id	sid	tid	token	lemma	pos
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	1	A	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	2	Key	Key	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	3	Gating	Gating	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	4	Charge	Charge	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	5	Interaction	Interaction	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	6	Required	require	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	7	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	8	Slow	Slow	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	9	Inactivation	Inactivation	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	10	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	11	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	12	Navab	Navab	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	13	Bacterial	Bacterial	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	14	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	15	Channel	Channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	16	136a	136a	NNPS
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	17	Sunday	Sunday	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	18	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	19	February	February	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	20	3	3	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	21	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	22	2013	2013	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	23	CORE	core	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	24	Metadata	Metadata	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	25	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	26	citation	citation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	27	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	28	similar	similar	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	29	papers	paper	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	30	at	at	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	31	core.ac.uk	core.ac.uk	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	32	Provided	provide	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	33	by	by	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	34	Elsevier	Elsevier	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	35	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	36	Publisher	Publisher	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	37	Connector	Connector	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	38	stabilized	stabilize	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	39	by	by	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	40	surrounding	surround	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	41	hydrophobic	hydrophobic	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	42	residues	residue	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	1	43	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	2	propose	propose	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	3	that	that	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	4	mutations	mutation	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	5	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	6	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	7	asparagines	asparagine	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	8	affect	affect	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	9	activation	activation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	10	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	11	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	12	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	13	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	14	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	15	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	16	drug	drug	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	17	action	action	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	18	through	through	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	19	destabilizing	destabilize	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	20	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	21	open	open	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	22	state	state	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	2	23	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	1	Diversity	diversity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	2	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	3	H	h	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	4	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	5	bonding	bond	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	6	partners	partner	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	7	explains	explain	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	8	different	different	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	9	effects	effect	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	10	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	11	mutations	mutation	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	12	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	13	individual	individual	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	14	asparagines	asparagine	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	15	on	on	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	16	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	17	channel	channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	18	activa-	activa-	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	19	tion	tion	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	20	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	21	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	22	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	23	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	24	drug	drug	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	25	sensitivity	sensitivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	3	26	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	1	Supported	support	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	2	by	by	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	3	NSERC	NSERC	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	4	grant	grant	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	5	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	6	BSZ	BSZ	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	7	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	8	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	9	RAS	RAS	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	10	program	program	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	11	‘	'	``
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	12	‘	'	``
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	13	Molecular	Molecular	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	14	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	15	Cell	Cell	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	16	Biology	Biology	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	17	’	'	''
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	18	’	'	''
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	19	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	20	DBT	DBT	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	21	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	22	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	23	CIHR	cihr	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	24	award	award	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	25	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	26	IB	IB	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	4	27	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	1	695-Pos	695-Pos	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	2	Board	Board	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	3	B464	B464	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	4	Binding	bind	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	5	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	6	Isoflurane	Isoflurane	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	7	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	8	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	9	Bacterial	Bacterial	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	10	Voltage	Voltage	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	11	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	12	Gated	Gated	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	13	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	14	Channel	Channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	15	:	:	:
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	16	Structure	structure	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	17	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	18	Accessibility	Accessibility	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	19	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	20	Distinct	Distinct	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	21	Interaction	Interaction	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	22	Sites	Sites	NNPS
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	23	Srinivasa	Srinivasa	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	24	G.	G.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	25	Raju1	Raju1	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	26	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	27	Vincenzo	Vincenzo	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	28	Carnevale1	Carnevale1	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	29	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	30	David	David	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	31	N.	N.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	32	Lebard2	Lebard2	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	33	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	34	Annika	Annika	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	35	F.	F.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	36	Barber3	Barber3	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	37	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	38	Michael	Michael	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	39	L.	L.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	40	Klein1	Klein1	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	5	41	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	1	1Temple	1Temple	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	2	University	University	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	3	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	4	Philadelphia	Philadelphia	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	5	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	6	PA	PA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	7	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	8	USA	USA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	9	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	10	2Yeshiva	2Yeshiva	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	11	University	University	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	12	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	13	New	New	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	14	York	York	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	15	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	16	NY	NY	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	17	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	18	USA	USA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	19	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	20	3	3	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	21	Thomas	Thomas	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	22	Jefferson	Jefferson	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	23	University	University	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	24	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	25	Philadelphia	Philadelphia	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	26	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	27	PA	PA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	28	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	29	USA	USA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	6	30	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	1	The	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	2	most	most	RBS
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	3	likely	likely	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	4	targets	target	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	5	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	6	volatile	volatile	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	7	anesthetics	anesthetic	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	8	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	9	VA	VA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	10	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	11	are	be	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	12	ion	ion	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	13	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	7	14	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	1	The	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	2	mechanism	mechanism	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	3	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	4	volatile	volatile	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	5	anesthetic	anesthetic	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	6	action	action	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	7	is	be	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	8	not	not	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	9	completely	completely	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	10	understood	understand	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	8	11	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	1	Identify-	Identify-	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	2	ing	e	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	3	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	4	molecular	molecular	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	5	pathway	pathway	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	6	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	7	drug	drug	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	8	binding	binding	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	9	is	be	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	10	crucial	crucial	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	11	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	12	understand	understand	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	13	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	14	effect	effect	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	15	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	16	VA	VA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	17	on	on	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	18	voltage	voltage	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	19	gated	gate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	20	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	21	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	9	22	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	2	use	use	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	3	Molecular	Molecular	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	4	Dynamics	Dynamics	NNPS
