id	sid	tid	token	lemma	pos
work_r3pghfglovc7bfij3ji2caiioy	1	1	Small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	1	2	Open	open	JJ
work_r3pghfglovc7bfij3ji2caiioy	1	3	Reading	reading	NN
work_r3pghfglovc7bfij3ji2caiioy	1	4	Frames	frame	NNS
work_r3pghfglovc7bfij3ji2caiioy	1	5	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	1	6	Beautiful	beautiful	JJ
work_r3pghfglovc7bfij3ji2caiioy	1	7	Needles	Needles	NNPS
work_r3pghfglovc7bfij3ji2caiioy	1	8	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	1	9	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	1	10	Haystack	Haystack	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	11	Munira	Munira	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	12	A.	A.	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	13	Basrai	Basrai	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	14	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	1	15	Philip	Philip	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	16	Hieter	Hieter	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	17	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	1	18	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	1	19	Jef	Jef	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	20	D.	D.	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	21	Boeke	Boeke	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	22	Department	Department	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	23	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	1	24	Molecular	Molecular	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	25	Biology	Biology	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	26	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	1	27	Genetics	Genetics	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	28	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	1	29	Johns	Johns	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	30	Hopkins	Hopkins	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	31	University	University	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	32	School	School	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	33	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	1	34	Medicine	Medicine	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	35	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	1	36	Baltimore	Baltimore	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	37	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	1	38	Maryland	Maryland	NNP
work_r3pghfglovc7bfij3ji2caiioy	1	39	21205	21205	CD
work_r3pghfglovc7bfij3ji2caiioy	1	40	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	2	1	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	3	1	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	4	1	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	4	2	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	4	3	time	time	NN
work_r3pghfglovc7bfij3ji2caiioy	4	4	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	4	5	all	all	DT
work_r3pghfglovc7bfij3ji2caiioy	4	6	things	thing	NNS
work_r3pghfglovc7bfij3ji2caiioy	4	7	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	4	8	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	4	9	time	time	NN
work_r3pghfglovc7bfij3ji2caiioy	4	10	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	4	11	great	great	JJ
work_r3pghfglovc7bfij3ji2caiioy	4	12	things	thing	NNS
work_r3pghfglovc7bfij3ji2caiioy	4	13	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	4	14	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	4	15	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	4	16	time	time	NN
work_r3pghfglovc7bfij3ji2caiioy	4	17	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	4	18	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	4	19	things	thing	NNS
work_r3pghfglovc7bfij3ji2caiioy	4	20	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	5	1	Miguel	Miguel	NNP
work_r3pghfglovc7bfij3ji2caiioy	5	2	de	de	FW
work_r3pghfglovc7bfij3ji2caiioy	5	3	Cervantes	Cervantes	NNP
work_r3pghfglovc7bfij3ji2caiioy	5	4	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	5	5	1547–1616	1547–1616	LS
work_r3pghfglovc7bfij3ji2caiioy	5	6	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	5	7	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	5	8	completion	completion	NN
work_r3pghfglovc7bfij3ji2caiioy	5	9	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	5	10	genome	genome	JJ
work_r3pghfglovc7bfij3ji2caiioy	5	11	sequences	sequence	NNS
work_r3pghfglovc7bfij3ji2caiioy	5	12	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	5	13	model	model	NN
work_r3pghfglovc7bfij3ji2caiioy	5	14	organisms	organism	NNS
work_r3pghfglovc7bfij3ji2caiioy	5	15	creates	create	VBZ
work_r3pghfglovc7bfij3ji2caiioy	5	16	new	new	JJ
work_r3pghfglovc7bfij3ji2caiioy	5	17	op-	op-	JJ
work_r3pghfglovc7bfij3ji2caiioy	5	18	portunities	portunitie	NNS
work_r3pghfglovc7bfij3ji2caiioy	5	19	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	5	20	resources	resource	NNS
work_r3pghfglovc7bfij3ji2caiioy	5	21	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	5	22	both	both	CC
work_r3pghfglovc7bfij3ji2caiioy	5	23	basic	basic	JJ
work_r3pghfglovc7bfij3ji2caiioy	5	24	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	5	25	applied	applied	JJ
work_r3pghfglovc7bfij3ji2caiioy	5	26	research	research	NN
work_r3pghfglovc7bfij3ji2caiioy	5	27	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	6	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	6	2	genome	genome	NN
work_r3pghfglovc7bfij3ji2caiioy	6	3	se-	se-	NN
work_r3pghfglovc7bfij3ji2caiioy	6	4	quence	quence	NN
work_r3pghfglovc7bfij3ji2caiioy	6	5	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	6	6	several	several	JJ
work_r3pghfglovc7bfij3ji2caiioy	6	7	bacterial	bacterial	JJ
work_r3pghfglovc7bfij3ji2caiioy	6	8	genomes	genome	NNS
work_r3pghfglovc7bfij3ji2caiioy	6	9	as	as	RB
work_r3pghfglovc7bfij3ji2caiioy	6	10	well	well	RB
work_r3pghfglovc7bfij3ji2caiioy	6	11	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	6	12	Saccharomyces	saccharomyce	NNS
work_r3pghfglovc7bfij3ji2caiioy	6	13	cerevisiae	cerevisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	6	14	represent	represent	VBP
work_r3pghfglovc7bfij3ji2caiioy	6	15	landmark	landmark	NN
work_r3pghfglovc7bfij3ji2caiioy	6	16	achievements	achievement	NNS
work_r3pghfglovc7bfij3ji2caiioy	6	17	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	6	18	Goffeau	Goffeau	NNP
work_r3pghfglovc7bfij3ji2caiioy	6	19	et	et	FW
work_r3pghfglovc7bfij3ji2caiioy	6	20	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	6	21	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	7	1	1996	1996	CD
work_r3pghfglovc7bfij3ji2caiioy	7	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	7	3	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	7	4	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	7	5	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	8	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	8	2	total	total	JJ
work_r3pghfglovc7bfij3ji2caiioy	8	3	genome	genome	JJ
work_r3pghfglovc7bfij3ji2caiioy	8	4	sequence	sequence	NN
work_r3pghfglovc7bfij3ji2caiioy	8	5	era	era	NN
work_r3pghfglovc7bfij3ji2caiioy	8	6	offers	offer	VBZ
work_r3pghfglovc7bfij3ji2caiioy	8	7	many	many	JJ
work_r3pghfglovc7bfij3ji2caiioy	8	8	opportunities	opportunity	NNS
work_r3pghfglovc7bfij3ji2caiioy	8	9	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	8	10	explore	explore	VB
work_r3pghfglovc7bfij3ji2caiioy	8	11	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	8	12	wealth	wealth	NN
work_r3pghfglovc7bfij3ji2caiioy	8	13	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	8	14	information	information	NN
work_r3pghfglovc7bfij3ji2caiioy	8	15	contained	contain	VBN
work_r3pghfglovc7bfij3ji2caiioy	8	16	within	within	IN
work_r3pghfglovc7bfij3ji2caiioy	8	17	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	8	18	genome	genome	NN
work_r3pghfglovc7bfij3ji2caiioy	8	19	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	8	20	but	but	CC
work_r3pghfglovc7bfij3ji2caiioy	8	21	it	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	8	22	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	8	23	also	also	RB
work_r3pghfglovc7bfij3ji2caiioy	8	24	one	one	CD
work_r3pghfglovc7bfij3ji2caiioy	8	25	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	8	26	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	8	27	most	most	RBS
work_r3pghfglovc7bfij3ji2caiioy	8	28	challenging	challenging	JJ
work_r3pghfglovc7bfij3ji2caiioy	8	29	phases	phase	NNS
work_r3pghfglovc7bfij3ji2caiioy	8	30	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	8	31	researchers	researcher	NNS
work_r3pghfglovc7bfij3ji2caiioy	8	32	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	8	33	emphasizes	emphasize	VBZ
work_r3pghfglovc7bfij3ji2caiioy	8	34	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	8	35	need	need	NN
work_r3pghfglovc7bfij3ji2caiioy	8	36	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	8	37	global	global	JJ
work_r3pghfglovc7bfij3ji2caiioy	8	38	ap-	ap-	NN
work_r3pghfglovc7bfij3ji2caiioy	8	39	proaches	proache	NNS
work_r3pghfglovc7bfij3ji2caiioy	8	40	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	8	41	study	study	VB
work_r3pghfglovc7bfij3ji2caiioy	8	42	biological	biological	JJ
work_r3pghfglovc7bfij3ji2caiioy	8	43	problems	problem	NNS
work_r3pghfglovc7bfij3ji2caiioy	8	44	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	9	1	One	one	CD
work_r3pghfglovc7bfij3ji2caiioy	9	2	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	9	3	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	9	4	challenges	challenge	NNS
work_r3pghfglovc7bfij3ji2caiioy	9	5	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	9	6	identifying	identify	VBG
work_r3pghfglovc7bfij3ji2caiioy	9	7	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	9	8	defining	define	VBG
work_r3pghfglovc7bfij3ji2caiioy	9	9	very	very	RB
work_r3pghfglovc7bfij3ji2caiioy	9	10	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	9	11	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	9	12	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	9	13	coding	code	VBG
work_r3pghfglovc7bfij3ji2caiioy	9	14	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	9	15	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	9	16	which	which	WDT
work_r3pghfglovc7bfij3ji2caiioy	9	17	can	can	MD
work_r3pghfglovc7bfij3ji2caiioy	9	18	easily	easily	RB
work_r3pghfglovc7bfij3ji2caiioy	9	19	escape	escape	VB
work_r3pghfglovc7bfij3ji2caiioy	9	20	detection	detection	NN
work_r3pghfglovc7bfij3ji2caiioy	9	21	because	because	IN
work_r3pghfglovc7bfij3ji2caiioy	9	22	they	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	9	23	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	9	24	‘	'	``
work_r3pghfglovc7bfij3ji2caiioy	9	25	‘	'	``
work_r3pghfglovc7bfij3ji2caiioy	9	26	buried	bury	VBN
work_r3pghfglovc7bfij3ji2caiioy	9	27	’	'	''
work_r3pghfglovc7bfij3ji2caiioy	9	28	’	'	''
work_r3pghfglovc7bfij3ji2caiioy	9	29	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	9	30	an	an	DT
work_r3pghfglovc7bfij3ji2caiioy	9	31	enor-	enor-	JJ
work_r3pghfglovc7bfij3ji2caiioy	9	32	mous	mous	JJ
work_r3pghfglovc7bfij3ji2caiioy	9	33	pile	pile	NN
work_r3pghfglovc7bfij3ji2caiioy	9	34	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	9	35	meaningless	meaningless	JJ
work_r3pghfglovc7bfij3ji2caiioy	9	36	short	short	JJ
work_r3pghfglovc7bfij3ji2caiioy	9	37	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	9	38	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	10	1	Yet	yet	RB
work_r3pghfglovc7bfij3ji2caiioy	10	2	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	10	3	subset	subset	NN
work_r3pghfglovc7bfij3ji2caiioy	10	4	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	10	5	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	10	6	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	10	7	functional	functional	JJ
work_r3pghfglovc7bfij3ji2caiioy	10	8	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	10	9	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	10	10	here	here	RB
work_r3pghfglovc7bfij3ji2caiioy	10	11	abbreviated	abbreviate	VBN
work_r3pghfglovc7bfij3ji2caiioy	10	12	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	10	13	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	10	14	probably	probably	RB
work_r3pghfglovc7bfij3ji2caiioy	10	15	en-	en-	VBP
work_r3pghfglovc7bfij3ji2caiioy	10	16	code	code	NN
work_r3pghfglovc7bfij3ji2caiioy	10	17	very	very	RB
work_r3pghfglovc7bfij3ji2caiioy	10	18	interesting	interesting	JJ
work_r3pghfglovc7bfij3ji2caiioy	10	19	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	10	20	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	10	21	all	all	DT
work_r3pghfglovc7bfij3ji2caiioy	10	22	or-	or-	NN
work_r3pghfglovc7bfij3ji2caiioy	10	23	ganisms	ganism	NNS
work_r3pghfglovc7bfij3ji2caiioy	10	24	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	10	25	including	include	VBG
work_r3pghfglovc7bfij3ji2caiioy	10	26	humans	human	NNS
work_r3pghfglovc7bfij3ji2caiioy	10	27	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	11	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	11	2	Difficulties	difficulty	NNS
work_r3pghfglovc7bfij3ji2caiioy	11	3	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	11	4	Defining	define	VBG
work_r3pghfglovc7bfij3ji2caiioy	11	5	Meaningful	Meaningful	NNP
work_r3pghfglovc7bfij3ji2caiioy	11	6	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	11	7	All	all	DT
work_r3pghfglovc7bfij3ji2caiioy	11	8	long	long	JJ
work_r3pghfglovc7bfij3ji2caiioy	11	9	DNA	dna	NN
work_r3pghfglovc7bfij3ji2caiioy	11	10	sequences	sequence	NNS
work_r3pghfglovc7bfij3ji2caiioy	11	11	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	11	12	including	include	VBG
work_r3pghfglovc7bfij3ji2caiioy	11	13	random	random	JJ
work_r3pghfglovc7bfij3ji2caiioy	11	14	ones	one	NNS
work_r3pghfglovc7bfij3ji2caiioy	11	15	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	11	16	contain	contain	VBP
work_r3pghfglovc7bfij3ji2caiioy	11	17	many	many	JJ
work_r3pghfglovc7bfij3ji2caiioy	11	18	open	open	JJ
work_r3pghfglovc7bfij3ji2caiioy	11	19	read-	read-	NN
work_r3pghfglovc7bfij3ji2caiioy	11	20	ing	ing	NN
work_r3pghfglovc7bfij3ji2caiioy	11	21	frames	frame	NNS
work_r3pghfglovc7bfij3ji2caiioy	11	22	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	11	23	ORFs)1	ORFs)1	NNP
work_r3pghfglovc7bfij3ji2caiioy	11	24	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	11	25	1–99	1–99	NNP
work_r3pghfglovc7bfij3ji2caiioy	11	26	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	11	27	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	11	28	length	length	NN
work_r3pghfglovc7bfij3ji2caiioy	11	29	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	11	30	biological	biological	JJ
work_r3pghfglovc7bfij3ji2caiioy	11	31	sequences	sequence	NNS
work_r3pghfglovc7bfij3ji2caiioy	11	32	also	also	RB
work_r3pghfglovc7bfij3ji2caiioy	11	33	con-	con-	VBP
work_r3pghfglovc7bfij3ji2caiioy	11	34	tain	tain	VB
work_r3pghfglovc7bfij3ji2caiioy	11	35	many	many	JJ
work_r3pghfglovc7bfij3ji2caiioy	11	36	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	11	37	>	>	NFP
work_r3pghfglovc7bfij3ji2caiioy	11	38	99	99	CD
work_r3pghfglovc7bfij3ji2caiioy	11	39	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	11	40	long	long	RB
work_r3pghfglovc7bfij3ji2caiioy	11	41	that	that	WDT
work_r3pghfglovc7bfij3ji2caiioy	11	42	correspond	correspond	VBP
work_r3pghfglovc7bfij3ji2caiioy	11	43	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	11	44	real	real	JJ
work_r3pghfglovc7bfij3ji2caiioy	11	45	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	11	46	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	11	47	coding	code	VBG
work_r3pghfglovc7bfij3ji2caiioy	11	48	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	11	49	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	12	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	12	2	‘	'	``
work_r3pghfglovc7bfij3ji2caiioy	12	3	‘	'	``
work_r3pghfglovc7bfij3ji2caiioy	12	4	gray	gray	JJ
work_r3pghfglovc7bfij3ji2caiioy	12	5	area	area	NN
work_r3pghfglovc7bfij3ji2caiioy	12	6	’	'	''
work_r3pghfglovc7bfij3ji2caiioy	12	7	’	'	''
work_r3pghfglovc7bfij3ji2caiioy	12	8	surrounding	surround	VBG
work_r3pghfglovc7bfij3ji2caiioy	12	9	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	12	10	ad	ad	FW
work_r3pghfglovc7bfij3ji2caiioy	12	11	hoc	hoc	FW
work_r3pghfglovc7bfij3ji2caiioy	12	12	100-codon	100-codon	CD
work_r3pghfglovc7bfij3ji2caiioy	12	13	boundary	boundary	JJ
work_r3pghfglovc7bfij3ji2caiioy	12	14	presents	present	NNS
work_r3pghfglovc7bfij3ji2caiioy	12	15	two	two	CD
work_r3pghfglovc7bfij3ji2caiioy	12	16	spe-	spe-	NN
work_r3pghfglovc7bfij3ji2caiioy	12	17	cial	cial	JJ
work_r3pghfglovc7bfij3ji2caiioy	12	18	problems	problem	NNS
work_r3pghfglovc7bfij3ji2caiioy	12	19	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	12	20	biologists	biologist	NNS
work_r3pghfglovc7bfij3ji2caiioy	12	21	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	12	22	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	12	23	1	1	LS
work_r3pghfglovc7bfij3ji2caiioy	12	24	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	12	25	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	12	26	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	12	27	100–150	100–150	CD
work_r3pghfglovc7bfij3ji2caiioy	12	28	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	12	29	include	include	VBP
work_r3pghfglovc7bfij3ji2caiioy	12	30	numerous	numerous	JJ
work_r3pghfglovc7bfij3ji2caiioy	12	31	arti-	arti-	NN
work_r3pghfglovc7bfij3ji2caiioy	12	32	factual	factual	JJ
work_r3pghfglovc7bfij3ji2caiioy	12	33	ORFs	ORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	12	34	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	12	35	Fickett	Fickett	NNP
work_r3pghfglovc7bfij3ji2caiioy	12	36	1995	1995	CD
work_r3pghfglovc7bfij3ji2caiioy	12	37	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	12	38	Das	Das	NNP
work_r3pghfglovc7bfij3ji2caiioy	12	39	et	et	NNP
work_r3pghfglovc7bfij3ji2caiioy	12	40	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	12	41	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	13	1	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	13	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	13	3	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	13	4	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	13	5	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	13	6	2	2	LS
work_r3pghfglovc7bfij3ji2caiioy	13	7	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	13	8	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	13	9	set	set	NN
work_r3pghfglovc7bfij3ji2caiioy	13	10	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	13	11	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	13	12	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	13	13	1–99	1–99	CD
work_r3pghfglovc7bfij3ji2caiioy	13	14	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	13	15	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	13	16	among	among	IN
work_r3pghfglovc7bfij3ji2caiioy	13	17	which	which	WDT
work_r3pghfglovc7bfij3ji2caiioy	13	18	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	13	19	probability	probability	NN
work_r3pghfglovc7bfij3ji2caiioy	13	20	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	13	21	being	be	VBG
work_r3pghfglovc7bfij3ji2caiioy	13	22	biologically	biologically	RB
work_r3pghfglovc7bfij3ji2caiioy	13	23	meaningless	meaningless	JJ
work_r3pghfglovc7bfij3ji2caiioy	13	24	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	13	25	ex-	ex-	RB
work_r3pghfglovc7bfij3ji2caiioy	13	26	ceedingly	ceedingly	RB
work_r3pghfglovc7bfij3ji2caiioy	13	27	high	high	JJ
work_r3pghfglovc7bfij3ji2caiioy	13	28	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	13	29	nevertheless	nevertheless	RB
work_r3pghfglovc7bfij3ji2caiioy	13	30	contains	contain	VBZ
work_r3pghfglovc7bfij3ji2caiioy	13	31	numerous	numerous	JJ
work_r3pghfglovc7bfij3ji2caiioy	13	32	interesting	interesting	JJ
work_r3pghfglovc7bfij3ji2caiioy	13	33	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	13	34	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	13	35	which	which	WDT
work_r3pghfglovc7bfij3ji2caiioy	13	36	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	13	37	easily	easily	RB
work_r3pghfglovc7bfij3ji2caiioy	13	38	missed	miss	VBN
work_r3pghfglovc7bfij3ji2caiioy	13	39	because	because	IN
work_r3pghfglovc7bfij3ji2caiioy	13	40	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	13	41	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	13	42	sheer	sheer	NNP
work_r3pghfglovc7bfij3ji2caiioy	13	43	num-	num-	NNP
work_r3pghfglovc7bfij3ji2caiioy	13	44	ber	ber	NN
work_r3pghfglovc7bfij3ji2caiioy	13	45	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	13	46	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	13	47	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	13	48	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	14	1	To	to	TO
