3n2rul6aysbkiu	115	5	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	115	6	hepatocytes	hepatocyte	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	115	7	increased	increase	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	115	8	cell	cell	NN
work_bcdkx2x635cq3n2rul6aysbkiu	115	9	death	death	NN
work_bcdkx2x635cq3n2rul6aysbkiu	115	10	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	115	11	which	which	WDT
work_bcdkx2x635cq3n2rul6aysbkiu	115	12	was	be	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	115	13	insensitive	insensitive	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	115	14	to	to	IN
work_bcdkx2x635cq3n2rul6aysbkiu	115	15	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	115	16	ceramide	ceramide	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	115	17	synthase	synthase	NN
work_bcdkx2x635cq3n2rul6aysbkiu	115	18	inhibitor	inhibitor	NN
work_bcdkx2x635cq3n2rul6aysbkiu	115	19	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	115	20	fumonisin	fumonisin	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	115	21	B1	B1	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	115	22	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	116	1	This	this	DT
work_bcdkx2x635cq3n2rul6aysbkiu	116	2	finding	finding	NN
work_bcdkx2x635cq3n2rul6aysbkiu	116	3	indicates	indicate	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	116	4	that	that	IN
work_bcdkx2x635cq3n2rul6aysbkiu	116	5	accumulation	accumulation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	116	6	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	116	7	sphingosine	sphingosine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	116	8	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	116	9	not	not	RB
work_bcdkx2x635cq3n2rul6aysbkiu	116	10	ceramide	ceramide	VB
work_bcdkx2x635cq3n2rul6aysbkiu	116	11	formed	form	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	116	12	from	from	IN
work_bcdkx2x635cq3n2rul6aysbkiu	116	13	sphingo-	sphingo-	NN
work_bcdkx2x635cq3n2rul6aysbkiu	116	14	sine	sine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	116	15	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	116	16	promoted	promote	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	116	17	cell	cell	NN
work_bcdkx2x635cq3n2rul6aysbkiu	116	18	death	death	NN
work_bcdkx2x635cq3n2rul6aysbkiu	116	19	.	.	.
work_bcdkx2x635cq3n2rul6aysbkiu	117	1	Exogenous	exogenous	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	117	2	sphingosine	sphingosine	NN
work_bcdkx2x635cq3n2rul6aysbkiu	117	3	also	also	RB
work_bcdkx2x635cq3n2rul6aysbkiu	117	4	inhibited	inhibit	VBD
work_bcdkx2x635cq3n2rul6aysbkiu	117	5	complex	complex	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	117	6	IV	IV	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	7	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	117	8	cytochrome	cytochrome	DT
work_bcdkx2x635cq3n2rul6aysbkiu	117	9	oxidase	oxidase	NN
work_bcdkx2x635cq3n2rul6aysbkiu	117	10	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	117	11	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	117	12	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	117	13	terminal	terminal	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	117	14	component	component	NN
work_bcdkx2x635cq3n2rul6aysbkiu	117	15	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	16	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	117	17	respiratory	respiratory	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	117	18	chain	chain	NN
work_bcdkx2x635cq3n2rul6aysbkiu	117	19	,	,	,
work_bcdkx2x635cq3n2rul6aysbkiu	117	20	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	21	ER	ER	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	22	Calcium	Calcium	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	23	Release	Release	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	24	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	117	25	Tuned	tune	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	117	26	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	27	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	28	Redox	Redox	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	29	Nanodomains	Nanodomains	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	30	Reactive	Reactive	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	31	Oxygen	Oxygen	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	32	Species	Species	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	117	33	(	(	-LRB-
work_bcdkx2x635cq3n2rul6aysbkiu	117	34	ROS	ROS	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	35	)	)	-RRB-
work_bcdkx2x635cq3n2rul6aysbkiu	117	36	Suppress	Suppress	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	37	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	38	Motility	Motility	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	39	Miro1	miro1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	117	40	is	be	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	117	41	Dispensable	dispensable	JJ
work_bcdkx2x635cq3n2rul6aysbkiu	117	42	for	for	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	43	Calcium	Calcium	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	44	-	-	HYPH
work_bcdkx2x635cq3n2rul6aysbkiu	117	45	Mediated	mediate	VBN
work_bcdkx2x635cq3n2rul6aysbkiu	117	46	Inhibition	Inhibition	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	47	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	48	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	49	Movement	Movement	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	50	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	51	Fusion	Fusion	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	52	Dynamics	Dynamics	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	117	53	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	54	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	117	55	Heart	Heart	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	56	Mechanistic	Mechanistic	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	57	Characterization	Characterization	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	58	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	59	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	117	60	Thioredoxin	Thioredoxin	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	61	System	System	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	62	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	63	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	117	64	Removal	Removal	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	65	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	66	Hydrogen	Hydrogen	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	67	Peroxide	Peroxide	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	68	Higher	Higher	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	69	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	70	Membrane	Membrane	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	71	Potential	Potential	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	72	Induces	Induces	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	117	73	ROS	ros	VBP
work_bcdkx2x635cq3n2rul6aysbkiu	117	74	Production	production	NN
work_bcdkx2x635cq3n2rul6aysbkiu	117	75	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	76	the	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	117	77	Familiar	Familiar	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	78	Form	Form	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	79	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	80	Frontotemporal	Frontotemporal	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	81	Dementia	Dementia	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	82	with	with	IN
work_bcdkx2x635cq3n2rul6aysbkiu	117	83	MAPT	MAPT	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	84	Mu	Mu	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	117	85	...	...	.