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	5	simula-	simula-	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	6	tions	tion	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	7	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	8	identify	identify	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	9	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	10	binding	bind	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	11	sites	site	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	12	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	13	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	14	hydrophobic	hydrophobic	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	15	general	general	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	16	anesthetic	anesthetic	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	17	isoflur-	isoflur-	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	18	ane	ane	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	19	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	20	on	on	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	21	voltage	voltage	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	22	gated	gate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	23	bacterial	bacterial	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	24	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	25	channel	channel	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	26	NaChBac	NaChBac	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	10	27	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	1	Apart	apart	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	2	from	from	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	3	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	4	voltage	voltage	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	5	sensing	sensing	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	6	domain	domain	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	7	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	8	S1-S4	S1-S4	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	9	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	10	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	11	linker	linker	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	12	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	13	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	14	pore	pore	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	15	domain	domain	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	16	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	17	S5-S6	s5-s6	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	18	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	19	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	20	bacterial	bacterial	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	21	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	22	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	23	also	also	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	24	have	have	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	25	fenestrations	fenestration	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	26	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	27	which	which	WDT
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	28	provide	provide	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	29	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	30	hydrophobic	hydrophobic	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	31	tunnel	tunnel	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	32	through	through	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	33	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	34	lipid	lipid	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	35	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	36	embedded	embed	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	37	portion	portion	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	38	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	39	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	40	channel	channel	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	41	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	42	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	43	central	central	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	44	cavity	cavity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	45	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	46	where	where	WRB
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	47	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	48	known	know	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	49	local	local	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	50	anesthetic	anesthetic	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	51	site	site	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	52	is	be	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	53	located	locate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	11	54	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	1	Unbiased	unbiased	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	2	‘	'	``
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	3	‘	'	``
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	4	flooding	flooding	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	5	’	'	''
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	6	’	'	''
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	7	simulations	simulation	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	8	were	be	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	9	performed	perform	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	10	on	on	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	11	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	12	activated	activate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	13	open	open	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	14	confirmation	confirmation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	15	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	16	NaChBac	NaChBac	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	12	17	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	2	per-	per-	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	3	formed	form	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	4	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	5	cluster	cluster	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	6	analysis	analysis	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	7	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	8	identify	identify	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	9	all	all	PDT
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	10	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	11	possible	possible	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	12	binding	bind	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	13	sites	site	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	14	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	15	isoflurane	isoflurane	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	13	16	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	1	The	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	2	three	three	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	3	most	most	RBS
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	4	important	important	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	5	ones	one	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	6	among	among	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	7	them	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	8	are	be	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	9	:	:	:
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	10	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	11	region	region	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	12	near	near	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	13	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	14	selectivity	selectivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	15	filter	filter	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	16	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	17	called	call	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	18	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	19	extracellular	extracellular	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	20	site	site	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	21	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	22	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	23	region	region	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	24	near	near	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	25	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	26	S4-S5	S4-S5	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	27	linker	linker	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	28	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	29	called	call	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	30	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	31	linker	linker	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	32	site	site	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	33	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	34	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	35	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	36	region	region	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	37	within	within	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	38	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	39	cavity	cavity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	40	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	41	called	call	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	42	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	43	cavity	cavity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	44	site	site	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	14	45	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	1	The	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	2	most	most	RBS
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	3	important	important	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	4	observation	observation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	5	is	be	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	6	that	that	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	7	isoflurane	isoflurane	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	8	enters	enter	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	9	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	10	central	central	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	11	cavity	cavity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	12	through	through	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	13	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	14	fenestrations	fenestration	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	15	15	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	1	Free	free	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	2	energy	energy	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	3	perturbation	perturbation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	4	method	method	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	5	was	be	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	6	employed	employ	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	7	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	8	calculate	calculate	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	9	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	10	binding	bind	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	11	affinities	affinity	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	12	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	13	isoflurane	isoflurane	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	14	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	15	each	each	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	16	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	17	these	these	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	18	sites	site	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	16	19	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	2	also	also	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	3	studied	study	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	4	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	5	interactions	interaction	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	6	between	between	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	7	isoflurane	isoflurane	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	8	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	9	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	10	amino	amino	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	11	acids	acid	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	12	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	13	these	these	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	14	three	three	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	15	binding	bind	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	16	sites	site	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	17	17	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	1	696-Pos	696-Pos	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	2	Board	Board	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	3	B465	B465	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	4	A	A	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	5	Key	Key	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	6	Gating	Gating	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	7	Charge	Charge	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	8	Interaction	Interaction	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	9	Required	require	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	10	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	11	Slow	Slow	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	12	Inactivation	Inactivation	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	13	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	14	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	15	Navab	Navab	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	16	Bacterial	Bacterial	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	17	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	18	Channel	Channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	19	Tamer	Tamer	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	20	M.	M.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	21	Gamal	Gamal	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	22	El	El	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	23	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	24	Din	Din	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	25	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	26	Todd	Todd	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	27	Scheuer	Scheuer	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	28	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	29	William	William	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	30	A.	a.	