work_r3pghfglovc7bfij3ji2caiioy	14	2	illustrate	illustrate	VB
work_r3pghfglovc7bfij3ji2caiioy	14	3	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	14	4	mag-	mag-	NN
work_r3pghfglovc7bfij3ji2caiioy	14	5	nitude	nitude	NN
work_r3pghfglovc7bfij3ji2caiioy	14	6	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	14	7	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	14	8	problem	problem	NN
work_r3pghfglovc7bfij3ji2caiioy	14	9	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	14	10	we	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	14	11	plotted	plot	VBD
work_r3pghfglovc7bfij3ji2caiioy	14	12	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	14	13	total	total	JJ
work_r3pghfglovc7bfij3ji2caiioy	14	14	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	14	15	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	14	16	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	14	17	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	14	18	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	14	19	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	14	20	ge-	ge-	XX
work_r3pghfglovc7bfij3ji2caiioy	14	21	nome	nome	NN
work_r3pghfglovc7bfij3ji2caiioy	14	22	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	14	23	all	all	DT
work_r3pghfglovc7bfij3ji2caiioy	14	24	lengths	length	NNS
work_r3pghfglovc7bfij3ji2caiioy	14	25	between	between	IN
work_r3pghfglovc7bfij3ji2caiioy	14	26	2	2	CD
work_r3pghfglovc7bfij3ji2caiioy	14	27	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	14	28	1000	1000	CD
work_r3pghfglovc7bfij3ji2caiioy	14	29	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	14	30	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	14	31	Fig	fig	NN
work_r3pghfglovc7bfij3ji2caiioy	14	32	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	15	1	1	1	LS
work_r3pghfglovc7bfij3ji2caiioy	15	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	15	3	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	15	4	there	there	EX
work_r3pghfglovc7bfij3ji2caiioy	15	5	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	15	6	∼260,000	∼260,000	NNP
work_r3pghfglovc7bfij3ji2caiioy	15	7	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	15	8	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	15	9	2	2	CD
work_r3pghfglovc7bfij3ji2caiioy	15	10	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	15	11	99	99	CD
work_r3pghfglovc7bfij3ji2caiioy	15	12	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	15	13	long	long	JJ
work_r3pghfglovc7bfij3ji2caiioy	15	14	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	16	1	Because	because	IN
work_r3pghfglovc7bfij3ji2caiioy	16	2	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	16	3	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	16	4	problems	problem	NNS
work_r3pghfglovc7bfij3ji2caiioy	16	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	16	6	ORF	ORF	NNP
work_r3pghfglovc7bfij3ji2caiioy	16	7	length	length	NN
work_r3pghfglovc7bfij3ji2caiioy	16	8	was	be	VBD
work_r3pghfglovc7bfij3ji2caiioy	16	9	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	16	10	key	key	JJ
work_r3pghfglovc7bfij3ji2caiioy	16	11	criterion	criterion	NN
work_r3pghfglovc7bfij3ji2caiioy	16	12	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	16	13	deciding	decide	VBG
work_r3pghfglovc7bfij3ji2caiioy	16	14	which	which	WDT
work_r3pghfglovc7bfij3ji2caiioy	16	15	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	16	16	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	16	17	annotate	annotate	VB
work_r3pghfglovc7bfij3ji2caiioy	16	18	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	16	19	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	16	20	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	16	21	ge-	ge-	XX
work_r3pghfglovc7bfij3ji2caiioy	16	22	nome	nome	RB
work_r3pghfglovc7bfij3ji2caiioy	16	23	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	17	1	On	on	IN
work_r3pghfglovc7bfij3ji2caiioy	17	2	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	17	3	basis	basis	NN
work_r3pghfglovc7bfij3ji2caiioy	17	4	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	17	5	simulations	simulation	NNS
work_r3pghfglovc7bfij3ji2caiioy	17	6	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	17	7	random	random	JJ
work_r3pghfglovc7bfij3ji2caiioy	17	8	sequences	sequence	NNS
work_r3pghfglovc7bfij3ji2caiioy	17	9	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	17	10	all	all	DT
work_r3pghfglovc7bfij3ji2caiioy	17	11	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	17	12	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	17	13	at	at	RB
work_r3pghfglovc7bfij3ji2caiioy	17	14	least	least	RBS
work_r3pghfglovc7bfij3ji2caiioy	17	15	100	100	CD
work_r3pghfglovc7bfij3ji2caiioy	17	16	contiguous	contiguous	JJ
work_r3pghfglovc7bfij3ji2caiioy	17	17	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	17	18	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	17	19	including	include	VBG
work_r3pghfglovc7bfij3ji2caiioy	17	20	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	17	21	first	first	JJ
work_r3pghfglovc7bfij3ji2caiioy	17	22	ATG	atg	NN
work_r3pghfglovc7bfij3ji2caiioy	17	23	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	17	24	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	17	25	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	17	26	entirely	entirely	RB
work_r3pghfglovc7bfij3ji2caiioy	17	27	contained	contain	VBN
work_r3pghfglovc7bfij3ji2caiioy	17	28	within	within	IN
work_r3pghfglovc7bfij3ji2caiioy	17	29	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	17	30	longer	long	JJR
work_r3pghfglovc7bfij3ji2caiioy	17	31	ORF	ORF	NNP
work_r3pghfglovc7bfij3ji2caiioy	17	32	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	17	33	either	either	DT
work_r3pghfglovc7bfij3ji2caiioy	17	34	strand	strand	NN
work_r3pghfglovc7bfij3ji2caiioy	17	35	were	be	VBD
work_r3pghfglovc7bfij3ji2caiioy	17	36	automatically	automatically	RB
work_r3pghfglovc7bfij3ji2caiioy	17	37	designated	designate	VBN
work_r3pghfglovc7bfij3ji2caiioy	17	38	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	17	39	anno-	anno-	JJ
work_r3pghfglovc7bfij3ji2caiioy	17	40	tation	tation	NN
work_r3pghfglovc7bfij3ji2caiioy	17	41	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	17	42	Dujon	Dujon	NNP
work_r3pghfglovc7bfij3ji2caiioy	17	43	1994	1994	CD
work_r3pghfglovc7bfij3ji2caiioy	17	44	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	17	45	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	18	1	Using	use	VBG
work_r3pghfglovc7bfij3ji2caiioy	18	2	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	18	3	criterion	criterion	NN
work_r3pghfglovc7bfij3ji2caiioy	18	4	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	18	5	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	18	6	cerevisiae	cerevisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	18	7	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	18	8	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	18	9	sequence	sequence	NN
work_r3pghfglovc7bfij3ji2caiioy	18	10	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	18	11	12,068	12,068	CD
work_r3pghfglovc7bfij3ji2caiioy	18	12	Mb	mb	NN
work_r3pghfglovc7bfij3ji2caiioy	18	13	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	18	14	DNA	dna	NN
work_r3pghfglovc7bfij3ji2caiioy	18	15	encompassing	encompass	VBG
work_r3pghfglovc7bfij3ji2caiioy	18	16	16	16	CD
work_r3pghfglovc7bfij3ji2caiioy	18	17	chromo-	chromo-	NN
work_r3pghfglovc7bfij3ji2caiioy	18	18	somes	some	NNS
work_r3pghfglovc7bfij3ji2caiioy	18	19	defined	define	VBN
work_r3pghfglovc7bfij3ji2caiioy	18	20	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	18	21	total	total	NN
work_r3pghfglovc7bfij3ji2caiioy	18	22	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	18	23	∼6275	∼6275	:
work_r3pghfglovc7bfij3ji2caiioy	18	24	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	18	25	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	18	26	addition	addition	NN
work_r3pghfglovc7bfij3ji2caiioy	18	27	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	18	28	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	18	29	specifying	specify	VBG
work_r3pghfglovc7bfij3ji2caiioy	18	30	RNAs	rna	NNS
work_r3pghfglovc7bfij3ji2caiioy	18	31	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	18	32	Gof-	Gof-	NNP
work_r3pghfglovc7bfij3ji2caiioy	18	33	feau	feau	NNP
work_r3pghfglovc7bfij3ji2caiioy	18	34	et	et	FW
work_r3pghfglovc7bfij3ji2caiioy	18	35	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	18	36	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	19	1	1996	1996	CD
work_r3pghfglovc7bfij3ji2caiioy	19	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	19	3	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	20	1	Both	both	DT
work_r3pghfglovc7bfij3ji2caiioy	20	2	computational	computational	JJ
work_r3pghfglovc7bfij3ji2caiioy	20	3	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	20	4	experimen-	experimen-	JJ
work_r3pghfglovc7bfij3ji2caiioy	20	5	tal	tal	JJ
work_r3pghfglovc7bfij3ji2caiioy	20	6	techniques	technique	NNS
work_r3pghfglovc7bfij3ji2caiioy	20	7	can	can	MD
work_r3pghfglovc7bfij3ji2caiioy	20	8	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	20	9	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	20	10	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	20	11	evaluate	evaluate	VB
work_r3pghfglovc7bfij3ji2caiioy	20	12	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	20	13	coding	code	VBG
work_r3pghfglovc7bfij3ji2caiioy	20	14	potential	potential	NN
work_r3pghfglovc7bfij3ji2caiioy	20	15	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	20	16	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	20	17	putative	putative	JJ
work_r3pghfglovc7bfij3ji2caiioy	20	18	ORF	ORF	NNP
work_r3pghfglovc7bfij3ji2caiioy	20	19	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	21	1	A	a	DT
work_r3pghfglovc7bfij3ji2caiioy	21	2	codon	codon	NN
work_r3pghfglovc7bfij3ji2caiioy	21	3	adaptation	adaptation	NN
work_r3pghfglovc7bfij3ji2caiioy	21	4	index	index	NN
work_r3pghfglovc7bfij3ji2caiioy	21	5	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	21	6	CAI	CAI	NNP
work_r3pghfglovc7bfij3ji2caiioy	21	7	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	21	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	21	9	based	base	VBN
work_r3pghfglovc7bfij3ji2caiioy	21	10	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	21	11	similarity	similarity	NN
work_r3pghfglovc7bfij3ji2caiioy	21	12	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	21	13	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	21	14	preferred	preferred	JJ
work_r3pghfglovc7bfij3ji2caiioy	21	15	codon	codon	NN
work_r3pghfglovc7bfij3ji2caiioy	21	16	us-	us-	XX
work_r3pghfglovc7bfij3ji2caiioy	21	17	age	age	NN
work_r3pghfglovc7bfij3ji2caiioy	21	18	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	21	19	highly	highly	RB
work_r3pghfglovc7bfij3ji2caiioy	21	20	expressed	express	VBN
work_r3pghfglovc7bfij3ji2caiioy	21	21	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	21	22	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	21	23	that	that	DT
work_r3pghfglovc7bfij3ji2caiioy	21	24	organism	organism	NN
work_r3pghfglovc7bfij3ji2caiioy	21	25	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	21	26	Sharp	Sharp	NNP
work_r3pghfglovc7bfij3ji2caiioy	21	27	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	21	28	Li	Li	NNP
work_r3pghfglovc7bfij3ji2caiioy	21	29	1987	1987	CD
work_r3pghfglovc7bfij3ji2caiioy	21	30	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	21	31	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	21	32	can	can	MD
work_r3pghfglovc7bfij3ji2caiioy	21	33	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	21	34	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	21	35	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	21	36	help	help	VB
work_r3pghfglovc7bfij3ji2caiioy	21	37	predict	predict	VB
work_r3pghfglovc7bfij3ji2caiioy	21	38	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	21	39	likelihood	likelihood	NN
work_r3pghfglovc7bfij3ji2caiioy	21	40	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	21	41	an	an	DT
work_r3pghfglovc7bfij3ji2caiioy	21	42	ORF	ORF	NNP
work_r3pghfglovc7bfij3ji2caiioy	21	43	represents	represent	VBZ
work_r3pghfglovc7bfij3ji2caiioy	21	44	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	21	45	highly	highly	RB
work_r3pghfglovc7bfij3ji2caiioy	21	46	expressed	express	VBN
work_r3pghfglovc7bfij3ji2caiioy	21	47	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	21	48	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	21	49	has	have	VBZ
work_r3pghfglovc7bfij3ji2caiioy	21	50	been	be	VBN
work_r3pghfglovc7bfij3ji2caiioy	21	51	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	21	52	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	21	53	help	help	VB
work_r3pghfglovc7bfij3ji2caiioy	21	54	define	define	VB
work_r3pghfglovc7bfij3ji2caiioy	21	55	coding	code	VBG
work_r3pghfglovc7bfij3ji2caiioy	21	56	sequences	sequence	NNS
work_r3pghfglovc7bfij3ji2caiioy	21	57	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	22	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	22	2	average	average	JJ
work_r3pghfglovc7bfij3ji2caiioy	22	3	CAI	CAI	NNP
work_r3pghfglovc7bfij3ji2caiioy	22	4	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	22	5	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	22	6	entire	entire	JJ
work_r3pghfglovc7bfij3ji2caiioy	22	7	set	set	NN
work_r3pghfglovc7bfij3ji2caiioy	22	8	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	22	9	331	331	CD
work_r3pghfglovc7bfij3ji2caiioy	22	10	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	22	11	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	22	12	chromo-	chromo-	NN
work_r3pghfglovc7bfij3ji2caiioy	22	13	some	some	DT
work_r3pghfglovc7bfij3ji2caiioy	22	14	XI	XI	NNP
work_r3pghfglovc7bfij3ji2caiioy	22	15	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	22	16	0.170	0.170	CD
work_r3pghfglovc7bfij3ji2caiioy	22	17	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	22	18	Dujon	Dujon	NNP
work_r3pghfglovc7bfij3ji2caiioy	22	19	et	et	NNP
work_r3pghfglovc7bfij3ji2caiioy	22	20	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	22	21	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	23	1	1994	1994	LS
work_r3pghfglovc7bfij3ji2caiioy	23	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	23	3	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	24	1	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	24	2	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	24	3	100–150	100–150	CD
work_r3pghfglovc7bfij3ji2caiioy	24	4	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	24	5	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	24	6	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	24	7	low	low	JJ
work_r3pghfglovc7bfij3ji2caiioy	24	8	CAI	CAI	NNP
work_r3pghfglovc7bfij3ji2caiioy	24	9	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	24	10	<	<	XX
work_r3pghfglovc7bfij3ji2caiioy	24	11	0.1	0.1	CD
work_r3pghfglovc7bfij3ji2caiioy	24	12	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	24	13	were	be	VBD
work_r3pghfglovc7bfij3ji2caiioy	24	14	annotated	annotate	VBN
work_r3pghfglovc7bfij3ji2caiioy	24	15	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	24	16	many	many	JJ
work_r3pghfglovc7bfij3ji2caiioy	24	17	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	24	18	chromosomes	chromosome	NNS
work_r3pghfglovc7bfij3ji2caiioy	24	19	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	24	20	questionable	questionable	JJ
work_r3pghfglovc7bfij3ji2caiioy	24	21	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	24	22	be-	be-	RB
work_r3pghfglovc7bfij3ji2caiioy	24	23	cause	cause	NN
work_r3pghfglovc7bfij3ji2caiioy	24	24	they	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	24	25	may	may	MD
work_r3pghfglovc7bfij3ji2caiioy	24	26	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	24	27	represent	represent	VB
work_r3pghfglovc7bfij3ji2caiioy	24	28	real	real	JJ
work_r3pghfglovc7bfij3ji2caiioy	24	29	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	24	30	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	25	1	However	however	RB
work_r3pghfglovc7bfij3ji2caiioy	25	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	25	3	most	most	JJS
work_r3pghfglovc7bfij3ji2caiioy	25	4	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	25	5	transcripts	transcript	NNS
work_r3pghfglovc7bfij3ji2caiioy	25	6	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	25	7	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	25	8	highly	highly	RB
work_r3pghfglovc7bfij3ji2caiioy	25	9	expressed	express	VBN
work_r3pghfglovc7bfij3ji2caiioy	25	10	but	but	CC
work_r3pghfglovc7bfij3ji2caiioy	25	11	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	25	12	rather	rather	RB
work_r3pghfglovc7bfij3ji2caiioy	25	13	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	25	14	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	25	15	present	present	JJ
work_r3pghfglovc7bfij3ji2caiioy	25	16	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	25	17	one	one	CD
work_r3pghfglovc7bfij3ji2caiioy	25	18	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	25	19	two	two	CD
work_r3pghfglovc7bfij3ji2caiioy	25	20	copies	copy	NNS
work_r3pghfglovc7bfij3ji2caiioy	25	21	per	per	IN
work_r3pghfglovc7bfij3ji2caiioy	25	22	cell	cell	NN
work_r3pghfglovc7bfij3ji2caiioy	25	23	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	25	24	Velculescu	Velculescu	NNP
work_r3pghfglovc7bfij3ji2caiioy	25	25	et	et	NNP
work_r3pghfglovc7bfij3ji2caiioy	25	26	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	25	27	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	26	1	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	26	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	26	3	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	27	1	Moreover	moreover	RB
work_r3pghfglovc7bfij3ji2caiioy	27	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	27	3	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	27	4	smaller	small	JJR
work_r3pghfglovc7bfij3ji2caiioy	27	5	an	an	DT
work_r3pghfglovc7bfij3ji2caiioy	27	6	ORF	ORF	NNP
work_r3pghfglovc7bfij3ji2caiioy	27	7	becomes	become	VBZ
work_r3pghfglovc7bfij3ji2caiioy	27	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	27	9	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	27	10	less	less	RBR
work_r3pghfglovc7bfij3ji2caiioy	27	11	robust	robust	JJ
work_r3pghfglovc7bfij3ji2caiioy	27	12	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	27	13	CAI	CAI	NNP
work_r3pghfglovc7bfij3ji2caiioy	27	14	measurement	measurement	NN
work_r3pghfglovc7bfij3ji2caiioy	27	15	becomes	become	VBZ
work_r3pghfglovc7bfij3ji2caiioy	27	16	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	27	17	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	27	18	contribu-	contribu-	JJ
work_r3pghfglovc7bfij3ji2caiioy	27	19	tion	tion	NN
work_r3pghfglovc7bfij3ji2caiioy	27	20	made	make	VBN
work_r3pghfglovc7bfij3ji2caiioy	27	21	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	27	22	each	each	DT
work_r3pghfglovc7bfij3ji2caiioy	27	23	individual	individual	JJ
work_r3pghfglovc7bfij3ji2caiioy	27	24	codon	codon	NNP
work_r3pghfglovc7bfij3ji2caiioy	27	25	be-	be-	XX
work_r3pghfglovc7bfij3ji2caiioy	27	26	comes	come	VBZ
work_r3pghfglovc7bfij3ji2caiioy	27	27	heavier	heavier	RBR
work_r3pghfglovc7bfij3ji2caiioy	27	28	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	27	29	skews	skews	VB
work_r3pghfglovc7bfij3ji2caiioy	27	30	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	27	31	overall	overall	JJ
work_r3pghfglovc7bfij3ji2caiioy	27	32	value	value	NN
work_r3pghfglovc7bfij3ji2caiioy	27	33	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	28	1	Thus	thus	RB
work_r3pghfglovc7bfij3ji2caiioy	28	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	28	3	CAI	CAI	NNP
work_r3pghfglovc7bfij3ji2caiioy	28	4	values	value	NNS
work_r3pghfglovc7bfij3ji2caiioy	28	5	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	28	6	become	become	VB
work_r3pghfglovc7bfij3ji2caiioy	28	7	pro-	pro-	NN
work_r3pghfglovc7bfij3ji2caiioy	28	8	gressively	gressively	RB
work_r3pghfglovc7bfij3ji2caiioy	28	9	less	less	RBR
work_r3pghfglovc7bfij3ji2caiioy	28	10	useful	useful	JJ
work_r3pghfglovc7bfij3ji2caiioy	28	11	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	28	12	ORF	ORF	NNP
work_r3pghfglovc7bfij3ji2caiioy	28	13	length	length	NN
work_r3pghfglovc7bfij3ji2caiioy	28	14	de-	de-	NN
work_r3pghfglovc7bfij3ji2caiioy	28	15	creases	crease	VBZ
work_r3pghfglovc7bfij3ji2caiioy	28	16	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	29	1	Termier	Termier	NNP
work_r3pghfglovc7bfij3ji2caiioy	29	2	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	29	3	Kalogeropoulos	Kalogeropoulos	NNP
work_r3pghfglovc7bfij3ji2caiioy	29	4	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	29	5	1996	1996	CD