work_bcdkx2x635cq3n2rul6aysbkiu	118	1	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	118	2	Overexpression	Overexpression	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	118	3	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	118	4	Superoxide	Superoxide	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	118	5	Dismutase	dismutase	NN
work_bcdkx2x635cq3n2rul6aysbkiu	118	6	1	1	CD
work_bcdkx2x635cq3n2rul6aysbkiu	118	7	Restores	restore	NNS
work_bcdkx2x635cq3n2rul6aysbkiu	118	8	Growth	Growth	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	118	9	Defect	Defect	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	118	10	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	118	11	a	a	DT
work_bcdkx2x635cq3n2rul6aysbkiu	118	12	Porin1-Less	porin1-less	NN
work_bcdkx2x635cq3n2rul6aysbkiu	118	13	Yeast	Yeast	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	118	14	Strain	Strain	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	118	15	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	118	16	Improves	improve	VBZ
work_bcdkx2x635cq3n2rul6aysbkiu	118	17	Mitochondria	Mitochondria	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	118	18	...	...	:
work_bcdkx2x635cq3n2rul6aysbkiu	119	1	The	the	DT
work_bcdkx2x635cq3n2rul6aysbkiu	119	2	Role	role	NN
work_bcdkx2x635cq3n2rul6aysbkiu	119	3	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	119	4	Complex	Complex	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	5	I	-PRON-	PRP
work_bcdkx2x635cq3n2rul6aysbkiu	119	6	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	119	7	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	8	Reactive	Reactive	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	9	Oxygen	Oxygen	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	10	Species	Species	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	119	11	Formation	Formation	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	12	in	in	IN
work_bcdkx2x635cq3n2rul6aysbkiu	119	13	Cochlear	Cochlear	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	14	Sensory	Sensory	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	15	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	119	16	Supporting	support	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	119	17	Cells	Cells	NNPS
work_bcdkx2x635cq3n2rul6aysbkiu	119	18	during	during	IN
work_bcdkx2x635cq3n2rul6aysbkiu	119	19	Ot	ot	NN
work_bcdkx2x635cq3n2rul6aysbkiu	119	20	...	...	:
work_bcdkx2x635cq3n2rul6aysbkiu	119	21	Mitochondrial	Mitochondrial	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	22	Iron	Iron	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	23	and	and	CC
work_bcdkx2x635cq3n2rul6aysbkiu	119	24	Sphingosine	Sphingosine	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	25	Synergize	synergize	VB
work_bcdkx2x635cq3n2rul6aysbkiu	119	26	Initiation	initiation	NN
work_bcdkx2x635cq3n2rul6aysbkiu	119	27	of	of	IN
work_bcdkx2x635cq3n2rul6aysbkiu	119	28	Hepatocyte	Hepatocyte	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	29	Death	Death	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	30	by	by	IN
work_bcdkx2x635cq3n2rul6aysbkiu	119	31	Augmenting	augment	VBG
work_bcdkx2x635cq3n2rul6aysbkiu	119	32	Oxidative	Oxidative	NNP
work_bcdkx2x635cq3n2rul6aysbkiu	119	33	Stress	Stress	NNP