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	31	Catterall	Catterall	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	18	32	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	19	1	University	University	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	19	2	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	19	3	Washington	Washington	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	19	4	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	19	5	Seattle	Seattle	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	19	6	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	19	7	WA	WA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	19	8	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	19	9	USA	USA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	19	10	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	1	Bacterial	bacterial	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	2	voltage	voltage	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	3	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	4	gated	gate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	5	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	6	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	7	Nav	Nav	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	8	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	9	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	10	are	be	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	11	considered	consider	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	12	an	an	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	13	ideal	ideal	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	14	model	model	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	15	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	16	structure	structure	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	17	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	18	function	function	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	19	studies	study	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	20	20	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	1	The	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	2	elucidation	elucidation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	3	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	4	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	5	crystal	crystal	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	6	structure	structure	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	7	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	8	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	9	bacterial	bacterial	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	10	channel	channel	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	11	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	12	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	13	Payandeh	Payandeh	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	14	et	et	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	15	al	al	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	16	.	.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	17	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	18	Nature	Nature	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	19	486	486	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	20	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	21	135	135	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	22	-	-	SYM
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	23	139	139	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	24	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	25	2011	2011	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	26	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	27	opened	open	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	28	an	an	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	29	avenue	avenue	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	30	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	31	understand	understand	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	32	electrical	electrical	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	33	signaling	signaling	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	34	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	35	excitable	excitable	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	36	cells	cell	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	37	at	at	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	38	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	39	structural	structural	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	40	level	level	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	21	41	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	1	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	2	expressed	express	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	3	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	4	Hi5	hi5	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	5	insect	insect	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	6	cells	cell	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	7	as	as	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	8	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	9	structural	structural	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	10	studies	study	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	11	has	have	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	12	unusually	unusually	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	13	negative	negative	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	14	voltage	voltage	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	15	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	16	dependent	dependent	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	17	activation	activation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	18	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	19	Va	Va	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	20	~	~	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	21	130	130	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	22	mV	mV	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	23	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	22	24	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	1	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	2	also	also	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	3	has	have	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	4	three	three	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	5	phases	phase	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	6	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	7	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	8	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	9	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	10	biphasic	biphasic	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	11	early	early	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	12	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	13	process	process	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	14	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	15	t1~103	t1~103	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	16	ms	ms	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	17	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	18	t2~3.8	t2~3.8	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	19	s	s	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	20	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	21	at	at	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	22	�	�	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	23	180	180	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	24	mV	mv	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	25	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	26	followed	follow	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	27	by	by	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	28	an	an	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	29	unusually	unusually	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	30	strong	strong	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	31	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	32	use	use	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	33	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	34	dependent	dependent	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	35	slow	slow	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	36	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	37	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	38	process	process	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	23	39	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	1	To	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	2	search	search	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	3	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	4	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	5	molecular	molecular	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	6	basis	basis	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	7	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	8	negative	negative	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	9	activation	activation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	10	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	11	slow	slow	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	12	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	13	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	14	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	15	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	16	we	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	17	mutated	mutate	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	18	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	19	outer-	outer-	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	20	most	most	RBS
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	21	gating	gating	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	22	charge	charge	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	23	partner	partner	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	24	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	25	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	26	S2	s2	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	27	segment	segment	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	28	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	29	Asn49	Asn49	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	30	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	31	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	32	Lys	Lys	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	24	33	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	1	This	this	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	2	mutation	mutation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	3	shifted	shift	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	4	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	5	activation	activation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	6	curve	curve	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	7	~	~	NFP
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	8	75	75	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	9	mV	mv	$
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	10	toward	toward	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	11	more	more	JJR
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	12	positive	positive	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	13	potentials	potential	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	25	14	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	1	Surpris-	Surpris-	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	2	ingly	ingly	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	3	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	4	it	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	5	also	also	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	6	completely	completely	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	7	abolished	abolish	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	8	use	use	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	9	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	10	dependent	dependent	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	11	slow	slow	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	12	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	26	13	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	2	showed	show	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	3	previously	previously	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	4	that	that	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	5	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	6	equivalent	equivalent	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	7	residue	residue	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	8	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	9	NaChBac	NaChBac	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	10	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	11	Asp60	Asp60	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	12	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	13	interacts	interact	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	14	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	15	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	16	R3	r3	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	17	gating	gate	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	18	charge	charge	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	19	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	20	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	21	S4	s4	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	22	segment	segment	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	23	during	during	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	24	activation	activation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	25	using	use	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	26	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	27	disul-	disul-	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	28	fide	fide	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	29	locking	locking	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	30	method	method	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	31	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	32	DeCaen	DeCaen	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	33	et	et	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	34	al	al	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	35	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	36	PNAS	PNAS	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	37	2008	2008	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	38	105	105	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	39	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	40	39	39	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	41	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	42	15142	15142	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	43	-	-	SYM