work_r3pghfglovc7bfij3ji2caiioy	29	6	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	29	7	examined	examine	VBD
work_r3pghfglovc7bfij3ji2caiioy	29	8	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	29	9	probability	probability	NN
work_r3pghfglovc7bfij3ji2caiioy	29	10	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	29	11	functional-	functional-	NN
work_r3pghfglovc7bfij3ji2caiioy	29	12	ity	ity	NN
work_r3pghfglovc7bfij3ji2caiioy	29	13	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	29	14	short	short	JJ
work_r3pghfglovc7bfij3ji2caiioy	29	15	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	29	16	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	29	17	described	describe	VBN
work_r3pghfglovc7bfij3ji2caiioy	29	18	compu-	compu-	JJ
work_r3pghfglovc7bfij3ji2caiioy	29	19	tational	tational	JJ
work_r3pghfglovc7bfij3ji2caiioy	29	20	techniques	technique	NNS
work_r3pghfglovc7bfij3ji2caiioy	29	21	based	base	VBN
work_r3pghfglovc7bfij3ji2caiioy	29	22	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	29	23	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	29	24	combina-	combina-	JJ
work_r3pghfglovc7bfij3ji2caiioy	29	25	tion	tion	NN
work_r3pghfglovc7bfij3ji2caiioy	29	26	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	29	27	codon	codon	NNP
work_r3pghfglovc7bfij3ji2caiioy	29	28	usage	usage	NNP
work_r3pghfglovc7bfij3ji2caiioy	29	29	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	29	30	amino	amino	JJ
work_r3pghfglovc7bfij3ji2caiioy	29	31	acid	acid	NN
work_r3pghfglovc7bfij3ji2caiioy	29	32	compo-	compo-	NNP
work_r3pghfglovc7bfij3ji2caiioy	29	33	sition	sition	NN
work_r3pghfglovc7bfij3ji2caiioy	29	34	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	29	35	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	29	36	dipeptide	dipeptide	NN
work_r3pghfglovc7bfij3ji2caiioy	29	37	frequencies	frequency	NNS
work_r3pghfglovc7bfij3ji2caiioy	29	38	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	29	39	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	29	40	encoded	encoded	JJ
work_r3pghfglovc7bfij3ji2caiioy	29	41	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	29	42	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	29	43	estimate	estimate	VB
work_r3pghfglovc7bfij3ji2caiioy	29	44	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	29	45	likeli-	likeli-	NNP
work_r3pghfglovc7bfij3ji2caiioy	29	46	hood	hood	NNP
work_r3pghfglovc7bfij3ji2caiioy	29	47	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	29	48	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	29	49	function	function	NN
work_r3pghfglovc7bfij3ji2caiioy	29	50	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	30	1	Again	again	RB
work_r3pghfglovc7bfij3ji2caiioy	30	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	30	3	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	30	4	fea-	fea-	NNS
work_r3pghfglovc7bfij3ji2caiioy	30	5	tures	ture	NNS
work_r3pghfglovc7bfij3ji2caiioy	30	6	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	30	7	fluctuate	fluctuate	VB
work_r3pghfglovc7bfij3ji2caiioy	30	8	most	most	RBS
work_r3pghfglovc7bfij3ji2caiioy	30	9	dramatically	dramatically	RB
work_r3pghfglovc7bfij3ji2caiioy	30	10	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	30	11	ORF	ORF	NNP
work_r3pghfglovc7bfij3ji2caiioy	30	12	length	length	NN
work_r3pghfglovc7bfij3ji2caiioy	30	13	decreases	decrease	NNS
work_r3pghfglovc7bfij3ji2caiioy	30	14	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	31	1	Thus	thus	RB
work_r3pghfglovc7bfij3ji2caiioy	31	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	31	3	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	31	4	com-	com-	NN
work_r3pghfglovc7bfij3ji2caiioy	31	5	putational	putational	JJ
work_r3pghfglovc7bfij3ji2caiioy	31	6	methods	method	NNS
work_r3pghfglovc7bfij3ji2caiioy	31	7	must	must	MD
work_r3pghfglovc7bfij3ji2caiioy	31	8	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	31	9	combined	combine	VBN
work_r3pghfglovc7bfij3ji2caiioy	31	10	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	31	11	some	some	DT
work_r3pghfglovc7bfij3ji2caiioy	31	12	sort	sort	NN
work_r3pghfglovc7bfij3ji2caiioy	31	13	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	31	14	functional	functional	JJ
work_r3pghfglovc7bfij3ji2caiioy	31	15	analyses	analysis	NNS
work_r3pghfglovc7bfij3ji2caiioy	31	16	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	31	17	help	help	VB
work_r3pghfglovc7bfij3ji2caiioy	31	18	find	find	VB
work_r3pghfglovc7bfij3ji2caiioy	31	19	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	31	20	needles	needle	NNS
work_r3pghfglovc7bfij3ji2caiioy	31	21	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	31	22	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	31	23	haystack	haystack	NN
work_r3pghfglovc7bfij3ji2caiioy	31	24	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	32	1	We	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	32	2	note	note	VBP
work_r3pghfglovc7bfij3ji2caiioy	32	3	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	32	4	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	32	5	organisms	organism	NNS
work_r3pghfglovc7bfij3ji2caiioy	32	6	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	32	7	many	many	JJ
work_r3pghfglovc7bfij3ji2caiioy	32	8	spliced	spliced	JJ
work_r3pghfglovc7bfij3ji2caiioy	32	9	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	32	10	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	32	11	problem	problem	NN
work_r3pghfglovc7bfij3ji2caiioy	32	12	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	32	13	somewhat	somewhat	RB
work_r3pghfglovc7bfij3ji2caiioy	32	14	different	different	JJ
work_r3pghfglovc7bfij3ji2caiioy	32	15	than	than	IN
work_r3pghfglovc7bfij3ji2caiioy	32	16	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	32	17	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	32	18	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	32	19	bacteria	bacteria	NNS
work_r3pghfglovc7bfij3ji2caiioy	32	20	be-	be-	RB
work_r3pghfglovc7bfij3ji2caiioy	32	21	cause	cause	NN
work_r3pghfglovc7bfij3ji2caiioy	32	22	exon	exon	NNP
work_r3pghfglovc7bfij3ji2caiioy	32	23	definition	definition	NN
work_r3pghfglovc7bfij3ji2caiioy	32	24	occurs	occur	VBZ
work_r3pghfglovc7bfij3ji2caiioy	32	25	before	before	IN
work_r3pghfglovc7bfij3ji2caiioy	32	26	ORF	ORF	NNP
work_r3pghfglovc7bfij3ji2caiioy	32	27	definition	definition	NN
work_r3pghfglovc7bfij3ji2caiioy	32	28	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	32	29	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	32	30	fact	fact	NN
work_r3pghfglovc7bfij3ji2caiioy	32	31	may	may	MD
work_r3pghfglovc7bfij3ji2caiioy	32	32	well	well	RB
work_r3pghfglovc7bfij3ji2caiioy	32	33	help	help	VB
work_r3pghfglovc7bfij3ji2caiioy	32	34	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	32	35	defining	define	VBG
work_r3pghfglovc7bfij3ji2caiioy	32	36	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	32	37	latter	latter	JJ
work_r3pghfglovc7bfij3ji2caiioy	32	38	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	33	1	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	33	2	Small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	33	3	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	4	include	include	VBP
work_r3pghfglovc7bfij3ji2caiioy	33	5	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	33	6	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	33	7	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	33	8	im-	im-	JJ
work_r3pghfglovc7bfij3ji2caiioy	33	9	portant	portant	JJ
work_r3pghfglovc7bfij3ji2caiioy	33	10	classes	class	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	11	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	12	such	such	JJ
work_r3pghfglovc7bfij3ji2caiioy	33	13	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	33	14	mating	mate	VBG
work_r3pghfglovc7bfij3ji2caiioy	33	15	phero-	phero-	NN
work_r3pghfglovc7bfij3ji2caiioy	33	16	mones	mone	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	17	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	18	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	19	involved	involve	VBN
work_r3pghfglovc7bfij3ji2caiioy	33	20	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	33	21	energy	energy	NN
work_r3pghfglovc7bfij3ji2caiioy	33	22	me-	me-	CD
work_r3pghfglovc7bfij3ji2caiioy	33	23	tabolism	tabolism	NN
work_r3pghfglovc7bfij3ji2caiioy	33	24	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	25	proteolipids	proteolipid	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	26	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	27	chaperonins	chaperonin	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	28	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	29	stress	stress	NN
work_r3pghfglovc7bfij3ji2caiioy	33	30	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	31	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	32	transporters	transporter	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	33	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	34	transcrip-	transcrip-	XX
work_r3pghfglovc7bfij3ji2caiioy	33	35	tional	tional	JJ
work_r3pghfglovc7bfij3ji2caiioy	33	36	regulators	regulator	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	37	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	38	nucleases	nuclease	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	39	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	40	ribosomal	ribosomal	JJ
work_r3pghfglovc7bfij3ji2caiioy	33	41	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	42	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	43	thioredoxins	thioredoxin	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	44	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	33	45	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	33	46	metal	metal	NN
work_r3pghfglovc7bfij3ji2caiioy	33	47	ion	ion	NN
work_r3pghfglovc7bfij3ji2caiioy	33	48	chelators	chelator	NNS
work_r3pghfglovc7bfij3ji2caiioy	33	49	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	34	1	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	34	2	See	see	VB
work_r3pghfglovc7bfij3ji2caiioy	34	3	Table	table	NN
work_r3pghfglovc7bfij3ji2caiioy	34	4	1	1	CD
work_r3pghfglovc7bfij3ji2caiioy	34	5	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	34	6	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	34	7	set	set	NN
work_r3pghfglovc7bfij3ji2caiioy	34	8	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	34	9	32	32	CD
work_r3pghfglovc7bfij3ji2caiioy	34	10	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	34	11	cerevisiae	cerevisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	34	12	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	34	13	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	34	14	<	<	XX
work_r3pghfglovc7bfij3ji2caiioy	34	15	7.5	7.5	CD
work_r3pghfglovc7bfij3ji2caiioy	34	16	kD	kD	NNP
work_r3pghfglovc7bfij3ji2caiioy	34	17	encoded	encode	VBN
work_r3pghfglovc7bfij3ji2caiioy	34	18	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	34	19	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	34	20	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	34	21	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	35	1	In	in	IN
work_r3pghfglovc7bfij3ji2caiioy	35	2	multicellular	multicellular	JJ
work_r3pghfglovc7bfij3ji2caiioy	35	3	organisms	organism	NNS
work_r3pghfglovc7bfij3ji2caiioy	35	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	35	5	there	there	EX
work_r3pghfglovc7bfij3ji2caiioy	35	6	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	35	7	already	already	RB
work_r3pghfglovc7bfij3ji2caiioy	35	8	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	35	9	rich	rich	JJ
work_r3pghfglovc7bfij3ji2caiioy	35	10	diversity	diversity	NN
work_r3pghfglovc7bfij3ji2caiioy	35	11	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	35	12	short	short	JJ
work_r3pghfglovc7bfij3ji2caiioy	35	13	peptides	peptide	NNS
work_r3pghfglovc7bfij3ji2caiioy	35	14	including	include	VBG
work_r3pghfglovc7bfij3ji2caiioy	35	15	many	many	JJ
work_r3pghfglovc7bfij3ji2caiioy	35	16	hormones	hormone	NNS
work_r3pghfglovc7bfij3ji2caiioy	35	17	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	35	18	an-	an-	CC
work_r3pghfglovc7bfij3ji2caiioy	35	19	tibacterial	tibacterial	JJ
work_r3pghfglovc7bfij3ji2caiioy	35	20	defensins	defensin	NNS
work_r3pghfglovc7bfij3ji2caiioy	35	21	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	35	22	cecropins	cecropin	NNS
work_r3pghfglovc7bfij3ji2caiioy	35	23	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	35	24	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	35	25	ma-	ma-	JJ
work_r3pghfglovc7bfij3ji2caiioy	35	26	gainins	gainin	NNS
work_r3pghfglovc7bfij3ji2caiioy	35	27	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	36	1	There	there	EX
work_r3pghfglovc7bfij3ji2caiioy	36	2	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	36	3	also	also	RB
work_r3pghfglovc7bfij3ji2caiioy	36	4	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	36	5	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	36	6	en-	en-	CC
work_r3pghfglovc7bfij3ji2caiioy	36	7	coding	code	VBG
work_r3pghfglovc7bfij3ji2caiioy	36	8	transporter	transporter	NN
work_r3pghfglovc7bfij3ji2caiioy	36	9	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	36	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	36	11	homeobox	homeobox	NN
work_r3pghfglovc7bfij3ji2caiioy	36	12	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	36	13	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	36	14	transcription	transcription	NN
work_r3pghfglovc7bfij3ji2caiioy	36	15	factors	factor	NNS
work_r3pghfglovc7bfij3ji2caiioy	36	16	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	36	17	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	36	18	ki-	ki-	NNP
work_r3pghfglovc7bfij3ji2caiioy	36	19	nase	nase	VBP
work_r3pghfglovc7bfij3ji2caiioy	36	20	regulatory	regulatory	JJ
work_r3pghfglovc7bfij3ji2caiioy	36	21	subunits	subunit	NNS
work_r3pghfglovc7bfij3ji2caiioy	36	22	reported	report	VBN
work_r3pghfglovc7bfij3ji2caiioy	36	23	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	36	24	Caenorhabditis	Caenorhabditis	NNP
work_r3pghfglovc7bfij3ji2caiioy	36	25	elegans	elegan	NNS
work_r3pghfglovc7bfij3ji2caiioy	36	26	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	36	27	http://www	http://www	NNP
work_r3pghfglovc7bfij3ji2caiioy	36	28	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	37	1	sanger.ac.uk/Projects/C	sanger.ac.uk/Projects/C	NNP
work_r3pghfglovc7bfij3ji2caiioy	37	2	elegans	elegans	NNPS
work_r3pghfglovc7bfij3ji2caiioy	37	3	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	37	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	38	1	How	how	WRB
work_r3pghfglovc7bfij3ji2caiioy	38	2	many	many	JJ
work_r3pghfglovc7bfij3ji2caiioy	38	3	more	more	RBR
work_r3pghfglovc7bfij3ji2caiioy	38	4	interesting	interesting	JJ
work_r3pghfglovc7bfij3ji2caiioy	38	5	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	38	6	lie	lie	NN
work_r3pghfglovc7bfij3ji2caiioy	38	7	bur-	bur-	RB
work_r3pghfglovc7bfij3ji2caiioy	38	8	1We	1we	CD
work_r3pghfglovc7bfij3ji2caiioy	38	9	define	define	VB
work_r3pghfglovc7bfij3ji2caiioy	38	10	an	an	DT
work_r3pghfglovc7bfij3ji2caiioy	38	11	ORF	ORF	NNP
work_r3pghfglovc7bfij3ji2caiioy	38	12	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	38	13	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	38	14	segment	segment	NN
work_r3pghfglovc7bfij3ji2caiioy	38	15	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	38	16	DNA	dna	NN
work_r3pghfglovc7bfij3ji2caiioy	38	17	capable	capable	JJ
work_r3pghfglovc7bfij3ji2caiioy	38	18	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	38	19	encoding	encode	VBG
work_r3pghfglovc7bfij3ji2caiioy	38	20	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	38	21	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	38	22	beginning	begin	VBG
work_r3pghfglovc7bfij3ji2caiioy	38	23	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	38	24	an	an	DT
work_r3pghfglovc7bfij3ji2caiioy	38	25	ATG	atg	NN
work_r3pghfglovc7bfij3ji2caiioy	38	26	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	38	27	ending	end	VBG
work_r3pghfglovc7bfij3ji2caiioy	38	28	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	38	29	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	38	30	termination	termination	NN
work_r3pghfglovc7bfij3ji2caiioy	38	31	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	38	32	stop	stop	VB
work_r3pghfglovc7bfij3ji2caiioy	38	33	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	38	34	codon	codon	NNP
work_r3pghfglovc7bfij3ji2caiioy	38	35	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	38	36	including	include	VBG
work_r3pghfglovc7bfij3ji2caiioy	38	37	nested	nest	VBN
work_r3pghfglovc7bfij3ji2caiioy	38	38	ORFs	ORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	38	39	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	38	40	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	39	1	We	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	39	2	ignore	ignore	VBP
work_r3pghfglovc7bfij3ji2caiioy	39	3	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	39	4	initiating	initiate	VBG
work_r3pghfglovc7bfij3ji2caiioy	39	5	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	39	6	other	other	JJ
work_r3pghfglovc7bfij3ji2caiioy	39	7	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	39	8	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	40	1	Insight	Insight	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	2	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	40	3	Outlook	Outlook	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	4	768	768	CD
work_r3pghfglovc7bfij3ji2caiioy	40	5	GENOME	genome	NN
work_r3pghfglovc7bfij3ji2caiioy	40	6	RESEARCH	research	NN
work_r3pghfglovc7bfij3ji2caiioy	40	7	7:768–771	7:768–771	CD
work_r3pghfglovc7bfij3ji2caiioy	40	8	©	©	NN
work_r3pghfglovc7bfij3ji2caiioy	40	9	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	40	10	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	40	11	Cold	Cold	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	12	Spring	Spring	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	13	Harbor	Harbor	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	14	Laboratory	Laboratory	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	15	Press	Press	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	16	ISSN	ISSN	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	17	1054	1054	CD
work_r3pghfglovc7bfij3ji2caiioy	40	18	-	-	SYM
work_r3pghfglovc7bfij3ji2caiioy	40	19	9803/97	9803/97	CD
work_r3pghfglovc7bfij3ji2caiioy	40	20	$	$	$
work_r3pghfglovc7bfij3ji2caiioy	40	21	5.00	5.00	CD
work_r3pghfglovc7bfij3ji2caiioy	40	22	Cold	Cold	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	23	Spring	Spring	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	24	Harbor	Harbor	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	25	Laboratory	Laboratory	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	26	Press	Press	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	27	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	40	28	April	April	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	29	5	5	CD
work_r3pghfglovc7bfij3ji2caiioy	40	30	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	40	31	2021	2021	CD
work_r3pghfglovc7bfij3ji2caiioy	40	32	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	40	33	Published	publish	VBN
work_r3pghfglovc7bfij3ji2caiioy	40	34	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	40	35	genome.cshlp.orgDownloaded	genome.cshlp.orgDownloaded	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	36	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	40	37	http://genome.cshlp.org/	http://genome.cshlp.org/	CD
work_r3pghfglovc7bfij3ji2caiioy	40	38	http://www.cshlpress.com	http://www.cshlpress.com	ADD
work_r3pghfglovc7bfij3ji2caiioy	40	39	ied	ied	JJ
work_r3pghfglovc7bfij3ji2caiioy	40	40	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	40	41	undiscovered	undiscovered	JJ
work_r3pghfglovc7bfij3ji2caiioy	40	42	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	40	43	fully	fully	RB
work_r3pghfglovc7bfij3ji2caiioy	40	44	sequenced	sequence	VBN
work_r3pghfglovc7bfij3ji2caiioy	40	45	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	40	46	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	40	47	bacterial	bacterial	JJ
work_r3pghfglovc7bfij3ji2caiioy	40	48	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	40	49	nematode	nematode	NNP
work_r3pghfglovc7bfij3ji2caiioy	40	50	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	40	51	hu-	hu-	JJ
work_r3pghfglovc7bfij3ji2caiioy	40	52	man	man	NN
work_r3pghfglovc7bfij3ji2caiioy	40	53	...	...	NFP
work_r3pghfglovc7bfij3ji2caiioy	40	54	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	40	55	genomes	genome	NNS
work_r3pghfglovc7bfij3ji2caiioy	40	56	?	?	.
work_r3pghfglovc7bfij3ji2caiioy	41	1	Despite	despite	IN
work_r3pghfglovc7bfij3ji2caiioy	41	2	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	41	3	accepted	accepted	JJ
work_r3pghfglovc7bfij3ji2caiioy	41	4	practical	practical	JJ
work_r3pghfglovc7bfij3ji2caiioy	41	5	lower	low	JJR
work_r3pghfglovc7bfij3ji2caiioy	41	6	limit	limit	NN
work_r3pghfglovc7bfij3ji2caiioy	41	7	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	41	8	100	100	CD
work_r3pghfglovc7bfij3ji2caiioy	41	9	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	41	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	41	11	at	at	RB
work_r3pghfglovc7bfij3ji2caiioy	41	12	least	least	RBS
work_r3pghfglovc7bfij3ji2caiioy	41	13	100	100	CD
work_r3pghfglovc7bfij3ji2caiioy	41	14	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	41	15	cer-	cer-	NN
work_r3pghfglovc7bfij3ji2caiioy	41	16	evisiae	evisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	41	17	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	41	18	<	<	XX
work_r3pghfglovc7bfij3ji2caiioy	41	19	100	100	CD
work_r3pghfglovc7bfij3ji2caiioy	41	20	amino	amino	JJ
work_r3pghfglovc7bfij3ji2caiioy	41	21	acids	acid	NNS
work_r3pghfglovc7bfij3ji2caiioy	41	22	long	long	RB
work_r3pghfglovc7bfij3ji2caiioy	41	23	have	have	VBP
work_r3pghfglovc7bfij3ji2caiioy	41	24	already	already	RB
work_r3pghfglovc7bfij3ji2caiioy	41	25	been	be	VBN
work_r3pghfglovc7bfij3ji2caiioy	41	26	identified	identify	VBN
work_r3pghfglovc7bfij3ji2caiioy	41	27	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	41	28	genetic	genetic	JJ
work_r3pghfglovc7bfij3ji2caiioy	41	29	or	or	CC
work_r3pghfglovc7bfij3ji2caiioy	41	30	biochemical	biochemical	JJ
work_r3pghfglovc7bfij3ji2caiioy	41	31	techniques	technique	NNS
work_r3pghfglovc7bfij3ji2caiioy	41	32	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	42	1	But	but	CC
work_r3pghfglovc7bfij3ji2caiioy	42	2	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	42	3	total	total	JJ
work_r3pghfglovc7bfij3ji2caiioy	42	4	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	42	5	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	42	6	such	such	JJ
work_r3pghfglovc7bfij3ji2caiioy	42	7	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	42	8	may	may	MD
work_r3pghfglovc7bfij3ji2caiioy	42	9	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	42	10	much	much	RB
work_r3pghfglovc7bfij3ji2caiioy	42	11	higher	high	JJR
work_r3pghfglovc7bfij3ji2caiioy	42	12	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	43	1	In	in	IN
work_r3pghfglovc7bfij3ji2caiioy	43	2	Eschericia	Eschericia	NNP
work_r3pghfglovc7bfij3ji2caiioy	43	3	coli	coli	NNS
work_r3pghfglovc7bfij3ji2caiioy	43	4	there	there	EX
work_r3pghfglovc7bfij3ji2caiioy	43	5	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	43	6	381	381	CD
work_r3pghfglovc7bfij3ji2caiioy	43	7	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	43	8	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	43	9	<	<	XX
work_r3pghfglovc7bfij3ji2caiioy	43	10	100	100	CD
work_r3pghfglovc7bfij3ji2caiioy	43	11	amino	amino	JJ
work_r3pghfglovc7bfij3ji2caiioy	43	12	acids	acid	NNS
work_r3pghfglovc7bfij3ji2caiioy	43	13	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	43	14	length	length	NN
work_r3pghfglovc7bfij3ji2caiioy	43	15	represented	represent	VBN
work_r3pghfglovc7bfij3ji2caiioy	43	16	among	among	IN
work_r3pghfglovc7bfij3ji2caiioy	43	17	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	43	18	total	total	NN
work_r3pghfglovc7bfij3ji2caiioy	43	19	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	43	20	4288	4288	CD
work_r3pghfglovc7bfij3ji2caiioy	43	21	annotated	annotate	VBN
work_r3pghfglovc7bfij3ji2caiioy	43	22	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	43	23	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	43	24	8.9	8.9	CD
work_r3pghfglovc7bfij3ji2caiioy	43	25	%	%	NN
work_r3pghfglovc7bfij3ji2caiioy	43	26	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	43	27	http://www	http://www	ADD
work_r3pghfglovc7bfij3ji2caiioy	43	28	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	44	1	genetics.wisc.edu/	genetics.wisc.edu/	NNP
work_r3pghfglovc7bfij3ji2caiioy	44	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	44	3	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	45	1	Analysis	analysis	NN
work_r3pghfglovc7bfij3ji2caiioy	45	2	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	45	3	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	45	4	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	45	5	mitochondrial	mitochondrial	NN
work_r3pghfglovc7bfij3ji2caiioy	45	6	genome	genome	NN
work_r3pghfglovc7bfij3ji2caiioy	45	7	results	result	NNS
work_r3pghfglovc7bfij3ji2caiioy	45	8	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	45	9	32	32	CD
work_r3pghfglovc7bfij3ji2caiioy	45	10	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	45	11	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	45	12	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	45	13	which	which	WDT
work_r3pghfglovc7bfij3ji2caiioy	45	14	4	4	CD
work_r3pghfglovc7bfij3ji2caiioy	45	15	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	45	16	smaller	small	JJR
work_r3pghfglovc7bfij3ji2caiioy	45	17	than	than	IN
work_r3pghfglovc7bfij3ji2caiioy	45	18	100	100	CD
work_r3pghfglovc7bfij3ji2caiioy	45	19	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	45	20	m	m	NN
work_r3pghfglovc7bfij3ji2caiioy	45	21	i	i	NN
work_r3pghfglovc7bfij3ji2caiioy	45	22	n	n	CC
work_r3pghfglovc7bfij3ji2caiioy	45	23	o	o	NN
work_r3pghfglovc7bfij3ji2caiioy	45	24	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	45	25	c	c	NN
work_r3pghfglovc7bfij3ji2caiioy	45	26	i	i	NN
work_r3pghfglovc7bfij3ji2caiioy	45	27	d	d	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	28	s	s	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	29	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	45	30	h	h	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	31	t	t	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	32	t	t	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	33	p	p	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	34	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	45	35	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	45	36	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	45	37	s	s	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	38	p	p	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	39	e	e	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	40	e	e	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	41	d	d	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	42	y	y	NNP
work_r3pghfglovc7bfij3ji2caiioy	45	43	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	46	1	m	m	NNP
work_r3pghfglovc7bfij3ji2caiioy	46	2	i	i	NNP
work_r3pghfglovc7bfij3ji2caiioy	46	3	p	p	NNP
work_r3pghfglovc7bfij3ji2caiioy	46	4	s	s	NN
work_r3pghfglovc7bfij3ji2caiioy	46	5	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	47	1	biochem.mpg.de/	biochem.mpg.de/	NNP
work_r3pghfglovc7bfij3ji2caiioy	47	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	47	3	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	47	4	suggesting	suggest	VBG
work_r3pghfglovc7bfij3ji2caiioy	47	5	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	47	6	12.5	12.5	CD
work_r3pghfglovc7bfij3ji2caiioy	47	7	%	%	NN
work_r3pghfglovc7bfij3ji2caiioy	47	8	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	47	9	encoded	encoded	JJ
work_r3pghfglovc7bfij3ji2caiioy	47	10	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	47	11	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	47	12	encoded	encode	VBN
work_r3pghfglovc7bfij3ji2caiioy	47	13	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	47	14	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	47	15	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	47	16	<	<	XX
work_r3pghfglovc7bfij3ji2caiioy	47	17	100	100	CD
work_r3pghfglovc7bfij3ji2caiioy	47	18	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	47	19	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	48	1	An	an	DT
work_r3pghfglovc7bfij3ji2caiioy	48	2	indepen-	indepen-	JJ
work_r3pghfglovc7bfij3ji2caiioy	48	3	dent	dent	NN
work_r3pghfglovc7bfij3ji2caiioy	48	4	estimate	estimate	NN
work_r3pghfglovc7bfij3ji2caiioy	48	5	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	48	6	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	48	7	ratio	ratio	NN
work_r3pghfglovc7bfij3ji2caiioy	48	8	was	be	VBD
work_r3pghfglovc7bfij3ji2caiioy	48	9	obtained	obtain	VBN
work_r3pghfglovc7bfij3ji2caiioy	48	10	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	48	11	examining	examine	VBG
work_r3pghfglovc7bfij3ji2caiioy	48	12	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	48	13	set	set	NN
work_r3pghfglovc7bfij3ji2caiioy	48	14	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	48	15	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	48	16	identi-	identi-	NN
work_r3pghfglovc7bfij3ji2caiioy	48	17	fied	fie	VBN
work_r3pghfglovc7bfij3ji2caiioy	48	18	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	48	19	amino	amino	JJ
work_r3pghfglovc7bfij3ji2caiioy	48	20	acid	acid	NNP
work_r3pghfglovc7bfij3ji2caiioy	48	21	sequencing	sequencing	NNP
work_r3pghfglovc7bfij3ji2caiioy	48	22	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	48	23	ran-	ran-	NNP
work_r3pghfglovc7bfij3ji2caiioy	48	24	domly	domly	RB
work_r3pghfglovc7bfij3ji2caiioy	48	25	selected	select	VBN
work_r3pghfglovc7bfij3ji2caiioy	48	26	two	two	CD
work_r3pghfglovc7bfij3ji2caiioy	48	27	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	48	28	dimensional	dimensional	JJ
work_r3pghfglovc7bfij3ji2caiioy	48	29	gel	gel	NN
work_r3pghfglovc7bfij3ji2caiioy	48	30	spots	spot	NNS
work_r3pghfglovc7bfij3ji2caiioy	48	31	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	48	32	total	total	JJ
work_r3pghfglovc7bfij3ji2caiioy	48	33	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	48	34	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	48	35	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	48	36	fully	fully	RB
work_r3pghfglovc7bfij3ji2caiioy	48	37	se-	se-	XX
work_r3pghfglovc7bfij3ji2caiioy	48	38	quenced	quence	VBN
work_r3pghfglovc7bfij3ji2caiioy	48	39	cyanobacterium	cyanobacterium	NN
work_r3pghfglovc7bfij3ji2caiioy	48	40	Synechocystis	Synechocystis	NNP
work_r3pghfglovc7bfij3ji2caiioy	48	41	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	49	1	Of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	49	2	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	49	3	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	49	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	49	5	11.8	11.8	CD
work_r3pghfglovc7bfij3ji2caiioy	49	6	%	%	NN
work_r3pghfglovc7bfij3ji2caiioy	49	7	were	be	VBD
work_r3pghfglovc7bfij3ji2caiioy	49	8	encoded	encode	VBN
work_r3pghfglovc7bfij3ji2caiioy	49	9	b	b	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	10	y	y	NN
work_r3pghfglovc7bfij3ji2caiioy	49	11	O	o	NN
work_r3pghfglovc7bfij3ji2caiioy	49	12	R	R	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	13	F	F	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	14	s	s	NN
work_r3pghfglovc7bfij3ji2caiioy	49	15	o	o	XX
work_r3pghfglovc7bfij3ji2caiioy	49	16	f	f	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	17	<	<	XX
work_r3pghfglovc7bfij3ji2caiioy	49	18	1	1	CD
work_r3pghfglovc7bfij3ji2caiioy	49	19	0	0	CD
work_r3pghfglovc7bfij3ji2caiioy	49	20	0	0	CD
work_r3pghfglovc7bfij3ji2caiioy	49	21	c	c	NN
work_r3pghfglovc7bfij3ji2caiioy	49	22	o	o	NN
work_r3pghfglovc7bfij3ji2caiioy	49	23	d	d	NN
work_r3pghfglovc7bfij3ji2caiioy	49	24	o	o	NN
work_r3pghfglovc7bfij3ji2caiioy	49	25	n	n	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	26	s	s	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	27	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	49	28	h	h	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	29	t	t	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	30	t	t	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	31	p	p	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	32	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	49	33	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	49	34	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	49	35	www.kazusa.or.jp/tech/sazuka/cyano/	www.kazusa.or.jp/tech/sazuka/cyano/	NNP
work_r3pghfglovc7bfij3ji2caiioy	49	36	proteome.html	proteome.html	NNS
work_r3pghfglovc7bfij3ji2caiioy	49	37	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	49	38	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	50	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	50	2	latter	latter	JJ
work_r3pghfglovc7bfij3ji2caiioy	50	3	two	two	CD
work_r3pghfglovc7bfij3ji2caiioy	50	4	calcula-	calcula-	JJ
work_r3pghfglovc7bfij3ji2caiioy	50	5	tions	tion	NNS
work_r3pghfglovc7bfij3ji2caiioy	50	6	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	50	7	probably	probably	RB
work_r3pghfglovc7bfij3ji2caiioy	50	8	somewhat	somewhat	RB
work_r3pghfglovc7bfij3ji2caiioy	50	9	biased	biased	JJ
work_r3pghfglovc7bfij3ji2caiioy	50	10	to-	to-	NNP
work_r3pghfglovc7bfij3ji2caiioy	50	11	ward	ward	NNP
work_r3pghfglovc7bfij3ji2caiioy	50	12	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	50	13	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	50	14	but	but	CC
work_r3pghfglovc7bfij3ji2caiioy	50	15	provide	provide	VBP
work_r3pghfglovc7bfij3ji2caiioy	50	16	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	50	17	least	least	JJS
work_r3pghfglovc7bfij3ji2caiioy	50	18	an	an	DT
work_r3pghfglovc7bfij3ji2caiioy	50	19	upper	upper	JJ
work_r3pghfglovc7bfij3ji2caiioy	50	20	limit	limit	NN
work_r3pghfglovc7bfij3ji2caiioy	50	21	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	50	22	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	50	23	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	50	24	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	50	25	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	50	26	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	51	1	Extrapolating	extrapolate	VBG
work_r3pghfglovc7bfij3ji2caiioy	51	2	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	51	3	ratios	ratio	NNS
work_r3pghfglovc7bfij3ji2caiioy	51	4	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	51	5	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	51	6	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	51	7	long	long	JJ
work_r3pghfglovc7bfij3ji2caiioy	51	8	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	51	9	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	51	10	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	51	11	entire	entire	JJ
work_r3pghfglovc7bfij3ji2caiioy	51	12	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	51	13	genome	genome	NN
work_r3pghfglovc7bfij3ji2caiioy	51	14	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	51	15	there	there	EX
work_r3pghfglovc7bfij3ji2caiioy	51	16	might	may	MD
work_r3pghfglovc7bfij3ji2caiioy	51	17	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	51	18	as	as	RB
work_r3pghfglovc7bfij3ji2caiioy	51	19	many	many	JJ
work_r3pghfglovc7bfij3ji2caiioy	51	20	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	51	21	800	800	CD
work_r3pghfglovc7bfij3ji2caiioy	51	22	smORFs	smORFs	NNPS
work_r3pghfglovc7bfij3ji2caiioy	51	23	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	51	24	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	51	25	nuclear	nuclear	JJ
work_r3pghfglovc7bfij3ji2caiioy	51	26	genome	genome	NN
work_r3pghfglovc7bfij3ji2caiioy	51	27	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	52	1	Identifying	identify	VBG
work_r3pghfglovc7bfij3ji2caiioy	52	2	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	52	3	Characterizing	Characterizing	NNP
work_r3pghfglovc7bfij3ji2caiioy	52	4	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	52	5	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	52	6	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	52	7	cerevisiae	cerevisiae	VBZ
work_r3pghfglovc7bfij3ji2caiioy	52	8	A	a	DT
work_r3pghfglovc7bfij3ji2caiioy	52	9	genome	genome	JJ
work_r3pghfglovc7bfij3ji2caiioy	52	10	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	52	11	wide	wide	JJ
work_r3pghfglovc7bfij3ji2caiioy	52	12	project	project	NN
work_r3pghfglovc7bfij3ji2caiioy	52	13	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	52	14	disrupt	disrupt	VB
work_r3pghfglovc7bfij3ji2caiioy	52	15	all	all	DT
work_r3pghfglovc7bfij3ji2caiioy	52	16	known	know	VBN
work_r3pghfglovc7bfij3ji2caiioy	52	17	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	52	18	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	52	19	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	52	20	currently	currently	RB
work_r3pghfglovc7bfij3ji2caiioy	52	21	under	under	IN
work_r3pghfglovc7bfij3ji2caiioy	52	22	way	way	NN
work_r3pghfglovc7bfij3ji2caiioy	52	23	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	52	24	http://sequence-www.stanford.edu/	http://sequence-www.stanford.edu/	NNP
work_r3pghfglovc7bfij3ji2caiioy	52	25	group	group	NNP
work_r3pghfglovc7bfij3ji2caiioy	52	26	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	52	27	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	52	28	deletion	deletion	NN
work_r3pghfglovc7bfij3ji2caiioy	52	29	project	project	NN
work_r3pghfglovc7bfij3ji2caiioy	52	30	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	52	31	deletion	deletion	NN
work_r3pghfglovc7bfij3ji2caiioy	52	32	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	53	1	html	html	NNP
work_r3pghfglovc7bfij3ji2caiioy	53	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	53	3	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	54	1	However	however	RB
work_r3pghfglovc7bfij3ji2caiioy	54	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	54	3	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	54	4	project	project	NN
work_r3pghfglovc7bfij3ji2caiioy	54	5	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	54	6	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	54	7	dis-	dis-	VB
work_r3pghfglovc7bfij3ji2caiioy	54	8	cover	cover	VB
work_r3pghfglovc7bfij3ji2caiioy	54	9	new	new	JJ
work_r3pghfglovc7bfij3ji2caiioy	54	10	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	54	11	but	but	CC
work_r3pghfglovc7bfij3ji2caiioy	54	12	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	54	13	rather	rather	RB
work_r3pghfglovc7bfij3ji2caiioy	54	14	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	54	15	depends	depend	VBZ
work_r3pghfglovc7bfij3ji2caiioy	54	16	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	54	17	sequence	sequence	NN
work_r3pghfglovc7bfij3ji2caiioy	54	18	databases	database	NNS
work_r3pghfglovc7bfij3ji2caiioy	54	19	like	like	IN
work_r3pghfglovc7bfij3ji2caiioy	54	20	SGD	SGD	NNP
work_r3pghfglovc7bfij3ji2caiioy	54	21	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	54	22	http://	http://	NNP
work_r3pghfglovc7bfij3ji2caiioy	54	23	genome-www.stanford.edu/Saccharomy-	genome-www.stanford.edu/Saccharomy-	NNP
work_r3pghfglovc7bfij3ji2caiioy	54	24	ces/	ces/	NNP
work_r3pghfglovc7bfij3ji2caiioy	54	25	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	54	26	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	54	27	MIPS	MIPS	NNP
work_r3pghfglovc7bfij3ji2caiioy	54	28	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	54	29	http://speedy.mips.bio-	http://speedy.mips.bio-	ADD
work_r3pghfglovc7bfij3ji2caiioy	54	30	chem.mpg.de/	chem.mpg.de/	NNP
work_r3pghfglovc7bfij3ji2caiioy	54	31	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	54	32	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	54	33	identify	identify	VB
work_r3pghfglovc7bfij3ji2caiioy	54	34	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	54	35	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	54	36	bases	base	VBZ
work_r3pghfglovc7bfij3ji2caiioy	54	37	its	-PRON-	PRP$
work_r3pghfglovc7bfij3ji2caiioy	54	38	decision	decision	NN
work_r3pghfglovc7bfij3ji2caiioy	54	39	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	54	40	disrupt	disrupt	VB
work_r3pghfglovc7bfij3ji2caiioy	54	41	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	54	42	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	54	43	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	54	44	basis	basis	NN
work_r3pghfglovc7bfij3ji2caiioy	54	45	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	55	1	This	this	DT
work_r3pghfglovc7bfij3ji2caiioy	55	2	type	type	NN
work_r3pghfglovc7bfij3ji2caiioy	55	3	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	55	4	project	project	NN
work_r3pghfglovc7bfij3ji2caiioy	55	5	urgently	urgently	RB
work_r3pghfglovc7bfij3ji2caiioy	55	6	re-	re-	JJ
work_r3pghfglovc7bfij3ji2caiioy	55	7	quires	quire	NNS
work_r3pghfglovc7bfij3ji2caiioy	55	8	input	input	NN
work_r3pghfglovc7bfij3ji2caiioy	55	9	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	55	10	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	55	11	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	55	12	community	community	NN
work_r3pghfglovc7bfij3ji2caiioy	55	13	both	both	CC
work_r3pghfglovc7bfij3ji2caiioy	55	14	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	55	15	removal	removal	NN
work_r3pghfglovc7bfij3ji2caiioy	55	16	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	55	17	questionable	questionable	JJ
work_r3pghfglovc7bfij3ji2caiioy	55	18	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	55	19	>	>	NFP
work_r3pghfglovc7bfij3ji2caiioy	55	20	99	99	CD
work_r3pghfglovc7bfij3ji2caiioy	55	21	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	55	22	long	long	JJ
work_r3pghfglovc7bfij3ji2caiioy	55	23	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	55	24	annotation	annotation	NN
work_r3pghfglovc7bfij3ji2caiioy	55	25	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	55	26	in-	in-	JJ
work_r3pghfglovc7bfij3ji2caiioy	55	27	clusion	clusion	NN
work_r3pghfglovc7bfij3ji2caiioy	55	28	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	55	29	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	55	30	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	56	1	Defining	define	VBG
work_r3pghfglovc7bfij3ji2caiioy	56	2	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	56	3	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	56	4	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	56	5	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	56	6	trivial	trivial	JJ
work_r3pghfglovc7bfij3ji2caiioy	56	7	task	task	NN
work_r3pghfglovc7bfij3ji2caiioy	56	8	;	;	,
work_r3pghfglovc7bfij3ji2caiioy	56	9	several	several	JJ
work_r3pghfglovc7bfij3ji2caiioy	56	10	approaches	approach	NNS
work_r3pghfglovc7bfij3ji2caiioy	56	11	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	56	12	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	56	13	parallel	parallel	NN
work_r3pghfglovc7bfij3ji2caiioy	56	14	should	should	MD
work_r3pghfglovc7bfij3ji2caiioy	56	15	help	help	VB
work_r3pghfglovc7bfij3ji2caiioy	56	16	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	56	17	identify	identify	VB
work_r3pghfglovc7bfij3ji2caiioy	56	18	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	56	19	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	56	20	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	56	21	help	help	VB
work_r3pghfglovc7bfij3ji2caiioy	56	22	elucidate	elucidate	VB