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	44	15147	15147	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	45	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	27	46	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	1	To	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	2	test	test	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	3	whether	whether	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	4	this	this	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	5	interaction	interaction	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	6	between	between	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	7	R3	R3	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	8	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	9	N49	N49	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	10	was	be	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	11	critical	critical	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	12	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	13	slow	slow	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	14	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	15	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	16	we	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	17	mutated	mutate	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	18	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	19	R3	r3	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	20	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	21	Cys	Cys	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	28	22	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	1	The	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	2	resulting	result	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	3	mutant	mutant	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	4	NavAb_R3C	navab_r3c	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	5	also	also	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	6	had	have	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	7	positively	positively	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	8	shifted	shift	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	9	channel	channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	10	activation	activation	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	11	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	12	þ75	þ75	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	13	mV	mV	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	14	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	15	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	16	no	no	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	17	use	use	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	18	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	19	dependent	dependent	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	20	slow	slow	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	21	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	29	22	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	1	The	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	2	fact	fact	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	3	that	that	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	4	these	these	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	5	reciprocal	reciprocal	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	6	mutations	mutation	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	7	have	have	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	8	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	9	same	same	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	10	functional	functional	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	11	effects	effect	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	12	suggests	suggest	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	13	that	that	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	14	interaction	interaction	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	15	between	between	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	16	R3	r3	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	17	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	18	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	19	S4	s4	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	20	segment	segment	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	21	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	22	N49	N49	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	23	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	24	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	25	S2	s2	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	26	segment	segment	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	27	is	be	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	28	an	an	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	29	important	important	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	30	link	link	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	31	that	that	WDT
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	32	stabilizes	stabilize	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	33	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	34	activated	activated	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	35	state	state	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	36	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	37	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	38	voltage	voltage	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	39	sensor	sensor	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	40	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	41	triggers	trigger	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	42	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	43	slow	slow	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	44	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	45	process	process	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	30	46	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	1	697-Pos	697-Pos	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	2	Board	Board	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	3	B466	B466	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	4	Computational	Computational	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	5	Study	Study	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	6	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	7	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	8	Prokaryotic	Prokaryotic	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	9	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	10	Channel	Channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	11	Karen	Karen	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	12	M.	M.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	13	Callahan	Callahan	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	14	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	15	Benoit	Benoit	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	16	Roux	Roux	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	31	17	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	32	1	University	University	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	32	2	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	32	3	Chicago	Chicago	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	32	4	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	32	5	Chicago	Chicago	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	32	6	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	32	7	IL	IL	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	32	8	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	32	9	USA	USA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	32	10	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	1	Ion	ion	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	2	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	3	selective	selective	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	4	voltage	voltage	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	5	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	6	gated	gate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	7	ion	ion	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	8	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	9	allow	allow	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	10	ions	ion	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	11	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	12	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	13	specific	specific	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	14	element	element	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	15	or	or	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	16	set	set	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	17	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	18	elements	element	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	19	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	20	pass	pass	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	21	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	22	but	but	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	23	exclude	exclude	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	24	other	other	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	25	ions	ion	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	33	26	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	1	Recently	recently	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	2	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	3	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	4	crystal	crystal	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	5	structure	structure	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	6	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	7	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	8	was	be	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	9	published	publish	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	10	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	11	Payandeh	Payandeh	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	12	et	et	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	13	al	al	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	14	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	15	2011	2011	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	16	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	17	Nature	nature	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	18	475	475	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	19	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	20	353	353	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	21	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	22	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	23	giving	give	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	24	an	an	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	25	un-	un-	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	26	ambiguous	ambiguous	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	27	picture	picture	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	28	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	29	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	30	structure	structure	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	31	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	32	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	33	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	34	channel	channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	35	selectivity	selectivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	36	filter	filter	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	37	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	38	SF	SF	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	39	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	40	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	41	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	42	prokaryote	prokaryote	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	43	Arcobacter	Arcobacter	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	44	butzleri	butzleri	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	34	45	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	1	The	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	2	filter	filter	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	3	is	be	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	4	much	much	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	5	wider	wide	JJR
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	6	than	than	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	7	that	that	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	8	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	9	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	10	narrow	narrow	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	11	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	12	carbonyl	carbonyl	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	13	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	14	lined	line	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	15	potassium	potassium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	16	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	17	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	18	allowing	allow	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	19	ions	ion	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	20	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	21	penetrate	penetrate	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	22	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	23	minimal	minimal	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	24	dehydration	dehydration	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	25	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	26	multiple	multiple	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	27	pathways	pathway	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	28	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	29	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	30	even	even	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	31	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	32	pass	pass	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	33	each	each	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	34	other	other	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	35	35	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	1	Previous	previous	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	2	computational	computational	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	3	studies	study	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	4	have	have	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	5	attempted	attempt	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	6	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	7	explain	explain	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	8	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	9	selectivity	selectivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	10	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	11	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	12	claimed	claim	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	13	consensus	consensus	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	14	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	15	Corry	Corry	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	16	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	17	Thomas	Thomas	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	18	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	19	2011	2011	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	20	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	21	JACS	JACS	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	22	134	134	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	23	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	24	1840	1840	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	25	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	26	Furini	Furini	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	27	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	28	Domene	Domene	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	29	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	30	2012	2012	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	31	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	32	PLOS	PLOS	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	33	8	8	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	34	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	35	e1002476	e1002476	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	36	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	36	37	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	1	Experimental	experimental	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	2	ion	ion	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	3	selectivity	selectivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	4	determina-	determina-	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	5	tion	tion	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	6	from	from	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	7	pore	pore	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	8	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	9	only	only	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	10	constructs	construct	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	11	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	12	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	13	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	14	channel	channel	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	15	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	16	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	17	same	same	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	18	SF	SF	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	19	sequence	sequence	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	20	shows	show	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	21	stronger	strong	JJR