work_r3pghfglovc7bfij3ji2caiioy	56	23	their	-PRON-	PRP$
work_r3pghfglovc7bfij3ji2caiioy	56	24	biological	biological	JJ
work_r3pghfglovc7bfij3ji2caiioy	56	25	role	role	NN
work_r3pghfglovc7bfij3ji2caiioy	56	26	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	57	1	However	however	RB
work_r3pghfglovc7bfij3ji2caiioy	57	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	57	3	all	all	DT
work_r3pghfglovc7bfij3ji2caiioy	57	4	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	57	5	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	57	6	methods	method	NNS
work_r3pghfglovc7bfij3ji2caiioy	57	7	have	have	VBP
work_r3pghfglovc7bfij3ji2caiioy	57	8	severe	severe	JJ
work_r3pghfglovc7bfij3ji2caiioy	57	9	limitations	limitation	NNS
work_r3pghfglovc7bfij3ji2caiioy	57	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	57	11	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	57	12	we	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	57	13	invite	invite	VBP
work_r3pghfglovc7bfij3ji2caiioy	57	14	suggestions	suggestion	NNS
work_r3pghfglovc7bfij3ji2caiioy	57	15	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	57	16	additional	additional	JJ
work_r3pghfglovc7bfij3ji2caiioy	57	17	tools	tool	NNS
work_r3pghfglovc7bfij3ji2caiioy	57	18	that	that	WDT
work_r3pghfglovc7bfij3ji2caiioy	57	19	might	may	MD
work_r3pghfglovc7bfij3ji2caiioy	57	20	help	help	VB
work_r3pghfglovc7bfij3ji2caiioy	57	21	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	57	22	solve	solve	VB
work_r3pghfglovc7bfij3ji2caiioy	57	23	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	57	24	problem	problem	NN
work_r3pghfglovc7bfij3ji2caiioy	57	25	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	58	1	We	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	58	2	describe	describe	VBP
work_r3pghfglovc7bfij3ji2caiioy	58	3	some	some	DT
work_r3pghfglovc7bfij3ji2caiioy	58	4	approaches	approach	NNS
work_r3pghfglovc7bfij3ji2caiioy	58	5	currently	currently	RB
work_r3pghfglovc7bfij3ji2caiioy	58	6	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	58	7	use	use	NN
work_r3pghfglovc7bfij3ji2caiioy	58	8	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	58	9	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	58	10	cerevi-	cerevi-	NN
work_r3pghfglovc7bfij3ji2caiioy	58	11	siae	siae	NNS
work_r3pghfglovc7bfij3ji2caiioy	58	12	that	that	WDT
work_r3pghfglovc7bfij3ji2caiioy	58	13	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	58	14	assist	assist	VB
work_r3pghfglovc7bfij3ji2caiioy	58	15	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	58	16	identifying	identify	VBG
work_r3pghfglovc7bfij3ji2caiioy	58	17	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	58	18	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	58	19	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	58	20	limitations	limitation	NNS
work_r3pghfglovc7bfij3ji2caiioy	58	21	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	58	22	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	58	23	methods	method	NNS
work_r3pghfglovc7bfij3ji2caiioy	58	24	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	59	1	Conventional	conventional	JJ
work_r3pghfglovc7bfij3ji2caiioy	59	2	Genetic	genetic	JJ
work_r3pghfglovc7bfij3ji2caiioy	59	3	Techniques	technique	NNS
work_r3pghfglovc7bfij3ji2caiioy	59	4	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	59	5	ease	ease	NN
work_r3pghfglovc7bfij3ji2caiioy	59	6	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	59	7	classical	classical	JJ
work_r3pghfglovc7bfij3ji2caiioy	59	8	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	59	9	recombinant	recombinant	JJ
work_r3pghfglovc7bfij3ji2caiioy	59	10	genetic	genetic	JJ
work_r3pghfglovc7bfij3ji2caiioy	59	11	approaches	approach	NNS
work_r3pghfglovc7bfij3ji2caiioy	59	12	has	have	VBZ
work_r3pghfglovc7bfij3ji2caiioy	59	13	made	make	VBN
work_r3pghfglovc7bfij3ji2caiioy	59	14	it	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	59	15	possible	possible	JJ
work_r3pghfglovc7bfij3ji2caiioy	59	16	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	59	17	define	define	VB
work_r3pghfglovc7bfij3ji2caiioy	59	18	many	many	JJ
work_r3pghfglovc7bfij3ji2caiioy	59	19	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	59	20	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	59	21	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	59	22	cerevisiae	cerevisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	59	23	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	60	1	Standard	standard	JJ
work_r3pghfglovc7bfij3ji2caiioy	60	2	procedures	procedure	NNS
work_r3pghfglovc7bfij3ji2caiioy	60	3	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	60	4	mutagenesis	mutagenesis	NN
work_r3pghfglovc7bfij3ji2caiioy	60	5	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	60	6	genetic	genetic	JJ
work_r3pghfglovc7bfij3ji2caiioy	60	7	screens	screen	NNS
work_r3pghfglovc7bfij3ji2caiioy	60	8	have	have	VBP
work_r3pghfglovc7bfij3ji2caiioy	60	9	been	be	VBN
work_r3pghfglovc7bfij3ji2caiioy	60	10	extremely	extremely	RB
work_r3pghfglovc7bfij3ji2caiioy	60	11	useful	useful	JJ
work_r3pghfglovc7bfij3ji2caiioy	60	12	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	60	13	defining	define	VBG
work_r3pghfglovc7bfij3ji2caiioy	60	14	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	60	15	functions	function	NNS
work_r3pghfglovc7bfij3ji2caiioy	60	16	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	60	17	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	60	18	cerevisiae	cerevisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	60	19	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	61	1	However	however	RB
work_r3pghfglovc7bfij3ji2caiioy	61	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	61	3	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	61	4	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	61	5	target	target	NN
work_r3pghfglovc7bfij3ji2caiioy	61	6	size	size	NN
work_r3pghfglovc7bfij3ji2caiioy	61	7	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	61	8	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	61	9	makes	make	VBZ
work_r3pghfglovc7bfij3ji2caiioy	61	10	them	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	61	11	difficult	difficult	JJ
work_r3pghfglovc7bfij3ji2caiioy	61	12	targets	target	NNS
work_r3pghfglovc7bfij3ji2caiioy	61	13	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	61	14	mutagenesis	mutagenesis	NN
work_r3pghfglovc7bfij3ji2caiioy	61	15	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	62	1	Computational	Computational	NNP
work_r3pghfglovc7bfij3ji2caiioy	62	2	Biology	Biology	NNP
work_r3pghfglovc7bfij3ji2caiioy	62	3	Approaches	approach	NNS
work_r3pghfglovc7bfij3ji2caiioy	62	4	Probably	probably	RB
work_r3pghfglovc7bfij3ji2caiioy	62	5	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	62	6	most	most	RBS
work_r3pghfglovc7bfij3ji2caiioy	62	7	powerful	powerful	JJ
work_r3pghfglovc7bfij3ji2caiioy	62	8	compu-	compu-	JJ
work_r3pghfglovc7bfij3ji2caiioy	62	9	tational	tational	JJ
work_r3pghfglovc7bfij3ji2caiioy	62	10	tool	tool	NN
work_r3pghfglovc7bfij3ji2caiioy	62	11	available	available	JJ
work_r3pghfglovc7bfij3ji2caiioy	62	12	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	62	13	homology	homology	NN
work_r3pghfglovc7bfij3ji2caiioy	62	14	searching	search	VBG
work_r3pghfglovc7bfij3ji2caiioy	62	15	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	63	1	A	a	DT
work_r3pghfglovc7bfij3ji2caiioy	63	2	six	six	CD
work_r3pghfglovc7bfij3ji2caiioy	63	3	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	63	4	frame	frame	NN
work_r3pghfglovc7bfij3ji2caiioy	63	5	translation	translation	NN
work_r3pghfglovc7bfij3ji2caiioy	63	6	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	63	7	Figure	figure	NN
work_r3pghfglovc7bfij3ji2caiioy	63	8	1	1	CD
work_r3pghfglovc7bfij3ji2caiioy	63	9	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	63	10	total	total	JJ
work_r3pghfglovc7bfij3ji2caiioy	63	11	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	63	12	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	63	13	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	63	14	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	63	15	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	63	16	indicated	indicate	VBN
work_r3pghfglovc7bfij3ji2caiioy	63	17	length	length	NN
work_r3pghfglovc7bfij3ji2caiioy	63	18	encoded	encode	VBN
work_r3pghfglovc7bfij3ji2caiioy	63	19	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	63	20	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	63	21	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	63	22	cerevisiae	cerevisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	63	23	genome	genome	NN
work_r3pghfglovc7bfij3ji2caiioy	63	24	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	63	25	shown	show	VBN
work_r3pghfglovc7bfij3ji2caiioy	63	26	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	63	27	red	red	NN
work_r3pghfglovc7bfij3ji2caiioy	63	28	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	64	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	64	2	total	total	JJ
work_r3pghfglovc7bfij3ji2caiioy	64	3	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	64	4	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	64	5	annotated	annotate	VBN
work_r3pghfglovc7bfij3ji2caiioy	64	6	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	64	7	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	64	8	SGD	SGD	NNP
work_r3pghfglovc7bfij3ji2caiioy	64	9	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	64	10	plotted	plot	VBN
work_r3pghfglovc7bfij3ji2caiioy	64	11	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	64	12	green	green	NN
work_r3pghfglovc7bfij3ji2caiioy	64	13	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	65	1	Note	note	VB
work_r3pghfglovc7bfij3ji2caiioy	65	2	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	65	3	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	65	4	scale	scale	NN
work_r3pghfglovc7bfij3ji2caiioy	65	5	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	65	6	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	65	7	total	total	JJ
work_r3pghfglovc7bfij3ji2caiioy	65	8	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	65	9	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	65	10	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	65	11	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	65	12	100-fold	100-fold	CD
work_r3pghfglovc7bfij3ji2caiioy	65	13	compressed	compress	VBN
work_r3pghfglovc7bfij3ji2caiioy	65	14	relative	relative	JJ
work_r3pghfglovc7bfij3ji2caiioy	65	15	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	65	16	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	65	17	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	65	18	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	65	19	anno-	anno-	JJ
work_r3pghfglovc7bfij3ji2caiioy	65	20	tated	tated	JJ
work_r3pghfglovc7bfij3ji2caiioy	65	21	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	65	22	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	66	1	Therefore	therefore	RB
work_r3pghfglovc7bfij3ji2caiioy	66	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	66	3	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	66	4	difference	difference	NN
work_r3pghfglovc7bfij3ji2caiioy	66	5	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	66	6	magnitude	magnitude	NN
work_r3pghfglovc7bfij3ji2caiioy	66	7	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	66	8	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	66	9	curves	curve	NNS
work_r3pghfglovc7bfij3ji2caiioy	66	10	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	66	11	actually	actually	RB
work_r3pghfglovc7bfij3ji2caiioy	66	12	under	under	RB
work_r3pghfglovc7bfij3ji2caiioy	66	13	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	66	14	represented	represent	VBN
work_r3pghfglovc7bfij3ji2caiioy	66	15	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	66	16	100-fold	100-fold	CD
work_r3pghfglovc7bfij3ji2caiioy	66	17	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	67	1	A	a	DT
work_r3pghfglovc7bfij3ji2caiioy	67	2	curve	curve	NN
work_r3pghfglovc7bfij3ji2caiioy	67	3	shaped	shape	VBN
work_r3pghfglovc7bfij3ji2caiioy	67	4	similarly	similarly	RB
work_r3pghfglovc7bfij3ji2caiioy	67	5	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	67	6	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	67	7	red	red	JJ
work_r3pghfglovc7bfij3ji2caiioy	67	8	curve	curve	NN
work_r3pghfglovc7bfij3ji2caiioy	67	9	but	but	CC
work_r3pghfglovc7bfij3ji2caiioy	67	10	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	67	11	smaller	small	JJR
work_r3pghfglovc7bfij3ji2caiioy	67	12	amplitude	amplitude	NN
work_r3pghfglovc7bfij3ji2caiioy	67	13	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	67	14	obtained	obtain	VBN
work_r3pghfglovc7bfij3ji2caiioy	67	15	if	if	IN
work_r3pghfglovc7bfij3ji2caiioy	67	16	only	only	RB
work_r3pghfglovc7bfij3ji2caiioy	67	17	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	67	18	interfeature	interfeature	NN
work_r3pghfglovc7bfij3ji2caiioy	67	19	regions	region	NNS
work_r3pghfglovc7bfij3ji2caiioy	67	20	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	67	21	searched	search	VBN
work_r3pghfglovc7bfij3ji2caiioy	67	22	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	67	23	total	total	JJ
work_r3pghfglovc7bfij3ji2caiioy	67	24	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	67	25	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	67	26	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	67	27	shown	show	VBN
work_r3pghfglovc7bfij3ji2caiioy	67	28	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	67	29	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	68	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	68	2	black	black	JJ
work_r3pghfglovc7bfij3ji2caiioy	68	3	vertical	vertical	JJ
work_r3pghfglovc7bfij3ji2caiioy	68	4	line	line	NN
work_r3pghfglovc7bfij3ji2caiioy	68	5	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	68	6	100	100	CD
work_r3pghfglovc7bfij3ji2caiioy	68	7	amino	amino	JJ
work_r3pghfglovc7bfij3ji2caiioy	68	8	acids	acid	NNS
work_r3pghfglovc7bfij3ji2caiioy	68	9	indicates	indicate	VBZ
work_r3pghfglovc7bfij3ji2caiioy	68	10	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	68	11	cutoff	cutoff	NN
work_r3pghfglovc7bfij3ji2caiioy	68	12	chosen	choose	VBN
work_r3pghfglovc7bfij3ji2caiioy	68	13	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	68	14	annotating	annotate	VBG
work_r3pghfglovc7bfij3ji2caiioy	68	15	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	68	16	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	68	17	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	69	1	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	69	2	We	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	69	3	thank	thank	VBP
work_r3pghfglovc7bfij3ji2caiioy	69	4	M.	M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	69	5	Cherry	Cherry	NNP
work_r3pghfglovc7bfij3ji2caiioy	69	6	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	69	7	SGD	SGD	NNP
work_r3pghfglovc7bfij3ji2caiioy	69	8	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	69	9	kindly	kindly	RB
work_r3pghfglovc7bfij3ji2caiioy	69	10	providing	provide	VBG
work_r3pghfglovc7bfij3ji2caiioy	69	11	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	69	12	data	datum	NNS
work_r3pghfglovc7bfij3ji2caiioy	69	13	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	69	14	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	69	15	graph	graph	NN
work_r3pghfglovc7bfij3ji2caiioy	69	16	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	69	17	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	70	1	Insight	Insight	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	2	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	70	3	Outlook	Outlook	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	4	GENOME	GENOME	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	5	RESEARCH	research	NN
work_r3pghfglovc7bfij3ji2caiioy	70	6	769	769	CD
work_r3pghfglovc7bfij3ji2caiioy	70	7	Cold	Cold	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	8	Spring	Spring	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	9	Harbor	Harbor	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	10	Laboratory	Laboratory	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	11	Press	Press	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	12	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	70	13	April	April	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	14	5	5	CD
work_r3pghfglovc7bfij3ji2caiioy	70	15	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	70	16	2021	2021	CD
work_r3pghfglovc7bfij3ji2caiioy	70	17	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	70	18	Published	publish	VBN
work_r3pghfglovc7bfij3ji2caiioy	70	19	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	70	20	genome.cshlp.orgDownloaded	genome.cshlp.orgDownloaded	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	21	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	70	22	http://genome.cshlp.org/	http://genome.cshlp.org/	CD
work_r3pghfglovc7bfij3ji2caiioy	70	23	http://www.cshlpress.com	http://www.cshlpress.com	ADD
work_r3pghfglovc7bfij3ji2caiioy	70	24	each	each	DT
work_r3pghfglovc7bfij3ji2caiioy	70	25	intergenic	intergenic	JJ
work_r3pghfglovc7bfij3ji2caiioy	70	26	region	region	NN
work_r3pghfglovc7bfij3ji2caiioy	70	27	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	70	28	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	70	29	genome	genome	NN
work_r3pghfglovc7bfij3ji2caiioy	70	30	could	could	MD
work_r3pghfglovc7bfij3ji2caiioy	70	31	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	70	32	individually	individually	RB
work_r3pghfglovc7bfij3ji2caiioy	70	33	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	70	34	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	70	35	database	database	NN
work_r3pghfglovc7bfij3ji2caiioy	70	36	searches	search	NNS
work_r3pghfglovc7bfij3ji2caiioy	70	37	against	against	IN
work_r3pghfglovc7bfij3ji2caiioy	70	38	expressed	express	VBN
work_r3pghfglovc7bfij3ji2caiioy	70	39	sequence	sequence	NN
work_r3pghfglovc7bfij3ji2caiioy	70	40	tag	tag	NN
work_r3pghfglovc7bfij3ji2caiioy	70	41	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	70	42	EST	EST	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	43	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	70	44	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	70	45	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	70	46	databases	database	NNS
work_r3pghfglovc7bfij3ji2caiioy	70	47	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	70	48	identify	identify	VB
work_r3pghfglovc7bfij3ji2caiioy	70	49	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	50	corresponding	correspond	VBG
work_r3pghfglovc7bfij3ji2caiioy	70	51	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	70	52	evolutionarily	evolutionarily	RB
work_r3pghfglovc7bfij3ji2caiioy	70	53	conserved	conserve	VBN
work_r3pghfglovc7bfij3ji2caiioy	70	54	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	70	55	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	70	56	Koonin	Koonin	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	57	et	et	FW
work_r3pghfglovc7bfij3ji2caiioy	70	58	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	70	59	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	71	1	1994	1994	LS
work_r3pghfglovc7bfij3ji2caiioy	71	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	71	3	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	72	1	A	a	DT
work_r3pghfglovc7bfij3ji2caiioy	72	2	second	second	JJ
work_r3pghfglovc7bfij3ji2caiioy	72	3	approach	approach	NN
work_r3pghfglovc7bfij3ji2caiioy	72	4	would	would	MD
work_r3pghfglovc7bfij3ji2caiioy	72	5	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	72	6	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	72	7	generate	generate	VB
work_r3pghfglovc7bfij3ji2caiioy	72	8	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	72	9	database	database	NN
work_r3pghfglovc7bfij3ji2caiioy	72	10	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	72	11	all	all	DT
work_r3pghfglovc7bfij3ji2caiioy	72	12	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	72	13	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	72	14	search	search	VB
work_r3pghfglovc7bfij3ji2caiioy	72	15	their	-PRON-	PRP$
work_r3pghfglovc7bfij3ji2caiioy	72	16	58	58	CD
work_r3pghfglovc7bfij3ji2caiioy	72	17	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	72	18	38	38	CD
work_r3pghfglovc7bfij3ji2caiioy	72	19	noncoding	noncoding	NN
work_r3pghfglovc7bfij3ji2caiioy	72	20	regions	region	NNS
work_r3pghfglovc7bfij3ji2caiioy	72	21	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	72	22	conserved	conserved	JJ
work_r3pghfglovc7bfij3ji2caiioy	72	23	motifs	motif	NNS
work_r3pghfglovc7bfij3ji2caiioy	72	24	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	73	1	It	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	73	2	may	may	MD
work_r3pghfglovc7bfij3ji2caiioy	73	3	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	73	4	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	73	5	there	there	EX
work_r3pghfglovc7bfij3ji2caiioy	73	6	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	73	7	special	special	JJ
work_r3pghfglovc7bfij3ji2caiioy	73	8	problems	problem	NNS
work_r3pghfglovc7bfij3ji2caiioy	73	9	associated	associate	VBN
work_r3pghfglovc7bfij3ji2caiioy	73	10	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	73	11	ex-	ex-	XX
work_r3pghfglovc7bfij3ji2caiioy	73	12	pressing	press	VBG
work_r3pghfglovc7bfij3ji2caiioy	73	13	short	short	JJ
work_r3pghfglovc7bfij3ji2caiioy	73	14	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	73	15	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	73	16	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	73	17	there	there	EX
work_r3pghfglovc7bfij3ji2caiioy	73	18	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	73	19	special	special	JJ
work_r3pghfglovc7bfij3ji2caiioy	73	20	consensus	consensus	NN
work_r3pghfglovc7bfij3ji2caiioy	73	21	sequences	sequence	NNS
work_r3pghfglovc7bfij3ji2caiioy	73	22	involved	involve	VBN
work_r3pghfglovc7bfij3ji2caiioy	73	23	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	73	24	overcoming	overcome	VBG
work_r3pghfglovc7bfij3ji2caiioy	73	25	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	73	26	problems	problem	NNS
work_r3pghfglovc7bfij3ji2caiioy	73	27	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	74	1	Such	such	JJ
work_r3pghfglovc7bfij3ji2caiioy	74	2	nucleotide	nucleotide	JJ
work_r3pghfglovc7bfij3ji2caiioy	74	3	sequence	sequence	NN
work_r3pghfglovc7bfij3ji2caiioy	74	4	signals	signal	NNS
work_r3pghfglovc7bfij3ji2caiioy	74	5	could	could	MD
work_r3pghfglovc7bfij3ji2caiioy	74	6	then	then	RB
work_r3pghfglovc7bfij3ji2caiioy	74	7	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	74	8	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	74	9	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	74	10	probes	probe	NNS
work_r3pghfglovc7bfij3ji2caiioy	74	11	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	74	12	identify	identify	VB
work_r3pghfglovc7bfij3ji2caiioy	74	13	additional	additional	JJ
work_r3pghfglovc7bfij3ji2caiioy	74	14	candidates	candidate	NNS