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	22	ion	ion	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	23	selectivity	selectivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	24	from	from	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	25	reversal	reversal	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	26	potential	potential	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	27	than	than	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	28	from	from	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	29	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	30	ratio	ratio	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	31	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	32	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	33	fluxes	flux	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	34	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	35	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	36	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	37	potassium	potassium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	38	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	39	Shaya	Shaya	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	40	et	et	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	41	al	al	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	42	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	43	2011	2011	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	44	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	45	PNAS	pnas	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	46	108	108	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	47	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	48	12313	12313	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	49	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	50	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	51	but	but	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	52	selectivity	selectivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	53	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	54	Na	Na	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	55	þ	þ	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	56	/	/	SYM
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	57	Kþ	Kþ	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	58	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	59	was	be	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	60	still	still	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	61	less	less	JJR
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	62	than	than	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	63	five	five	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	37	64	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	1	Simulations	simulation	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	2	based	base	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	3	upon	upon	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	4	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	5	closed	closed	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	6	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	7	pore	pore	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	8	crystal	crystal	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	9	structure	structure	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	10	could	could	MD
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	11	not	not	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	12	determine	determine	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	13	selectivity	selectivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	14	directly	directly	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	15	from	from	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	16	con-	con-	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	17	duction	duction	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	38	18	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	1	To	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	2	investigate	investigate	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	3	this	this	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	4	issue	issue	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	5	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	6	we	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	7	first	first	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	8	calculated	calculate	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	9	multi	multi	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	10	-	-	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	11	ion	ion	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	12	potentials	potential	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	13	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	14	mean	mean	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	15	force	force	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	16	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	17	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	18	selectivity	selectivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	19	filter	filter	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	20	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	21	pore	pore	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	22	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	23	domain	domain	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	24	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	25	only	only	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	26	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	27	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	28	an	an	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	29	ex-	ex-	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	30	tended	tended	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	31	equilibration	equilibration	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	32	period	period	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	33	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	34	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	35	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	36	replica	replica	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	37	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	38	exchange	exchange	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	39	molecular	molecular	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	40	dynamics	dynamic	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	41	scheme	scheme	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	42	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	43	which	which	WDT
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	44	allows	allow	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	45	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	46	improved	improve	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	47	sampling	sampling	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	39	48	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	2	then	then	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	3	explored	explore	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	4	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	5	non-	non-	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	6	equilibrium	equilibrium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	7	conduction	conduction	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	8	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	9	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	10	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	11	potassium	potassium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	12	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	13	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	14	presence	presence	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	15	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	16	an	an	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	17	applied	apply	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	18	electric	electric	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	19	field	field	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	20	through	through	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	21	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	22	model	model	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	23	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	24	pore	pore	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	25	truncated	truncate	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	26	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	27	mimic	mimic	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	28	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	29	conformation	conformation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	30	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	31	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	32	open	open	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	33	pore	pore	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	40	34	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	2	also	also	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	3	present	present	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	4	multi	multi	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	5	-	-	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	6	ion	ion	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	7	pmf	pmf	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	8	calculations	calculation	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	9	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	10	illustrate	illustrate	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	11	similarities	similarity	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	12	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	13	differences	difference	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	14	between	between	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	15	this	this	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	16	model	model	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	17	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	18	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	19	intact	intact	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	20	pore	pore	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	41	21	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	1	When	when	WRB
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	2	taken	take	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	3	together	together	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	4	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	5	these	these	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	6	two	two	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	7	methods	method	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	8	provide	provide	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	9	complementary	complementary	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	10	views	view	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	11	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	12	ion	ion	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	13	selectivity	selectivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	14	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	15	conduction	conduction	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	16	based	base	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	17	upon	upon	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	18	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	19	conformation	conformation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	20	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	21	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	22	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	23	crystal	crystal	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	24	structure	structure	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	25	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	26	Payandeh	Payandeh	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	27	et	et	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	28	al	al	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	29	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	30	2011	2011	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	31	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	42	32	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	1	698-Pos	698-Pos	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	2	Board	Board	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	3	B467	B467	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	4	Volatile	Volatile	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	5	General	General	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	6	Anesthetic	Anesthetic	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	7	Interactions	Interactions	NNPS