work_r3pghfglovc7bfij3ji2caiioy	74	15	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	74	16	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	74	17	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	75	1	Serial	Serial	NNP
work_r3pghfglovc7bfij3ji2caiioy	75	2	Analysis	Analysis	NNP
work_r3pghfglovc7bfij3ji2caiioy	75	3	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	75	4	Gene	Gene	NNP
work_r3pghfglovc7bfij3ji2caiioy	75	5	Expression	Expression	NNP
work_r3pghfglovc7bfij3ji2caiioy	75	6	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	75	7	serial	serial	JJ
work_r3pghfglovc7bfij3ji2caiioy	75	8	analysis	analysis	NN
work_r3pghfglovc7bfij3ji2caiioy	75	9	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	75	10	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	75	11	expression	expression	NN
work_r3pghfglovc7bfij3ji2caiioy	75	12	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	75	13	SAGE	SAGE	NNP
work_r3pghfglovc7bfij3ji2caiioy	75	14	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	75	15	technique	technique	NN
work_r3pghfglovc7bfij3ji2caiioy	75	16	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	75	17	Velculescu	Velculescu	NNP
work_r3pghfglovc7bfij3ji2caiioy	75	18	et	et	NNP
work_r3pghfglovc7bfij3ji2caiioy	75	19	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	75	20	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	76	1	1995	1995	CD
work_r3pghfglovc7bfij3ji2caiioy	76	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	76	3	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	76	4	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	76	5	has	have	VBZ
work_r3pghfglovc7bfij3ji2caiioy	76	6	been	be	VBN
work_r3pghfglovc7bfij3ji2caiioy	76	7	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	76	8	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	76	9	identify	identify	VB
work_r3pghfglovc7bfij3ji2caiioy	76	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	76	11	quantitate	quantitate	VB
work_r3pghfglovc7bfij3ji2caiioy	76	12	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	76	13	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	76	14	compare	compare	VB
work_r3pghfglovc7bfij3ji2caiioy	76	15	global	global	JJ
work_r3pghfglovc7bfij3ji2caiioy	76	16	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	76	17	ex-	ex-	XX
work_r3pghfglovc7bfij3ji2caiioy	76	18	pression	pression	NN
work_r3pghfglovc7bfij3ji2caiioy	76	19	patterns	pattern	NNS
work_r3pghfglovc7bfij3ji2caiioy	76	20	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	76	21	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	76	22	cerevisiae	cerevisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	76	23	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	76	24	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	76	25	based	base	VBN
work_r3pghfglovc7bfij3ji2caiioy	76	26	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	76	27	two	two	CD
work_r3pghfglovc7bfij3ji2caiioy	76	28	principles	principle	NNS
work_r3pghfglovc7bfij3ji2caiioy	76	29	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	76	30	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	76	31	1	1	LS
work_r3pghfglovc7bfij3ji2caiioy	76	32	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	76	33	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	76	34	9-	9-	NNPS
work_r3pghfglovc7bfij3ji2caiioy	76	35	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	76	36	10-bp	10-bp	CD
work_r3pghfglovc7bfij3ji2caiioy	76	37	sequence	sequence	NN
work_r3pghfglovc7bfij3ji2caiioy	76	38	tag	tag	NN
work_r3pghfglovc7bfij3ji2caiioy	76	39	derived	derive	VBN
work_r3pghfglovc7bfij3ji2caiioy	76	40	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	76	41	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	76	42	defined	define	VBN
work_r3pghfglovc7bfij3ji2caiioy	76	43	re-	re-	JJ
work_r3pghfglovc7bfij3ji2caiioy	76	44	gion	gion	NN
work_r3pghfglovc7bfij3ji2caiioy	76	45	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	76	46	any	any	DT
work_r3pghfglovc7bfij3ji2caiioy	76	47	poly(A)+	poly(A)+	NNS
work_r3pghfglovc7bfij3ji2caiioy	76	48	transcript	transcript	NN
work_r3pghfglovc7bfij3ji2caiioy	76	49	uniquely	uniquely	RB
work_r3pghfglovc7bfij3ji2caiioy	76	50	identifies	identify	VBZ
work_r3pghfglovc7bfij3ji2caiioy	76	51	that	that	DT
work_r3pghfglovc7bfij3ji2caiioy	76	52	transcript	transcript	NN
work_r3pghfglovc7bfij3ji2caiioy	76	53	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	76	54	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	76	55	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	76	56	2	2	LS
work_r3pghfglovc7bfij3ji2caiioy	76	57	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	76	58	multiple	multiple	JJ
work_r3pghfglovc7bfij3ji2caiioy	76	59	tag	tag	NN
work_r3pghfglovc7bfij3ji2caiioy	76	60	sequences	sequence	NNS
work_r3pghfglovc7bfij3ji2caiioy	76	61	con-	con-	NNP
work_r3pghfglovc7bfij3ji2caiioy	76	62	catenated	catenate	VBD
work_r3pghfglovc7bfij3ji2caiioy	76	63	within	within	IN
work_r3pghfglovc7bfij3ji2caiioy	76	64	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	76	65	clone	clone	NN
work_r3pghfglovc7bfij3ji2caiioy	76	66	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	76	67	obtained	obtain	VBN
work_r3pghfglovc7bfij3ji2caiioy	76	68	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	76	69	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	76	70	single	single	JJ
work_r3pghfglovc7bfij3ji2caiioy	76	71	sequenc-	sequenc-	NN
work_r3pghfglovc7bfij3ji2caiioy	76	72	ing	ing	NN
work_r3pghfglovc7bfij3ji2caiioy	76	73	lane	lane	NN
work_r3pghfglovc7bfij3ji2caiioy	76	74	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	77	1	SAGE	SAGE	NNP
work_r3pghfglovc7bfij3ji2caiioy	77	2	identified	identify	VBD
work_r3pghfglovc7bfij3ji2caiioy	77	3	4665	4665	CD
work_r3pghfglovc7bfij3ji2caiioy	77	4	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	77	5	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	77	6	corresponding	correspond	VBG
work_r3pghfglovc7bfij3ji2caiioy	77	7	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	77	8	76	76	CD
work_r3pghfglovc7bfij3ji2caiioy	77	9	%	%	NN
work_r3pghfglovc7bfij3ji2caiioy	77	10	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	77	11	all	all	DT
work_r3pghfglovc7bfij3ji2caiioy	77	12	annotated	annotate	VBN
work_r3pghfglovc7bfij3ji2caiioy	77	13	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	77	14	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	77	15	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	77	16	tran-	tran-	NN
work_r3pghfglovc7bfij3ji2caiioy	77	17	script	script	NN
work_r3pghfglovc7bfij3ji2caiioy	77	18	levels	level	NNS
work_r3pghfglovc7bfij3ji2caiioy	77	19	ranging	range	VBG
work_r3pghfglovc7bfij3ji2caiioy	77	20	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	77	21	0.3	0.3	CD
work_r3pghfglovc7bfij3ji2caiioy	77	22	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	77	23	200	200	CD
work_r3pghfglovc7bfij3ji2caiioy	77	24	copies	copy	NNS
work_r3pghfglovc7bfij3ji2caiioy	77	25	per	per	IN
work_r3pghfglovc7bfij3ji2caiioy	77	26	cell	cell	NN
work_r3pghfglovc7bfij3ji2caiioy	77	27	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	78	1	In	in	IN
work_r3pghfglovc7bfij3ji2caiioy	78	2	addition	addition	NN
work_r3pghfglovc7bfij3ji2caiioy	78	3	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	78	4	identifying	identify	VBG
work_r3pghfglovc7bfij3ji2caiioy	78	5	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	78	6	predicted	predict	VBN
work_r3pghfglovc7bfij3ji2caiioy	78	7	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	78	8	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	78	9	genome	genome	JJ
work_r3pghfglovc7bfij3ji2caiioy	78	10	sequencing	sequencing	NN
work_r3pghfglovc7bfij3ji2caiioy	78	11	ef-	ef-	NN
work_r3pghfglovc7bfij3ji2caiioy	78	12	forts	fort	NNS
work_r3pghfglovc7bfij3ji2caiioy	78	13	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	78	14	SAGE	SAGE	NNP
work_r3pghfglovc7bfij3ji2caiioy	78	15	also	also	RB
work_r3pghfglovc7bfij3ji2caiioy	78	16	identified	identify	VBD
work_r3pghfglovc7bfij3ji2caiioy	78	17	∼160	∼160	NNP
work_r3pghfglovc7bfij3ji2caiioy	78	18	transcripts	transcript	NNS
work_r3pghfglovc7bfij3ji2caiioy	78	19	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	78	20	varying	vary	VBG
work_r3pghfglovc7bfij3ji2caiioy	78	21	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	78	22	1	1	CD
work_r3pghfglovc7bfij3ji2caiioy	78	23	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	78	24	94	94	CD
work_r3pghfglovc7bfij3ji2caiioy	78	25	copies	copy	NNS
work_r3pghfglovc7bfij3ji2caiioy	78	26	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	78	27	cell	cell	NN
work_r3pghfglovc7bfij3ji2caiioy	78	28	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	78	29	corresponding	correspond	VBG
work_r3pghfglovc7bfij3ji2caiioy	78	30	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	78	31	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	78	32	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	78	33	60–98	60–98	NN
work_r3pghfglovc7bfij3ji2caiioy	78	34	codons	codon	NNS
work_r3pghfglovc7bfij3ji2caiioy	78	35	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	79	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	79	2	30	30	CD
work_r3pghfglovc7bfij3ji2caiioy	79	3	most	most	RBS
work_r3pghfglovc7bfij3ji2caiioy	79	4	abundant	abundant	JJ
work_r3pghfglovc7bfij3ji2caiioy	79	5	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	79	6	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	79	7	transcripts	transcript	NNS
work_r3pghfglovc7bfij3ji2caiioy	79	8	were	be	VBD
work_r3pghfglovc7bfij3ji2caiioy	79	9	observed	observe	VBN
work_r3pghfglovc7bfij3ji2caiioy	79	10	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	79	11	least	least	JJS
work_r3pghfglovc7bfij3ji2caiioy	79	12	nine	nine	CD
work_r3pghfglovc7bfij3ji2caiioy	79	13	times	time	NNS
work_r3pghfglovc7bfij3ji2caiioy	79	14	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	80	1	Several	several	JJ
work_r3pghfglovc7bfij3ji2caiioy	80	2	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	80	3	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	80	4	corresponding	corresponding	JJ
work_r3pghfglovc7bfij3ji2caiioy	80	5	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	80	6	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	80	7	evolu-	evolu-	XX
work_r3pghfglovc7bfij3ji2caiioy	80	8	tionarily	tionarily	RB
work_r3pghfglovc7bfij3ji2caiioy	80	9	conserved	conserve	VBN
work_r3pghfglovc7bfij3ji2caiioy	80	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	80	11	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	80	12	at	at	RB
work_r3pghfglovc7bfij3ji2caiioy	80	13	least	least	JJS
work_r3pghfglovc7bfij3ji2caiioy	80	14	7	7	CD
work_r3pghfglovc7bfij3ji2caiioy	80	15	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	80	16	20	20	CD
work_r3pghfglovc7bfij3ji2caiioy	80	17	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	80	18	examined	examine	VBD
work_r3pghfglovc7bfij3ji2caiioy	80	19	have	have	VBP
work_r3pghfglovc7bfij3ji2caiioy	80	20	homologs	homolog	NNS
work_r3pghfglovc7bfij3ji2caiioy	80	21	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	80	22	human	human	NN
work_r3pghfglovc7bfij3ji2caiioy	80	23	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	80	24	mouse	mouse	NN
work_r3pghfglovc7bfij3ji2caiioy	80	25	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	80	26	or	or	CC
work_r3pghfglovc7bfij3ji2caiioy	80	27	C.	C.	NNP
work_r3pghfglovc7bfij3ji2caiioy	80	28	elegans	elegan	NNS
work_r3pghfglovc7bfij3ji2caiioy	80	29	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	81	1	Northern	northern	JJ
work_r3pghfglovc7bfij3ji2caiioy	81	2	blot	blot	NN
work_r3pghfglovc7bfij3ji2caiioy	81	3	analy-	analy-	NNS
work_r3pghfglovc7bfij3ji2caiioy	81	4	sis	sis	NN
work_r3pghfglovc7bfij3ji2caiioy	81	5	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	81	6	three	three	CD
work_r3pghfglovc7bfij3ji2caiioy	81	7	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	81	8	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	81	9	has	have	VBZ
work_r3pghfglovc7bfij3ji2caiioy	81	10	con-	con-	NN
work_r3pghfglovc7bfij3ji2caiioy	81	11	firmed	firm	VBN
work_r3pghfglovc7bfij3ji2caiioy	81	12	high	high	JJ
work_r3pghfglovc7bfij3ji2caiioy	81	13	level	level	NN
work_r3pghfglovc7bfij3ji2caiioy	81	14	expression	expression	NN
work_r3pghfglovc7bfij3ji2caiioy	81	15	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	82	1	Studies	study	NNS
work_r3pghfglovc7bfij3ji2caiioy	82	2	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	82	3	progress	progress	NN
work_r3pghfglovc7bfij3ji2caiioy	82	4	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	82	5	deter-	deter-	VB
work_r3pghfglovc7bfij3ji2caiioy	82	6	mine	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	82	7	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	82	8	expression	expression	NN
work_r3pghfglovc7bfij3ji2caiioy	82	9	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	82	10	transla-	transla-	NN
work_r3pghfglovc7bfij3ji2caiioy	82	11	tion	tion	NN
work_r3pghfglovc7bfij3ji2caiioy	82	12	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	82	13	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	82	14	possible	possible	JJ
work_r3pghfglovc7bfij3ji2caiioy	82	15	functions	function	NNS
work_r3pghfglovc7bfij3ji2caiioy	82	16	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	82	17	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	82	18	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	82	19	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	82	20	M.A.	M.A.	NNP
work_r3pghfglovc7bfij3ji2caiioy	83	1	Basrai	Basrai	NNP
work_r3pghfglovc7bfij3ji2caiioy	83	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	83	3	R.K.	R.K.	NNP
work_r3pghfglovc7bfij3ji2caiioy	83	4	Kitagawa	Kitagawa	NNP
work_r3pghfglovc7bfij3ji2caiioy	83	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	83	6	D.E	D.E	NNP
work_r3pghfglovc7bfij3ji2caiioy	83	7	Bassett	Bassett	NNP
work_r3pghfglovc7bfij3ji2caiioy	83	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	83	9	Jr.	Jr.	NNP
work_r3pghfglovc7bfij3ji2caiioy	83	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	83	11	V.E.	V.E.	NNP
work_r3pghfglovc7bfij3ji2caiioy	84	1	Velculescu	Velculescu	NNP
work_r3pghfglovc7bfij3ji2caiioy	84	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	84	3	B.	B.	NNP
work_r3pghfglovc7bfij3ji2caiioy	84	4	Vogelstein	Vogelstein	NNP
work_r3pghfglovc7bfij3ji2caiioy	84	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	84	6	K.	K.	NNP
work_r3pghfglovc7bfij3ji2caiioy	84	7	Kinzler	Kinzler	NNP
work_r3pghfglovc7bfij3ji2caiioy	84	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	84	9	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	84	10	P.	P.	NNP
work_r3pghfglovc7bfij3ji2caiioy	84	11	Hieter	Hieter	NNP
work_r3pghfglovc7bfij3ji2caiioy	84	12	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	84	13	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	84	14	prep	prep	NNP
work_r3pghfglovc7bfij3ji2caiioy	84	15	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	84	16	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	84	17	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	85	1	These	these	DT
work_r3pghfglovc7bfij3ji2caiioy	85	2	results	result	NNS
work_r3pghfglovc7bfij3ji2caiioy	85	3	suggest	suggest	VBP
work_r3pghfglovc7bfij3ji2caiioy	85	4	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	85	5	SAGE	SAGE	NNP
work_r3pghfglovc7bfij3ji2caiioy	85	6	can	can	MD
work_r3pghfglovc7bfij3ji2caiioy	85	7	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	85	8	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	85	9	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	85	10	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	85	11	genome	genome	NN
work_r3pghfglovc7bfij3ji2caiioy	85	12	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	85	13	wide	wide	JJ
work_r3pghfglovc7bfij3ji2caiioy	85	14	level	level	NN
work_r3pghfglovc7bfij3ji2caiioy	85	15	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	85	16	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	85	17	primary	primary	JJ
work_r3pghfglovc7bfij3ji2caiioy	85	18	screen	screen	NN
work_r3pghfglovc7bfij3ji2caiioy	85	19	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	85	20	identifying	identify	VBG
work_r3pghfglovc7bfij3ji2caiioy	85	21	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	85	22	encoding	encode	VBG
work_r3pghfglovc7bfij3ji2caiioy	85	23	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	85	24	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	85	25	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	85	26	predicted	predict	VBN
work_r3pghfglovc7bfij3ji2caiioy	85	27	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	85	28	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	85	29	genome	genome	JJ
work_r3pghfglovc7bfij3ji2caiioy	85	30	sequence	sequence	NN
work_r3pghfglovc7bfij3ji2caiioy	85	31	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	86	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	86	2	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	86	3	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	86	4	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	86	5	identified	identify	VBN
work_r3pghfglovc7bfij3ji2caiioy	86	6	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	86	7	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	86	8	limited	limit	VBN
work_r3pghfglovc7bfij3ji2caiioy	86	9	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	86	10	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	86	11	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	86	12	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	86	13	tags	tag	NNS
work_r3pghfglovc7bfij3ji2caiioy	86	14	analyzed	analyze	VBN
work_r3pghfglovc7bfij3ji2caiioy	86	15	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	86	16	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	86	17	physi-	physi-	JJ
work_r3pghfglovc7bfij3ji2caiioy	86	18	ological	ological	JJ
work_r3pghfglovc7bfij3ji2caiioy	86	19	state	state	NN
work_r3pghfglovc7bfij3ji2caiioy	86	20	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	86	21	which	which	WDT
work_r3pghfglovc7bfij3ji2caiioy	86	22	they	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	86	23	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	86	24	isolated	isolate	VBN
work_r3pghfglovc7bfij3ji2caiioy	86	25	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	86	26	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	86	27	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	86	28	restriction	restriction	NN
work_r3pghfglovc7bfij3ji2caiioy	86	29	enzyme	enzyme	NNS
work_r3pghfglovc7bfij3ji2caiioy	86	30	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	86	31	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	86	32	define	define	VB
work_r3pghfglovc7bfij3ji2caiioy	86	33	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	86	34	9-bp	9-bp	CD
work_r3pghfglovc7bfij3ji2caiioy	86	35	tag	tag	NN
work_r3pghfglovc7bfij3ji2caiioy	86	36	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	86	37	currently	currently	RB
work_r3pghfglovc7bfij3ji2caiioy	86	38	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	86	39	4-bp	4-bp	JJ
work_r3pghfglovc7bfij3ji2caiioy	86	40	cutter	cutter	NN
work_r3pghfglovc7bfij3ji2caiioy	86	41	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	86	42	NlaIII	NlaIII	NNP
work_r3pghfglovc7bfij3ji2caiioy	86	43	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	86	44	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	87	1	If	if	IN
work_r3pghfglovc7bfij3ji2caiioy	87	2	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	87	3	enzyme	enzyme	NNS
work_r3pghfglovc7bfij3ji2caiioy	87	4	does	do	VBZ
work_r3pghfglovc7bfij3ji2caiioy	87	5	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	87	6	cut	cut	VB
work_r3pghfglovc7bfij3ji2caiioy	87	7	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	87	8	cDNA	cdna	NN
work_r3pghfglovc7bfij3ji2caiioy	87	9	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	87	10	interest	interest	NN
work_r3pghfglovc7bfij3ji2caiioy	87	11	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	87	12	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	87	13	transcript	transcript	NN
work_r3pghfglovc7bfij3ji2caiioy	87	14	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	87	15	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	87	16	missed	miss	VBN
work_r3pghfglovc7bfij3ji2caiioy	87	17	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	88	1	A	a	DT
work_r3pghfglovc7bfij3ji2caiioy	88	2	possible	possible	JJ
work_r3pghfglovc7bfij3ji2caiioy	88	3	source	source	NN
work_r3pghfglovc7bfij3ji2caiioy	88	4	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	88	5	false	false	JJ
work_r3pghfglovc7bfij3ji2caiioy	88	6	positives	positive	NNS
work_r3pghfglovc7bfij3ji2caiioy	88	7	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	88	8	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	88	9	method	method	NN
work_r3pghfglovc7bfij3ji2caiioy	88	10	may	may	MD
work_r3pghfglovc7bfij3ji2caiioy	88	11	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	88	12	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	88	13	fortuitous	fortuitous	JJ
work_r3pghfglovc7bfij3ji2caiioy	88	14	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	88	15	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	88	16	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	88	17	38-untranslated	38-untranslated	CD
work_r3pghfglovc7bfij3ji2caiioy	88	18	region	region	NN
work_r3pghfglovc7bfij3ji2caiioy	88	19	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	88	20	UTR	UTR	NNP
work_r3pghfglovc7bfij3ji2caiioy	88	21	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	88	22	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	88	23	an-	an-	DT
work_r3pghfglovc7bfij3ji2caiioy	88	24	other	other	JJ
work_r3pghfglovc7bfij3ji2caiioy	88	25	transcript	transcript	NN
work_r3pghfglovc7bfij3ji2caiioy	88	26	could	could	MD
work_r3pghfglovc7bfij3ji2caiioy	88	27	show	show	VB
work_r3pghfglovc7bfij3ji2caiioy	88	28	up	up	RP
work_r3pghfglovc7bfij3ji2caiioy	88	29	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	88	30	poten-	poten-	NN
work_r3pghfglovc7bfij3ji2caiioy	88	31	tial	tial	NNP
work_r3pghfglovc7bfij3ji2caiioy	88	32	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	88	33	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	89	1	Transposon	Transposon	NNP
work_r3pghfglovc7bfij3ji2caiioy	89	2	Methods	Methods	NNP
work_r3pghfglovc7bfij3ji2caiioy	89	3	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	89	4	Yale	Yale	NNP
work_r3pghfglovc7bfij3ji2caiioy	89	5	Genome	Genome	NNP
work_r3pghfglovc7bfij3ji2caiioy	89	6	Analysis	Analysis	NNP
work_r3pghfglovc7bfij3ji2caiioy	89	7	Center	Center	NNP
work_r3pghfglovc7bfij3ji2caiioy	89	8	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	89	9	un-	un-	JJ
work_r3pghfglovc7bfij3ji2caiioy	89	10	dertaking	dertake	VBG
work_r3pghfglovc7bfij3ji2caiioy	89	11	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	89	12	large	large	JJ
work_r3pghfglovc7bfij3ji2caiioy	89	13	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	89	14	scale	scale	NN
work_r3pghfglovc7bfij3ji2caiioy	89	15	functional	functional	JJ
work_r3pghfglovc7bfij3ji2caiioy	89	16	analy-	analy-	NN
work_r3pghfglovc7bfij3ji2caiioy	89	17	sis	sis	NN
work_r3pghfglovc7bfij3ji2caiioy	89	18	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	89	19	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	89	20	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	89	21	cerevisiae	cerevisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	89	22	genome	genome	JJ
work_r3pghfglovc7bfij3ji2caiioy	89	23	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	90	1	Inser-	inser-	CD
work_r3pghfglovc7bfij3ji2caiioy	90	2	tional	tional	JJ
work_r3pghfglovc7bfij3ji2caiioy	90	3	mutagenesis	mutagenesis	NN
work_r3pghfglovc7bfij3ji2caiioy	90	4	based	base	VBN
work_r3pghfglovc7bfij3ji2caiioy	90	5	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	90	6	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	90	7	bacterial	bacterial	JJ
work_r3pghfglovc7bfij3ji2caiioy	90	8	Tn3	tn3	NN
work_r3pghfglovc7bfij3ji2caiioy	90	9	derivative	derivative	NN
work_r3pghfglovc7bfij3ji2caiioy	90	10	has	have	VBZ
work_r3pghfglovc7bfij3ji2caiioy	90	11	been	be	VBN
work_r3pghfglovc7bfij3ji2caiioy	90	12	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	90	13	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	90	14	create	create	VB
work_r3pghfglovc7bfij3ji2caiioy	90	15	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	90	16	Table	table	NN
work_r3pghfglovc7bfij3ji2caiioy	90	17	1	1	CD
work_r3pghfglovc7bfij3ji2caiioy	90	18	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	91	1	A	a	DT
work_r3pghfglovc7bfij3ji2caiioy	91	2	Sample	sample	NN
work_r3pghfglovc7bfij3ji2caiioy	91	3	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	91	4	Some	some	DT
work_r3pghfglovc7bfij3ji2caiioy	91	5	Proteins	Proteins	NNPS
work_r3pghfglovc7bfij3ji2caiioy	91	6	Encoded	encode	VBN
work_r3pghfglovc7bfij3ji2caiioy	91	7	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	91	8	smORFS	smORFS	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	9	YPD	YPD	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	10	namea	namea	NN
work_r3pghfglovc7bfij3ji2caiioy	91	11	CAIb	CAIb	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	12	Lengthc	Lengthc	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	13	Encodedd	Encodedd	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	14	Functione	Functione	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	15	AGA2	AGA2	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	16	0.088	0.088	CD
work_r3pghfglovc7bfij3ji2caiioy	91	17	88	88	CD
work_r3pghfglovc7bfij3ji2caiioy	91	18	N	N	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	19	A	A	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	20	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	91	21	agglutinin	agglutinin	NN
work_r3pghfglovc7bfij3ji2caiioy	91	22	binding	binding	NN
work_r3pghfglovc7bfij3ji2caiioy	91	23	subunit	subunit	NN
work_r3pghfglovc7bfij3ji2caiioy	91	24	ATP15	ATP15	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	25	0.167	0.167	CD
work_r3pghfglovc7bfij3ji2caiioy	91	26	63	63	CD
work_r3pghfglovc7bfij3ji2caiioy	91	27	M	M	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	28	F1–ATP	F1–ATP	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	29	synthase	synthase	NN
work_r3pghfglovc7bfij3ji2caiioy	91	30	epsilon	epsilon	NN
work_r3pghfglovc7bfij3ji2caiioy	91	31	subunit	subunit	NN
work_r3pghfglovc7bfij3ji2caiioy	91	32	ATP8	ATP8	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	33	0.226	0.226	CD
work_r3pghfglovc7bfij3ji2caiioy	91	34	48	48	CD
work_r3pghfglovc7bfij3ji2caiioy	91	35	M	M	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	36	F0–ATP	F0–ATP	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	37	synthase	synthase	NN
work_r3pghfglovc7bfij3ji2caiioy	91	38	subunit	subunit	VBD
work_r3pghfglovc7bfij3ji2caiioy	91	39	8	8	CD
work_r3pghfglovc7bfij3ji2caiioy	91	40	COX7	cox7	$
work_r3pghfglovc7bfij3ji2caiioy	91	41	0.204	0.204	CD
work_r3pghfglovc7bfij3ji2caiioy	91	42	61	61	CD
work_r3pghfglovc7bfij3ji2caiioy	91	43	M	m	NN
work_r3pghfglovc7bfij3ji2caiioy	91	44	cytochrome	cytochrome	NN
work_r3pghfglovc7bfij3ji2caiioy	91	45	c	c	NN
work_r3pghfglovc7bfij3ji2caiioy	91	46	oxidase	oxidase	NN
work_r3pghfglovc7bfij3ji2caiioy	91	47	subunit	subunit	NN
work_r3pghfglovc7bfij3ji2caiioy	91	48	VII	VII	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	49	COX8	COX8	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	50	0.224	0.224	CD
work_r3pghfglovc7bfij3ji2caiioy	91	51	79	79	CD
work_r3pghfglovc7bfij3ji2caiioy	91	52	M	m	NN
work_r3pghfglovc7bfij3ji2caiioy	91	53	cytochrome	cytochrome	NN
work_r3pghfglovc7bfij3ji2caiioy	91	54	c	c	NN
work_r3pghfglovc7bfij3ji2caiioy	91	55	oxidase	oxidase	NN
work_r3pghfglovc7bfij3ji2caiioy	91	56	subunit	subunit	NN
work_r3pghfglovc7bfij3ji2caiioy	91	57	VIII	VIII	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	58	COX9	COX9	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	59	0.264	0.264	CD
work_r3pghfglovc7bfij3ji2caiioy	91	60	60	60	CD
work_r3pghfglovc7bfij3ji2caiioy	91	61	M	m	NN
work_r3pghfglovc7bfij3ji2caiioy	91	62	cytochrome	cytochrome	NN
work_r3pghfglovc7bfij3ji2caiioy	91	63	c	c	NN
work_r3pghfglovc7bfij3ji2caiioy	91	64	oxidase	oxidase	NN
work_r3pghfglovc7bfij3ji2caiioy	91	65	chain	chain	NN
work_r3pghfglovc7bfij3ji2caiioy	91	66	VIIA	VIIA	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	67	CRS5	CRS5	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	68	0.233	0.233	CD
work_r3pghfglovc7bfij3ji2caiioy	91	69	70	70	CD
work_r3pghfglovc7bfij3ji2caiioy	91	70	N	n	CD
work_r3pghfglovc7bfij3ji2caiioy	91	71	metallothionein	metallothionein	NN
work_r3pghfglovc7bfij3ji2caiioy	91	72	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	91	73	like	like	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	74	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	91	75	CUP1A	cup1a	CD
work_r3pghfglovc7bfij3ji2caiioy	91	76	0.226	0.226	CD
work_r3pghfglovc7bfij3ji2caiioy	91	77	62	62	CD
work_r3pghfglovc7bfij3ji2caiioy	91	78	N	n	CD
work_r3pghfglovc7bfij3ji2caiioy	91	79	metallothionein	metallothionein	NNS
work_r3pghfglovc7bfij3ji2caiioy	91	80	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	91	81	copper	copper	NN
work_r3pghfglovc7bfij3ji2caiioy	91	82	chelatin	chelatin	NN
work_r3pghfglovc7bfij3ji2caiioy	91	83	CUP1B	CUP1B	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	91	84	0.226	0.226	CD
work_r3pghfglovc7bfij3ji2caiioy	91	85	62	62	CD
work_r3pghfglovc7bfij3ji2caiioy	91	86	N	n	CD
work_r3pghfglovc7bfij3ji2caiioy	91	87	metallothionein	metallothionein	NNS
work_r3pghfglovc7bfij3ji2caiioy	91	88	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	91	89	copper	copper	NN
work_r3pghfglovc7bfij3ji2caiioy	91	90	chelatin	chelatin	NN
work_r3pghfglovc7bfij3ji2caiioy	91	91	CWP2	CWP2	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	92	0.747	0.747	CD
work_r3pghfglovc7bfij3ji2caiioy	91	93	93	93	CD
work_r3pghfglovc7bfij3ji2caiioy	91	94	N	N	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	95	Cell	Cell	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	96	wall	wall	NN
work_r3pghfglovc7bfij3ji2caiioy	91	97	mannoprotein	mannoprotein	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	98	DDR2	DDR2	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	99	0.297	0.297	CD
work_r3pghfglovc7bfij3ji2caiioy	91	100	62	62	CD
work_r3pghfglovc7bfij3ji2caiioy	91	101	N	n	CD
work_r3pghfglovc7bfij3ji2caiioy	91	102	stress	stress	NN
work_r3pghfglovc7bfij3ji2caiioy	91	103	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	91	104	HOR7	HOR7	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	105	0.365	0.365	CD
work_r3pghfglovc7bfij3ji2caiioy	91	106	60	60	CD
work_r3pghfglovc7bfij3ji2caiioy	91	107	N	n	CC
work_r3pghfglovc7bfij3ji2caiioy	91	108	hyperosmolarity	hyperosmolarity	NN
work_r3pghfglovc7bfij3ji2caiioy	91	109	responsive	responsive	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	110	INH1	INH1	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	111	0.130	0.130	CD
work_r3pghfglovc7bfij3ji2caiioy	91	112	86	86	CD
work_r3pghfglovc7bfij3ji2caiioy	91	113	M	M	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	114	mitochondrial	mitochondrial	NN
work_r3pghfglovc7bfij3ji2caiioy	91	115	ATPase	atpase	NN
work_r3pghfglovc7bfij3ji2caiioy	91	116	inhibitor	inhibitor	NN
work_r3pghfglovc7bfij3ji2caiioy	91	117	MFA1	MFA1	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	118	0.556	0.556	CD
work_r3pghfglovc7bfij3ji2caiioy	91	119	37	37	CD
work_r3pghfglovc7bfij3ji2caiioy	91	120	N	N	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	121	Mating	Mating	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	122	pheromone	pheromone	NN
work_r3pghfglovc7bfij3ji2caiioy	91	123	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	91	124	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	91	125	factor	factor	NN
work_r3pghfglovc7bfij3ji2caiioy	91	126	MFA2	MFA2	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	127	0.271	0.271	CD
work_r3pghfglovc7bfij3ji2caiioy	91	128	39	39	CD
work_r3pghfglovc7bfij3ji2caiioy	91	129	N	N	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	130	Mating	Mating	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	131	pheromone	pheromone	NN
work_r3pghfglovc7bfij3ji2caiioy	91	132	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	91	133	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	91	134	factor	factor	NN
work_r3pghfglovc7bfij3ji2caiioy	91	135	OST4	ost4	IN
work_r3pghfglovc7bfij3ji2caiioy	91	136	0.461	0.461	CD
work_r3pghfglovc7bfij3ji2caiioy	91	137	37	37	CD
work_r3pghfglovc7bfij3ji2caiioy	91	138	N	n	CC
work_r3pghfglovc7bfij3ji2caiioy	91	139	oligosaccharyltransferase	oligosaccharyltransferase	NN
work_r3pghfglovc7bfij3ji2caiioy	91	140	subunit	subunit	NN
work_r3pghfglovc7bfij3ji2caiioy	91	141	PMP1	PMP1	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	142	0.672	0.672	CD
work_r3pghfglovc7bfij3ji2caiioy	91	143	41	41	CD
work_r3pghfglovc7bfij3ji2caiioy	91	144	N	n	CD
work_r3pghfglovc7bfij3ji2caiioy	91	145	plasma	plasma	NN
work_r3pghfglovc7bfij3ji2caiioy	91	146	membrane	membrane	NN
work_r3pghfglovc7bfij3ji2caiioy	91	147	proteolipid	proteolipid	NN
work_r3pghfglovc7bfij3ji2caiioy	91	148	PMP2	PMP2	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	149	N.D.	North Dakota	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	150	44	44	CD
work_r3pghfglovc7bfij3ji2caiioy	91	151	N	n	CD
work_r3pghfglovc7bfij3ji2caiioy	91	152	plasma	plasma	NN
work_r3pghfglovc7bfij3ji2caiioy	91	153	membrane	membrane	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	154	proteolipid	proteolipid	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	155	RPL47A	RPL47A	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	156	0.417	0.417	CD
work_r3pghfglovc7bfij3ji2caiioy	91	157	26	26	CD
work_r3pghfglovc7bfij3ji2caiioy	91	158	N	n	CC
work_r3pghfglovc7bfij3ji2caiioy	91	159	ribosomal	ribosomal	NN
work_r3pghfglovc7bfij3ji2caiioy	91	160	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	91	161	RPL47B	rpl47b	CD
work_r3pghfglovc7bfij3ji2caiioy	91	162	0.438	0.438	CD
work_r3pghfglovc7bfij3ji2caiioy	91	163	26	26	CD
work_r3pghfglovc7bfij3ji2caiioy	91	164	N	n	CC
work_r3pghfglovc7bfij3ji2caiioy	91	165	ribosomal	ribosomal	NN
work_r3pghfglovc7bfij3ji2caiioy	91	166	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	91	167	SAE3	SAE3	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	168	0.107	0.107	CD
work_r3pghfglovc7bfij3ji2caiioy	91	169	51	51	CD
work_r3pghfglovc7bfij3ji2caiioy	91	170	N	n	CD
work_r3pghfglovc7bfij3ji2caiioy	91	171	meiotic	meiotic	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	172	recombination	recombination	NN
work_r3pghfglovc7bfij3ji2caiioy	91	173	pathway	pathway	NN
work_r3pghfglovc7bfij3ji2caiioy	91	174	SCH1	SCH1	.
work_r3pghfglovc7bfij3ji2caiioy	91	175	0.188	0.188	CD
work_r3pghfglovc7bfij3ji2caiioy	91	176	55	55	CD
work_r3pghfglovc7bfij3ji2caiioy	91	177	N	n	NN
work_r3pghfglovc7bfij3ji2caiioy	91	178	similar	similar	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	179	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	91	180	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	91	181	kinase	kinase	VBD
work_r3pghfglovc7bfij3ji2caiioy	91	182	A	a	DT
work_r3pghfglovc7bfij3ji2caiioy	91	183	inhibitor	inhibitor	NN
work_r3pghfglovc7bfij3ji2caiioy	91	184	STF1	stf1	ADD
work_r3pghfglovc7bfij3ji2caiioy	91	185	0.171	0.171	CD
work_r3pghfglovc7bfij3ji2caiioy	91	186	86	86	CD
work_r3pghfglovc7bfij3ji2caiioy	91	187	M	M	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	188	ATPase	ATPase	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	189	stabilizing	stabilize	VBG
work_r3pghfglovc7bfij3ji2caiioy	91	190	factor	factor	NN
work_r3pghfglovc7bfij3ji2caiioy	91	191	TOM6	tom6	CD
work_r3pghfglovc7bfij3ji2caiioy	91	192	0.300	0.300	CD
work_r3pghfglovc7bfij3ji2caiioy	91	193	62	62	CD
work_r3pghfglovc7bfij3ji2caiioy	91	194	M	m	NN
work_r3pghfglovc7bfij3ji2caiioy	91	195	mitochondrial	mitochondrial	NN
work_r3pghfglovc7bfij3ji2caiioy	91	196	integral	integral	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	197	outer	outer	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	198	membrane	membrane	NN
work_r3pghfglovc7bfij3ji2caiioy	91	199	TOM7	TOM7	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	200	0.222	0.222	CD
work_r3pghfglovc7bfij3ji2caiioy	91	201	61	61	CD
work_r3pghfglovc7bfij3ji2caiioy	91	202	M	M	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	203	subunit	subunit	NN
work_r3pghfglovc7bfij3ji2caiioy	91	204	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	91	205	mitochondrial	mitochondrial	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	206	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	91	207	translocase	translocase	NN
work_r3pghfglovc7bfij3ji2caiioy	91	208	YAR020C	YAR020C	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	91	209	0.482	0.482	CD
work_r3pghfglovc7bfij3ji2caiioy	91	210	56	56	CD
work_r3pghfglovc7bfij3ji2caiioy	91	211	N	n	CC
work_r3pghfglovc7bfij3ji2caiioy	91	212	similar	similar	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	213	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	91	214	PAU3	PAU3	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	215	YS29A	ys29a	ADD
work_r3pghfglovc7bfij3ji2caiioy	91	216	0.652	0.652	CD
work_r3pghfglovc7bfij3ji2caiioy	91	217	57	57	CD
work_r3pghfglovc7bfij3ji2caiioy	91	218	N	n	CC
work_r3pghfglovc7bfij3ji2caiioy	91	219	ribosomal	ribosomal	NN
work_r3pghfglovc7bfij3ji2caiioy	91	220	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	91	221	YS29B	YS29B	.
work_r3pghfglovc7bfij3ji2caiioy	91	222	0.760	0.760	CD
work_r3pghfglovc7bfij3ji2caiioy	91	223	57	57	CD
work_r3pghfglovc7bfij3ji2caiioy	91	224	N	n	CD
work_r3pghfglovc7bfij3ji2caiioy	91	225	ribosomal	ribosomal	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	226	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	91	227	YSY6	YSY6	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	228	0.160	0.160	CD
work_r3pghfglovc7bfij3ji2caiioy	91	229	66	66	CD
work_r3pghfglovc7bfij3ji2caiioy	91	230	N	n	CC
work_r3pghfglovc7bfij3ji2caiioy	91	231	secretory	secretory	NN
work_r3pghfglovc7bfij3ji2caiioy	91	232	pathway	pathway	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	233	ACB1	acb1	$
work_r3pghfglovc7bfij3ji2caiioy	91	234	0.360	0.360	CD
work_r3pghfglovc7bfij3ji2caiioy	91	235	88	88	CD
work_r3pghfglovc7bfij3ji2caiioy	91	236	N	n	CC
work_r3pghfglovc7bfij3ji2caiioy	91	237	acyl	acyl	NNS
work_r3pghfglovc7bfij3ji2caiioy	91	238	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	91	239	coenzyme	coenzyme	NNS
work_r3pghfglovc7bfij3ji2caiioy	91	240	A	a	NN
work_r3pghfglovc7bfij3ji2caiioy	91	241	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	91	242	binding	bind	VBG
work_r3pghfglovc7bfij3ji2caiioy	91	243	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	91	244	ATP9	ATP9	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	245	N.D.	North Dakota	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	246	76	76	CD
work_r3pghfglovc7bfij3ji2caiioy	91	247	M	M	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	248	F0–ATP	F0–ATP	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	249	synthase	synthase	NN
work_r3pghfglovc7bfij3ji2caiioy	91	250	subunit	subunit	VBD
work_r3pghfglovc7bfij3ji2caiioy	91	251	9	9	CD
work_r3pghfglovc7bfij3ji2caiioy	91	252	ATX1	atx1	CD
work_r3pghfglovc7bfij3ji2caiioy	91	253	0.169	0.169	CD
work_r3pghfglovc7bfij3ji2caiioy	91	254	74	74	CD
work_r3pghfglovc7bfij3ji2caiioy	91	255	N	n	NN
work_r3pghfglovc7bfij3ji2caiioy	91	256	metal	metal	NN
work_r3pghfglovc7bfij3ji2caiioy	91	257	homeostasis	homeostasis	NN
work_r3pghfglovc7bfij3ji2caiioy	91	258	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	91	259	antioxidant	antioxidant	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	260	a(YPD	a(YPD	''
work_r3pghfglovc7bfij3ji2caiioy	91	261	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	91	262	Yeast	Yeast	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	263	Protein	Protein	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	264	Database	Database	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	265	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	91	266	http://www.proteome.com/search1/html	http://www.proteome.com/search1/html	NNP
work_r3pghfglovc7bfij3ji2caiioy	91	267	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	91	268	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	91	269	searched	search	VBD
work_r3pghfglovc7bfij3ji2caiioy	91	270	using	use	VBG
work_r3pghfglovc7bfij3ji2caiioy	91	271	category	category	NN
work_r3pghfglovc7bfij3ji2caiioy	91	272	10	10	CD
work_r3pghfglovc7bfij3ji2caiioy	91	273	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	91	274	molecular	molecular	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	275	mass	mass	JJ
work_r3pghfglovc7bfij3ji2caiioy	91	276	ø7.5	ø7.5	VBN
work_r3pghfglovc7bfij3ji2caiioy	91	277	kD.	kD.	NNP
work_r3pghfglovc7bfij3ji2caiioy	92	1	b(CAI	b(cai	LS
work_r3pghfglovc7bfij3ji2caiioy	92	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	92	3	Codon	Codon	NNP
work_r3pghfglovc7bfij3ji2caiioy	92	4	adaptation	adaptation	NN
work_r3pghfglovc7bfij3ji2caiioy	92	5	index	index	NN
work_r3pghfglovc7bfij3ji2caiioy	92	6	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	92	7	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	92	8	indicated	indicate	VBN
work_r3pghfglovc7bfij3ji2caiioy	92	9	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	92	10	YPD	YPD	NNP
work_r3pghfglovc7bfij3ji2caiioy	92	11	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	93	1	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	93	2	N.D.	North Dakota	NNP
work_r3pghfglovc7bfij3ji2caiioy	93	3	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	93	4	Not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	93	5	determined	determined	JJ
work_r3pghfglovc7bfij3ji2caiioy	93	6	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	94	1	cLength	clength	NN
work_r3pghfglovc7bfij3ji2caiioy	94	2	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	94	3	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	94	4	primary	primary	JJ
work_r3pghfglovc7bfij3ji2caiioy	94	5	translation	translation	NN
work_r3pghfglovc7bfij3ji2caiioy	94	6	product	product	NN
work_r3pghfglovc7bfij3ji2caiioy	94	7	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	94	8	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	94	9	cerevisiae	cerevisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	94	10	Genome	Genome	NNP
work_r3pghfglovc7bfij3ji2caiioy	94	11	Database	Database	NNP
work_r3pghfglovc7bfij3ji2caiioy	94	12	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	94	13	http://genome	http://genome	NN
work_r3pghfglovc7bfij3ji2caiioy	94	14	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	94	15	www	www	JJ
work_r3pghfglovc7bfij3ji2caiioy	94	16	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	95	1	stanford.edu/Saccharomyces/	stanford.edu/Saccharomyces/	NFP
work_r3pghfglovc7bfij3ji2caiioy	95	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	95	3	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	96	1	d(M	d(m	LS
work_r3pghfglovc7bfij3ji2caiioy	96	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	96	3	Mitochondrially	Mitochondrially	NNP
work_r3pghfglovc7bfij3ji2caiioy	96	4	encoded	encode	VBD
work_r3pghfglovc7bfij3ji2caiioy	96	5	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	96	6	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	96	7	N	n	NN
work_r3pghfglovc7bfij3ji2caiioy	96	8	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	96	9	nuclear	nuclear	NN
work_r3pghfglovc7bfij3ji2caiioy	96	10	encoded	encode	VBD
work_r3pghfglovc7bfij3ji2caiioy	96	11	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	97	1	eFunction	efunction	NN
work_r3pghfglovc7bfij3ji2caiioy	97	2	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	97	3	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	97	4	protein	protein	NN
work_r3pghfglovc7bfij3ji2caiioy	97	5	according	accord	VBG
work_r3pghfglovc7bfij3ji2caiioy	97	6	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	97	7	YPD	YPD	NNP
work_r3pghfglovc7bfij3ji2caiioy	97	8	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	97	9	SGD	SGD	NNP
work_r3pghfglovc7bfij3ji2caiioy	97	10	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	98	1	Insight	Insight	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	2	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	98	3	Outlook	Outlook	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	4	770	770	CD
work_r3pghfglovc7bfij3ji2caiioy	98	5	GENOME	GENOME	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	6	RESEARCH	research	NN
work_r3pghfglovc7bfij3ji2caiioy	98	7	Cold	Cold	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	8	Spring	Spring	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	9	Harbor	Harbor	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	10	Laboratory	Laboratory	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	11	Press	Press	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	12	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	98	13	April	April	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	14	5	5	CD
work_r3pghfglovc7bfij3ji2caiioy	98	15	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	98	16	2021	2021	CD
work_r3pghfglovc7bfij3ji2caiioy	98	17	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	98	18	Published	publish	VBN
work_r3pghfglovc7bfij3ji2caiioy	98	19	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	98	20	genome.cshlp.orgDownloaded	genome.cshlp.orgDownloaded	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	21	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	98	22	http://genome.cshlp.org/	http://genome.cshlp.org/	ADD
work_r3pghfglovc7bfij3ji2caiioy	98	23	http://www.cshlpress.com	http://www.cshlpress.com	ADD
work_r3pghfglovc7bfij3ji2caiioy	98	24	collection	collection	NN
work_r3pghfglovc7bfij3ji2caiioy	98	25	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	98	26	strains	strain	NNS
work_r3pghfglovc7bfij3ji2caiioy	98	27	each	each	DT
work_r3pghfglovc7bfij3ji2caiioy	98	28	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	98	29	lacZ	lacz	CD
work_r3pghfglovc7bfij3ji2caiioy	98	30	in-	in-	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	31	serted	serte	VBD