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	8	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	9	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	10	Bacterial	Bacterial	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	11	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	12	Channel	Channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	13	Annika	Annika	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	14	F.	F.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	15	Barber1	Barber1	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	16	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	17	Srinivas	Srinivas	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	18	G.	G.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	19	Raju2	Raju2	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	20	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	21	David	David	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	22	Lebard2	Lebard2	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	23	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	24	Vincenzo	Vincenzo	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	25	Carnevale2	Carnevale2	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	26	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	27	Michael	Michael	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	28	L.	L.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	29	Klein2	Klein2	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	30	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	31	Manuel	Manuel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	32	Covarrubias1	Covarrubias1	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	43	33	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	1	1	1	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	2	Thomas	Thomas	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	3	Jefferson	Jefferson	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	4	University	University	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	5	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	6	Philadelphia	Philadelphia	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	7	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	8	PA	PA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	9	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	10	USA	USA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	11	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	12	2	2	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	13	Temple	Temple	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	14	University	University	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	15	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	16	Philadelphia	Philadelphia	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	17	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	18	PA	PA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	19	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	20	USA	USA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	44	21	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	1	General	General	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	2	anesthesia	anesthesia	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	3	results	result	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	4	from	from	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	5	complex	complex	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	6	interactions	interaction	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	7	involving	involve	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	8	ion	ion	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	9	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	10	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	11	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	12	brain	brain	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	45	13	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	1	Voltage	voltage	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	2	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	3	gated	gate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	4	ion	ion	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	5	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	6	are	be	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	7	modulated	modulate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	8	by	by	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	9	halogenated	halogenate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	10	inhaled	inhale	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	11	general	general	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	12	anesthetics	anesthetic	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	13	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	14	however	however	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	15	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	16	drug	drug	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	17	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	18	channel	channel	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	19	interactions	interaction	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	20	are	be	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	21	generally	generally	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	22	believed	believe	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	23	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	24	be	be	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	25	non	non	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	26	-	-	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	27	specific	specific	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	28	making	make	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	29	it	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	30	difficult	difficult	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	31	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	32	investigate	investigate	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	33	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	34	molecular	molecular	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	35	mechanisms	mechanism	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	36	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	37	anesthetic	anesthetic	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	38	action	action	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	46	39	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	2	find	find	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	3	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	4	however	however	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	5	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	6	that	that	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	7	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	8	bacterial	bacterial	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	9	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	10	channel	channel	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	11	NaChBac	NaChBac	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	12	exhibits	exhibit	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	13	differential	differential	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	14	regulation	regulation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	15	by	by	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	16	different	different	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	17	general	general	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	18	anes-	anes-	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	19	thetics	thetics	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	20	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	21	suggesting	suggest	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	22	that	that	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	23	there	there	EX
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	24	may	may	MD
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	25	be	be	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	26	specific	specific	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	27	interactions	interaction	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	47	28	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	1	Molecular	molecular	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	2	dynamics	dynamic	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	3	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	4	MD	MD	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	5	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	6	simulations	simulation	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	7	have	have	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	8	identified	identify	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	9	several	several	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	10	possible	possible	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	11	binding	bind	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	12	sites	site	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	13	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	14	isoflurane	isoflurane	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	15	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	16	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	17	NaChBac	NaChBac	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	18	channel	channel	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	19	structure	structure	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	48	20	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	1	Here	here	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	2	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	3	we	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	4	have	have	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	5	characterized	characterize	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	6	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	7	affinity	affinity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	8	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	9	occu-	occu-	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	10	pancy	pancy	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	11	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	12	hydrogen	hydrogen	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	13	bonding	bonding	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	14	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	15	these	these	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	16	sites	site	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	17	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	18	identified	identify	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	19	key	key	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	20	interactions	interaction	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	49	21	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	1	In	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	2	addition	addition	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	3	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	4	experimental	experimental	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	5	evidence	evidence	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	6	suggests	suggest	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	7	that	that	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	8	both	both	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	9	isoflurane	isoflurane	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	10	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	11	sevoflurane	sevoflurane	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	12	have	have	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	13	dual	dual	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	14	actions	action	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	15	on	on	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	16	NaChBac	NaChBac	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	17	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	18	possibly	possibly	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	19	involving	involve	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	20	action	action	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	21	at	at	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	22	two	two	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	23	different	different	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	24	sites	site	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	50	25	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	1	Consistent	consistent	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	2	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	3	pore	pore	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	4	block	block	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	5	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	6	sevoflurane	sevoflurane	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	7	accelerates	accelerate	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	8	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	9	decay	decay	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	10	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	11	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	12	current	current	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	13	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	14	20	20	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	15	%	%	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	16	faster	fast	JJR
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	17	at	at	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	18	0.4	0.4	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	19	mM	mM	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	20	sevoflurane	sevoflurane	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	21	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	22	but	but	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	23	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	24	at	at	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	25	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	26	same	same	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	27	time	time	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	28	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	29	increases	increase	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	30	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	31	peak	peak	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	32	current	current	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	33	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	34	10	10	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	35	%	%	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	36	increase	increase	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	37	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	38	0.4	0.4	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	39	mM	mm	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	40	sevoflurane	sevoflurane	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	41	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	42	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	43	which	which	WDT
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	44	argues	argue	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	45	against	against	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	46	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	47	blocking	blocking	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	48	mechanism	mechanism	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	51	49	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	2	hypothesize	hypothesize	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	3	that	that	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	4	an	an	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	5	additional	additional	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	6	mechanism	mechanism	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	7	involving	involve	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	8	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	9	distinct	distinct	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	10	site	site	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	11	is	be	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	12	necessary	necessary	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	13	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	14	explain	explain	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	15	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	16	latter	latter	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	17	effect	effect	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	52	18	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	2	are	be	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	3	currently	currently	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	4	employ-	employ-	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	5	ing	ing	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	6	MD	MD	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	7	simulation	simulation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	8	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	9	structural	structural	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	10	modeling	modeling	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	11	combined	combine	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	12	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	13	mutagenesis	mutagenesis	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	14	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	15	electrophysiology	electrophysiology	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	16	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	17	test	test	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	18	this	this	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	19	two	two	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	20	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	21	site	site	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	22	hypothesis	hypothesis	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	23	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	24	investigate	investigate	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	25	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	26	molecular	molecular	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	27	mechanisms	mechanism	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	28	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	29	these	these	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	30	opposing	oppose	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	31	effects	effect	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	53	32	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	1	Supported	support	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	2	by	by	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	3	NINDS	NINDS	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	4	F31	F31	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	5	NS077689	NS077689	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	6	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	7	AFB	AFB	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	8	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	9	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	10	NIGMS	NIGMS	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	11	P01	P01	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	12	GM0558	gm0558	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	13	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	14	MLK	MLK	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	15	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	54	16	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	1	699-Pos	699-Pos	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	2	Board	Board	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	3	B468	B468	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	4	Polymodal	Polymodal	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	5	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	6	High	High	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	7	Affinity	Affinity	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	8	Actions	Actions	NNPS
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	9	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	10	m	m	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	11	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	12	Conotoxins	Conotoxins	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	13	on	on	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	14	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	15	Bacterial	Bacterial	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	16	Voltage-	Voltage-	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	17	Gated	Gated	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	18	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	19	Channel	Channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	20	Rocio	Rocio	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	21	K.	K.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	22	Finol	Finol	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	23	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	24	Urdaneta1	Urdaneta1	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	25	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	26	Robert	Robert	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	27	Glavica1	Glavica1	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	28	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	29	Jeff	Jeff	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	30	R.	R.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	31	McArthur2	McArthur2	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	32	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	33	Robert	Robert	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	34	J.	J.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	35	French1	French1	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	55	36	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	1	1University	1university	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	2	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	3	Calgary	Calgary	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	4	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	5	Calgary	Calgary	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	6	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	7	AB	AB	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	8	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	9	Canada	Canada	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	10	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	11	2RMIT	2rmit	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	12	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	13	Melbourne	Melbourne	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	14	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	15	Australia	Australia	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	56	16	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	1	m	m	LS
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	2	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	3	Conotoxins	Conotoxins	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	4	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	5	mCTXs	mctxs	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	6	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	7	are	be	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	8	potent	potent	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	9	blockers	blocker	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	10	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	11	eukaryotic	eukaryotic	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	12	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	13	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	14	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	15	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	16	individual	individual	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	17	members	member	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	18	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	19	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	20	mCTX	mctx	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	21	family	family	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	22	are	be	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	23	highly	highly	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	24	specific	specific	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	25	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	26	particular	particular	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	27	Nav1	Nav1	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	28	isoforms	isoform	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	57	29	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	1	We	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	2	have	have	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	3	begun	begin	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	4	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	5	explore	explore	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	6	mCTX	mctx	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	7	interactions	interaction	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	8	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	9	NaChBac	NaChBac	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	10	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	11	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	12	pro-	pro-	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	13	karyotic	karyotic	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	14	Nav	Nav	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	15	channel	channel	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	16	closely	closely	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	17	related	relate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	18	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	19	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	20	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	21	whose	whose	WP$
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	22	crystal	crystal	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	23	structure	structure	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	24	was	be	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	25	re-	re-	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	26	cently	cently	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	27	determined	determine	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	28	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	29	Payandeh	Payandeh	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	30	et	et	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	31	al	al	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	32	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	33	2011	2011	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	34	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	35	Nature	Nature	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	36	475:353	475:353	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	37	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	58	38	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	1	Our	-PRON-	PRP$
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	2	data	datum	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	3	reveal	reveal	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	4	actions	action	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	5	on	on	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	6	both	both	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	7	ion	ion	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	8	conduction	conduction	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	9	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	10	gating	gate	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	11	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	12	consistent	consistent	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	13	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	14	polymodal	polymodal	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	15	actions	action	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	16	on	on	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	17	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	18	pore	pore	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	19	domain	domain	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	59	20	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	1	Under	under	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	2	voltage	voltage	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	3	clamp	clamp	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	4	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	5	whole	whole	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	6	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	7	cell	cell	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	8	currents	current	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	9	from	from	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	10	NaChBac	NaChBac	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	11	expressed	express	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	12	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	13	tsA-201	tsa-201	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	14	cells	cell	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	15	were	be	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	16	reduced	reduce	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	17	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	18	up	up	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	19	to	to	TO
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	20	nearly	nearly	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	21	complete	complete	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	22	block	block	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	23	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	24	by	by	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	25	concentrations	concentration	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	26	in	in	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	27	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	28	pM	pm	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	29	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	30	mM	mm	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	31	range	range	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	32	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	33	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	34	wildtype	wildtype	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	35	toxins	toxin	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	36	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	37	derivatives	derivative	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	38	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	39	mCTX	mctx	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	40	PIIIA	PIIIA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	41	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	42	KIIIA	KIIIA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	60	43	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	1	For	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	2	wildtype	wildtype	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	3	PIIIA	PIIIA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	4	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	5	dose	dose	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	6	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	7	response	response	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	8	data	datum	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	9	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	10	0.001	0.001	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	11	-	-	SYM
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	12	10,000nM	10,000nm	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	13	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	14	yielded	yield	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	15	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	16	following	follow	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	17	:	:	:
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	18	IC50=0.005nM	IC50=0.005nM	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	19	;	;	:
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	20	maximal	maximal	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	21	fraction	fraction	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	22	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	23	current	current	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	24	blocked	block	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	25	=	=	SYM
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	26	0.95	0.95	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	27	;	;	:
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	28	Hill	Hill	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	29	coefficient	coefficient	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	30	=	=	SYM
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	31	0.7	0.7	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	61	32	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	62	1	Chen	Chen	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	62	2	&	&	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	62	3	Chung	Chung	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	62	4	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	62	5	2012	2012	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	62	6	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	62	7	Biophys	Biophys	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	62	8	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	63	1	J.	J.	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	1	102:483	102:483	LS
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	2	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	3	predicted	predict	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	4	an	an	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	5	IC50	IC50	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	6	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	7	0.1nM	0.1nm	ADD
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	8	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	9	PIIIA	PIIIA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	10	when	when	WRB
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	11	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	12	NavAb	NavAb	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	13	channel	channel	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	14	is	be	VBZ
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	15	occupied	occupy	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	16	by	by	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	17	2	2	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	18	sodium	sodium	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	19	ions	ion	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	64	20	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	1	Even	even	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	2	at	at	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	3	very	very	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	4	low	low	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	5	[	[	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	6	PIIIA	PIIIA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	7	]	]	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	8	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	9	1pM	1pm	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	10	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	11	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	12	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	13	unblocked	unblocked	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	14	currents	current	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	15	showed	show	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	16	increasing	increase	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	17	rates	rate	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	18	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	19	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	20	as	as	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	21	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	22	peptides	peptide	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	23	were	be	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	24	washed	wash	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	25	in	in	RP
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	26	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	27	suggesting	suggest	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	28	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	29	gating	gate	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	30	mod-	mod-	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	31	ulation	ulation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	32	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	33	that	that	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	34	was	be	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	35	not	not	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	36	tightly	tightly	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	37	associated	associate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	38	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	39	pore	pore	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	40	block	block	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	65	41	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	1	For	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	2	mCTX	mctx	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	3	PIIIA	PIIIA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	4	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	5	0.1nM	0.1nm	ADD
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	6	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	7	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	8	or	or	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	9	KIIIA	KIIIA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	10	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	11	30nM	30nm	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	12	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	13	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	14	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	15	accelerated	accelerate	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	16	by	by	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	17	~10-fold	~10-fold	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	66	18	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	1	Substitution	substitution	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	2	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	3	key	key	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	4	basic	basic	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	5	residues	residue	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	6	(	(	-LRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	7	PIIIA	PIIIA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	8	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	9	R14A	R14A	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	10	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	11	KIIIA	KIIIA	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	12	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	13	K7A	K7A	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	14	)	)	-RRB-
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	15	reduced	reduce	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	16	blocking	block	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	17	potency	potency	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	18	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	19	decreased	decrease	VBD
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	20	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	21	speeding	speeding	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	22	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	23	inactivation	inactivation	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	24	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	25	less	less	JJR
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	26	than	than	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	27	2-fold	2-fold	CD
work_ptfyrurjzvd7nit6kqbpsr2ab4	67	28	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	1	Given	give	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	2	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	3	remarkably	remarkably	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	4	high	high	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	5	selectivity	selectivity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	6	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	7	affinity	affinity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	8	that	that	WDT
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	9	mCTXs	mctx	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	10	show	show	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	11	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	12	certain	certain	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	13	eukaryotic	eukaryotic	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	14	Nav	Nav	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	15	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	16	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	17	highly	highly	RB
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	18	asymmetric	asymmetric	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	19	pores	pore	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	20	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	21	it	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	22	may	may	MD
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	23	seem	seem	VB
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	24	surprising	surprising	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	25	that	that	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	26	they	-PRON-	PRP
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	27	bind	bind	VBP
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	28	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	29	symmetric	symmetric	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	30	bacterial	bacterial	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	31	Nav	Nav	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	32	channels	channel	NNS
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	33	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	34	such	such	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	35	high	high	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	36	affinity	affinity	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	68	37	.	.	.
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	1	https://core.ac.uk/display/81137954?utm_source=pdf&utm_medium=banner&utm_campaign=pdf-decoration-v1	https://core.ac.uk/display/81137954?utm_source=pdf&utm_medium=banner&utm_campaign=pdf-decoration-v1	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	2	Binding	bind	VBG
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	3	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	4	Isoflurane	Isoflurane	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	5	to	to	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	6	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	7	Bacterial	Bacterial	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	8	Voltage	Voltage	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	9	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	10	Gated	Gated	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	11	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	12	Channel	Channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	13	:	:	:
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	14	Structure	structure	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	15	and	and	CC
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	16	Accessibility	Accessibility	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	17	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	18	Distinct	Distinct	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	19	Interaction	Interaction	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	20	Sites	Sites	NNPS
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	21	A	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	22	Key	key	JJ
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	23	Gating	Gating	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	24	Charge	Charge	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	25	Interaction	Interaction	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	26	Required	require	VBN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	27	for	for	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	28	Slow	Slow	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	29	Inactivation	Inactivation	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	30	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	31	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	32	Navab	Navab	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	33	Bacterial	Bacterial	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	34	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	35	Channel	Channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	36	Computational	Computational	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	37	Study	Study	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	38	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	39	the	the	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	40	Prokaryotic	Prokaryotic	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	41	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	42	Channel	Channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	43	Volatile	Volatile	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	44	General	General	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	45	Anesthetic	Anesthetic	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	46	Interactions	Interactions	NNPS
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	47	with	with	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	48	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	49	Bacterial	Bacterial	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	50	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	51	Channel	Channel	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	52	Polymodal	Polymodal	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	53	,	,	,
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	54	High	High	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	55	Affinity	Affinity	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	56	Actions	Actions	NNPS
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	57	of	of	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	58	μ	μ	NN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	59	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	60	Conotoxins	Conotoxins	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	61	on	on	IN
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	62	a	a	DT
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	63	Bacterial	Bacterial	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	64	Voltage	Voltage	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	65	-	-	HYPH
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	66	Gated	Gated	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	67	Sodium	Sodium	NNP
work_ptfyrurjzvd7nit6kqbpsr2ab4	69	68	Channel	Channel	NNP