work_r3pghfglovc7bfij3ji2caiioy	98	32	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	98	33	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	98	34	random	random	JJ
work_r3pghfglovc7bfij3ji2caiioy	98	35	genomic	genomic	JJ
work_r3pghfglovc7bfij3ji2caiioy	98	36	location	location	NN
work_r3pghfglovc7bfij3ji2caiioy	98	37	along	along	IN
work_r3pghfglovc7bfij3ji2caiioy	98	38	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	98	39	an	an	DT
work_r3pghfglovc7bfij3ji2caiioy	98	40	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	98	41	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	98	42	frame	frame	NN
work_r3pghfglovc7bfij3ji2caiioy	98	43	hemagglutinin	hemagglutinin	NN
work_r3pghfglovc7bfij3ji2caiioy	98	44	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	98	45	HA	HA	NNP
work_r3pghfglovc7bfij3ji2caiioy	98	46	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	98	47	tag	tag	NN
work_r3pghfglovc7bfij3ji2caiioy	98	48	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	99	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	99	2	multifunctional	multifunctional	JJ
work_r3pghfglovc7bfij3ji2caiioy	99	3	trans-	trans-	JJ
work_r3pghfglovc7bfij3ji2caiioy	99	4	posons	poson	NNS
work_r3pghfglovc7bfij3ji2caiioy	99	5	identify	identify	VBP
work_r3pghfglovc7bfij3ji2caiioy	99	6	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	99	7	expressed	express	VBN
work_r3pghfglovc7bfij3ji2caiioy	99	8	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	99	9	dif-	dif-	RB
work_r3pghfglovc7bfij3ji2caiioy	99	10	ferent	ferent	JJ
work_r3pghfglovc7bfij3ji2caiioy	99	11	times	time	NNS
work_r3pghfglovc7bfij3ji2caiioy	99	12	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	99	13	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	99	14	life	life	NN
work_r3pghfglovc7bfij3ji2caiioy	99	15	cycle	cycle	NN
work_r3pghfglovc7bfij3ji2caiioy	99	16	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	99	17	deter-	deter-	NN
work_r3pghfglovc7bfij3ji2caiioy	99	18	mine	mine	NN
work_r3pghfglovc7bfij3ji2caiioy	99	19	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	99	20	subcellular	subcellular	JJ
work_r3pghfglovc7bfij3ji2caiioy	99	21	locations	location	NNS
work_r3pghfglovc7bfij3ji2caiioy	99	22	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	99	23	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	99	24	en-	en-	RB
work_r3pghfglovc7bfij3ji2caiioy	99	25	coded	code	VBN
work_r3pghfglovc7bfij3ji2caiioy	99	26	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	99	27	products	product	NNS
work_r3pghfglovc7bfij3ji2caiioy	99	28	as	as	RB
work_r3pghfglovc7bfij3ji2caiioy	99	29	well	well	RB
work_r3pghfglovc7bfij3ji2caiioy	99	30	as	as	IN
work_r3pghfglovc7bfij3ji2caiioy	99	31	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	99	32	phenotype	phenotype	NN
work_r3pghfglovc7bfij3ji2caiioy	99	33	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	99	34	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	99	35	disrupted	disrupt	VBN
work_r3pghfglovc7bfij3ji2caiioy	99	36	strains	strain	NNS
work_r3pghfglovc7bfij3ji2caiioy	99	37	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	99	38	Burns	Burns	NNP
work_r3pghfglovc7bfij3ji2caiioy	99	39	et	et	NNP
work_r3pghfglovc7bfij3ji2caiioy	99	40	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	99	41	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	100	1	1995	1995	CD
work_r3pghfglovc7bfij3ji2caiioy	100	2	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	100	3	Ross	Ross	NNP
work_r3pghfglovc7bfij3ji2caiioy	100	4	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	100	5	MacDonald	MacDonald	NNP
work_r3pghfglovc7bfij3ji2caiioy	100	6	et	et	NNP
work_r3pghfglovc7bfij3ji2caiioy	100	7	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	100	8	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	101	1	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	101	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	101	3	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	102	1	Fusions	fusion	NNS
work_r3pghfglovc7bfij3ji2caiioy	102	2	have	have	VBP
work_r3pghfglovc7bfij3ji2caiioy	102	3	been	be	VBN
work_r3pghfglovc7bfij3ji2caiioy	102	4	detected	detect	VBN
work_r3pghfglovc7bfij3ji2caiioy	102	5	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	102	6	both	both	DT
work_r3pghfglovc7bfij3ji2caiioy	102	7	known	known	JJ
work_r3pghfglovc7bfij3ji2caiioy	102	8	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	102	9	unknown	unknown	JJ
work_r3pghfglovc7bfij3ji2caiioy	102	10	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	102	11	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	103	1	This	this	DT
work_r3pghfglovc7bfij3ji2caiioy	103	2	technique	technique	NN
work_r3pghfglovc7bfij3ji2caiioy	103	3	has	have	VBZ
work_r3pghfglovc7bfij3ji2caiioy	103	4	also	also	RB
work_r3pghfglovc7bfij3ji2caiioy	103	5	identified	identify	VBN
work_r3pghfglovc7bfij3ji2caiioy	103	6	fusions	fusion	NNS
work_r3pghfglovc7bfij3ji2caiioy	103	7	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	103	8	numerous	numerous	JJ
work_r3pghfglovc7bfij3ji2caiioy	103	9	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	103	10	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	103	11	annotated	annotate	VBN
work_r3pghfglovc7bfij3ji2caiioy	103	12	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	103	13	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	103	14	genome	genome	JJ
work_r3pghfglovc7bfij3ji2caiioy	103	15	sequencing	sequencing	NN
work_r3pghfglovc7bfij3ji2caiioy	103	16	efforts	effort	NNS
work_r3pghfglovc7bfij3ji2caiioy	103	17	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	103	18	http://	http://	NNP
work_r3pghfglovc7bfij3ji2caiioy	103	19	ycmi.med.yale.edu/YGAC/home.html	ycmi.med.yale.edu/YGAC/home.html	''
work_r3pghfglovc7bfij3ji2caiioy	103	20	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	103	21	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	104	1	These	these	DT
work_r3pghfglovc7bfij3ji2caiioy	104	2	results	result	NNS
work_r3pghfglovc7bfij3ji2caiioy	104	3	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	104	4	allow	allow	VB
work_r3pghfglovc7bfij3ji2caiioy	104	5	researchers	researcher	NNS
work_r3pghfglovc7bfij3ji2caiioy	104	6	who	who	WP
work_r3pghfglovc7bfij3ji2caiioy	104	7	identify	identify	VBP
work_r3pghfglovc7bfij3ji2caiioy	104	8	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	104	9	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	104	10	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	104	11	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	104	12	determine	determine	VB
work_r3pghfglovc7bfij3ji2caiioy	104	13	im-	im-	XX
work_r3pghfglovc7bfij3ji2caiioy	104	14	mediately	mediately	RB
work_r3pghfglovc7bfij3ji2caiioy	104	15	whether	whether	IN
work_r3pghfglovc7bfij3ji2caiioy	104	16	that	that	DT
work_r3pghfglovc7bfij3ji2caiioy	104	17	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	104	18	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	104	19	ex-	ex-	RB
work_r3pghfglovc7bfij3ji2caiioy	104	20	pressed	press	VBN
work_r3pghfglovc7bfij3ji2caiioy	104	21	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	104	22	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	104	23	specific	specific	JJ
work_r3pghfglovc7bfij3ji2caiioy	104	24	time	time	NN
work_r3pghfglovc7bfij3ji2caiioy	104	25	during	during	IN
work_r3pghfglovc7bfij3ji2caiioy	104	26	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	104	27	life	life	NN
work_r3pghfglovc7bfij3ji2caiioy	104	28	cycle	cycle	NN
work_r3pghfglovc7bfij3ji2caiioy	104	29	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	104	30	whether	whether	IN
work_r3pghfglovc7bfij3ji2caiioy	104	31	its	-PRON-	PRP$
work_r3pghfglovc7bfij3ji2caiioy	104	32	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	104	33	product	product	NN
work_r3pghfglovc7bfij3ji2caiioy	104	34	lo-	lo-	NNP
work_r3pghfglovc7bfij3ji2caiioy	104	35	calizes	calize	VBZ
work_r3pghfglovc7bfij3ji2caiioy	104	36	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	104	37	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	104	38	specific	specific	JJ
work_r3pghfglovc7bfij3ji2caiioy	104	39	subcellular	subcellular	JJ
work_r3pghfglovc7bfij3ji2caiioy	104	40	compart-	compart-	NN
work_r3pghfglovc7bfij3ji2caiioy	104	41	ment	ment	NN
work_r3pghfglovc7bfij3ji2caiioy	104	42	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	105	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	105	2	success	success	NN
work_r3pghfglovc7bfij3ji2caiioy	105	3	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	105	4	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	105	5	strategy	strategy	NN
work_r3pghfglovc7bfij3ji2caiioy	105	6	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	105	7	like	like	IN
work_r3pghfglovc7bfij3ji2caiioy	105	8	other	other	JJ
work_r3pghfglovc7bfij3ji2caiioy	105	9	expression	expression	NN
work_r3pghfglovc7bfij3ji2caiioy	105	10	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	105	11	based	base	VBN
work_r3pghfglovc7bfij3ji2caiioy	105	12	strategies	strategy	NNS
work_r3pghfglovc7bfij3ji2caiioy	105	13	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	105	14	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	105	15	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	105	16	limited	limit	VBN
work_r3pghfglovc7bfij3ji2caiioy	105	17	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	105	18	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	105	19	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	105	20	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	105	21	insertions	insertion	NNS
work_r3pghfglovc7bfij3ji2caiioy	105	22	ana-	ana-	NNP
work_r3pghfglovc7bfij3ji2caiioy	105	23	lyzed	lyze	VBD
work_r3pghfglovc7bfij3ji2caiioy	105	24	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	105	25	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	105	26	physiological	physiological	JJ
work_r3pghfglovc7bfij3ji2caiioy	105	27	state	state	NN
work_r3pghfglovc7bfij3ji2caiioy	105	28	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	105	29	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	105	30	cells	cell	NNS
work_r3pghfglovc7bfij3ji2caiioy	105	31	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	105	32	which	which	WDT
work_r3pghfglovc7bfij3ji2caiioy	105	33	they	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	105	34	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	105	35	isolated	isolate	VBN
work_r3pghfglovc7bfij3ji2caiioy	105	36	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	106	1	A	a	DT
work_r3pghfglovc7bfij3ji2caiioy	106	2	number	number	NN
work_r3pghfglovc7bfij3ji2caiioy	106	3	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	106	4	examples	example	NNS
work_r3pghfglovc7bfij3ji2caiioy	106	5	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	106	6	what	what	WP
work_r3pghfglovc7bfij3ji2caiioy	106	7	appear	appear	VBP
work_r3pghfglovc7bfij3ji2caiioy	106	8	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	106	9	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	106	10	false	false	JJ
work_r3pghfglovc7bfij3ji2caiioy	106	11	positives	positive	NNS
work_r3pghfglovc7bfij3ji2caiioy	106	12	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	106	13	i.e.	i.e.	FW
work_r3pghfglovc7bfij3ji2caiioy	106	14	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	106	15	fusions	fusion	NNS
work_r3pghfglovc7bfij3ji2caiioy	106	16	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	106	17	ribo-	ribo-	NNP
work_r3pghfglovc7bfij3ji2caiioy	106	18	somal	somal	JJ
work_r3pghfglovc7bfij3ji2caiioy	106	19	DNA	dna	NN
work_r3pghfglovc7bfij3ji2caiioy	106	20	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	106	21	have	have	VBP
work_r3pghfglovc7bfij3ji2caiioy	106	22	been	be	VBN
work_r3pghfglovc7bfij3ji2caiioy	106	23	reported	report	VBN
work_r3pghfglovc7bfij3ji2caiioy	106	24	so	so	RB
work_r3pghfglovc7bfij3ji2caiioy	106	25	far	far	RB
work_r3pghfglovc7bfij3ji2caiioy	106	26	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	106	27	but	but	CC
work_r3pghfglovc7bfij3ji2caiioy	106	28	others	other	NNS
work_r3pghfglovc7bfij3ji2caiioy	106	29	appear	appear	VBP
work_r3pghfglovc7bfij3ji2caiioy	106	30	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	106	31	represent	represent	VB
work_r3pghfglovc7bfij3ji2caiioy	106	32	novel	novel	JJ
work_r3pghfglovc7bfij3ji2caiioy	106	33	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	106	34	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	106	35	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	107	1	Smith	Smith	NNP
work_r3pghfglovc7bfij3ji2caiioy	107	2	et	et	NNP
work_r3pghfglovc7bfij3ji2caiioy	107	3	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	107	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	108	1	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	108	2	1996	1996	CD
work_r3pghfglovc7bfij3ji2caiioy	108	3	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	108	4	have	have	VBP
work_r3pghfglovc7bfij3ji2caiioy	108	5	described	describe	VBN
work_r3pghfglovc7bfij3ji2caiioy	108	6	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	108	7	genetic	genetic	JJ
work_r3pghfglovc7bfij3ji2caiioy	108	8	footprinting	footprinting	NN
work_r3pghfglovc7bfij3ji2caiioy	108	9	method	method	NN
work_r3pghfglovc7bfij3ji2caiioy	108	10	based	base	VBN
work_r3pghfglovc7bfij3ji2caiioy	108	11	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	108	12	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	108	13	endogenous	endogenous	JJ
work_r3pghfglovc7bfij3ji2caiioy	108	14	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	108	15	transposon	transposon	NNP
work_r3pghfglovc7bfij3ji2caiioy	108	16	Ty1	ty1	NN
work_r3pghfglovc7bfij3ji2caiioy	108	17	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	108	18	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	108	19	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	108	20	evaluated	evaluate	VBN
work_r3pghfglovc7bfij3ji2caiioy	108	21	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	108	22	function	function	NN
work_r3pghfglovc7bfij3ji2caiioy	108	23	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	108	24	sub-	sub-	DT
work_r3pghfglovc7bfij3ji2caiioy	108	25	jecting	jecting	NN
work_r3pghfglovc7bfij3ji2caiioy	108	26	pools	pool	NNS
work_r3pghfglovc7bfij3ji2caiioy	108	27	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	108	28	cells	cell	NNS
work_r3pghfglovc7bfij3ji2caiioy	108	29	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	108	30	random	random	JJ
work_r3pghfglovc7bfij3ji2caiioy	108	31	Ty1	ty1	NN
work_r3pghfglovc7bfij3ji2caiioy	108	32	insertions	insertion	NNS
work_r3pghfglovc7bfij3ji2caiioy	108	33	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	108	34	various	various	JJ
work_r3pghfglovc7bfij3ji2caiioy	108	35	selections	selection	NNS
work_r3pghfglovc7bfij3ji2caiioy	108	36	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	108	37	comparing	compare	VBG
work_r3pghfglovc7bfij3ji2caiioy	108	38	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	108	39	Ty1	Ty1	NNP
work_r3pghfglovc7bfij3ji2caiioy	108	40	insertion	insertion	NN
work_r3pghfglovc7bfij3ji2caiioy	108	41	pattern	pattern	NN
work_r3pghfglovc7bfij3ji2caiioy	108	42	be-	be-	XX
work_r3pghfglovc7bfij3ji2caiioy	108	43	fore	fore	NN
work_r3pghfglovc7bfij3ji2caiioy	108	44	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	108	45	after	after	IN
work_r3pghfglovc7bfij3ji2caiioy	108	46	selection	selection	NN
work_r3pghfglovc7bfij3ji2caiioy	108	47	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	109	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	109	2	Ty1	ty1	CD
work_r3pghfglovc7bfij3ji2caiioy	109	3	inser-	inser-	NN
work_r3pghfglovc7bfij3ji2caiioy	109	4	tions	tion	NNS
work_r3pghfglovc7bfij3ji2caiioy	109	5	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	109	6	detected	detect	VBN
work_r3pghfglovc7bfij3ji2caiioy	109	7	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	109	8	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	109	9	PCR	PCR	NNP
work_r3pghfglovc7bfij3ji2caiioy	109	10	approach	approach	NN
work_r3pghfglovc7bfij3ji2caiioy	109	11	that	that	WDT
work_r3pghfglovc7bfij3ji2caiioy	109	12	requires	require	VBZ
work_r3pghfglovc7bfij3ji2caiioy	109	13	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	109	14	use	use	NN
work_r3pghfglovc7bfij3ji2caiioy	109	15	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	109	16	predetermined	predetermined	JJ
work_r3pghfglovc7bfij3ji2caiioy	109	17	target	target	NN
work_r3pghfglovc7bfij3ji2caiioy	109	18	primers	primer	NNS
work_r3pghfglovc7bfij3ji2caiioy	109	19	corresponding	correspond	VBG
work_r3pghfglovc7bfij3ji2caiioy	109	20	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	109	21	regions	region	NNS
work_r3pghfglovc7bfij3ji2caiioy	109	22	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	109	23	interest	interest	NN
work_r3pghfglovc7bfij3ji2caiioy	109	24	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	110	1	This	this	DT
work_r3pghfglovc7bfij3ji2caiioy	110	2	method	method	NN
work_r3pghfglovc7bfij3ji2caiioy	110	3	could	could	MD
work_r3pghfglovc7bfij3ji2caiioy	110	4	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	110	5	useful	useful	JJ
work_r3pghfglovc7bfij3ji2caiioy	110	6	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	110	7	identifying	identify	VBG
work_r3pghfglovc7bfij3ji2caiioy	110	8	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	110	9	if	if	IN
work_r3pghfglovc7bfij3ji2caiioy	110	10	primers	primer	NNS
work_r3pghfglovc7bfij3ji2caiioy	110	11	against	against	IN
work_r3pghfglovc7bfij3ji2caiioy	110	12	interfeature	interfeature	NN
work_r3pghfglovc7bfij3ji2caiioy	110	13	regions	region	NNS
work_r3pghfglovc7bfij3ji2caiioy	110	14	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	110	15	regions	region	NNS
work_r3pghfglovc7bfij3ji2caiioy	110	16	ly-	ly-	JJ
work_r3pghfglovc7bfij3ji2caiioy	110	17	ing	e	VBG
work_r3pghfglovc7bfij3ji2caiioy	110	18	between	between	IN
work_r3pghfglovc7bfij3ji2caiioy	110	19	known	known	JJ
work_r3pghfglovc7bfij3ji2caiioy	110	20	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	110	21	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	110	22	tRNA	trna	NN
work_r3pghfglovc7bfij3ji2caiioy	110	23	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	110	24	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	110	25	or	or	CC
work_r3pghfglovc7bfij3ji2caiioy	110	26	other	other	JJ
work_r3pghfglovc7bfij3ji2caiioy	110	27	sequence	sequence	NN
work_r3pghfglovc7bfij3ji2caiioy	110	28	‘	'	``
work_r3pghfglovc7bfij3ji2caiioy	110	29	‘	'	``
work_r3pghfglovc7bfij3ji2caiioy	110	30	features	feature	NNS
work_r3pghfglovc7bfij3ji2caiioy	110	31	’	'	''
work_r3pghfglovc7bfij3ji2caiioy	110	32	’	'	''
work_r3pghfglovc7bfij3ji2caiioy	110	33	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	110	34	were	be	VBD
work_r3pghfglovc7bfij3ji2caiioy	110	35	in-	in-	RB
work_r3pghfglovc7bfij3ji2caiioy	110	36	cluded	clude	VBN
work_r3pghfglovc7bfij3ji2caiioy	110	37	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	110	38	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	110	39	analysis	analysis	NN
work_r3pghfglovc7bfij3ji2caiioy	110	40	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	111	1	Chip	chip	NN
work_r3pghfglovc7bfij3ji2caiioy	111	2	Methods	method	VBZ
work_r3pghfglovc7bfij3ji2caiioy	111	3	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	111	4	chip	chip	NN
work_r3pghfglovc7bfij3ji2caiioy	111	5	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	111	6	based	base	VBN
work_r3pghfglovc7bfij3ji2caiioy	111	7	methods	method	NNS
work_r3pghfglovc7bfij3ji2caiioy	111	8	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	111	9	analysis	analysis	NN
work_r3pghfglovc7bfij3ji2caiioy	111	10	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	111	11	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	111	12	expression	expression	NN
work_r3pghfglovc7bfij3ji2caiioy	111	13	represent	represent	VBP
work_r3pghfglovc7bfij3ji2caiioy	111	14	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	111	15	powerful	powerful	JJ
work_r3pghfglovc7bfij3ji2caiioy	111	16	tool	tool	NN
work_r3pghfglovc7bfij3ji2caiioy	111	17	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	111	18	identifying	identify	VBG
work_r3pghfglovc7bfij3ji2caiioy	111	19	transcripts	transcript	NNS
work_r3pghfglovc7bfij3ji2caiioy	111	20	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	111	21	Schena	Schena	NNP
work_r3pghfglovc7bfij3ji2caiioy	111	22	et	et	FW
work_r3pghfglovc7bfij3ji2caiioy	111	23	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	111	24	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	112	1	1995	1995	CD
work_r3pghfglovc7bfij3ji2caiioy	112	2	;	;	:
work_r3pghfglovc7bfij3ji2caiioy	112	3	Shoemaker	Shoemaker	NNP
work_r3pghfglovc7bfij3ji2caiioy	112	4	et	et	NNP
work_r3pghfglovc7bfij3ji2caiioy	112	5	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	112	6	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	113	1	1996	1996	CD
work_r3pghfglovc7bfij3ji2caiioy	113	2	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	113	3	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	113	4	including	include	VBG
work_r3pghfglovc7bfij3ji2caiioy	113	5	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	113	6	transcripts	transcript	NNS
work_r3pghfglovc7bfij3ji2caiioy	113	7	corresponding	correspond	VBG
work_r3pghfglovc7bfij3ji2caiioy	113	8	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	113	9	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	113	10	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	114	1	Currently	currently	RB
work_r3pghfglovc7bfij3ji2caiioy	114	2	available	available	JJ
work_r3pghfglovc7bfij3ji2caiioy	114	3	chips	chip	NNS
work_r3pghfglovc7bfij3ji2caiioy	114	4	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	114	5	based	base	VBN
work_r3pghfglovc7bfij3ji2caiioy	114	6	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	114	7	previously	previously	RB
work_r3pghfglovc7bfij3ji2caiioy	114	8	defined	define	VBN
work_r3pghfglovc7bfij3ji2caiioy	114	9	sequences	sequence	NNS
work_r3pghfglovc7bfij3ji2caiioy	114	10	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	114	11	interest	interest	NN
work_r3pghfglovc7bfij3ji2caiioy	114	12	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	115	1	Although	although	IN
work_r3pghfglovc7bfij3ji2caiioy	115	2	it	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	115	3	would	would	MD
work_r3pghfglovc7bfij3ji2caiioy	115	4	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	115	5	possible	possible	JJ
work_r3pghfglovc7bfij3ji2caiioy	115	6	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	115	7	create	create	VB
work_r3pghfglovc7bfij3ji2caiioy	115	8	arrays	array	NNS
work_r3pghfglovc7bfij3ji2caiioy	115	9	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	115	10	interfeature	interfeature	NN
work_r3pghfglovc7bfij3ji2caiioy	115	11	genomic	genomic	JJ
work_r3pghfglovc7bfij3ji2caiioy	115	12	re-	re-	JJ
work_r3pghfglovc7bfij3ji2caiioy	115	13	gions	gion	NNS
work_r3pghfglovc7bfij3ji2caiioy	115	14	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	115	15	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	115	16	confounding	confound	VBG
work_r3pghfglovc7bfij3ji2caiioy	115	17	issue	issue	NN
work_r3pghfglovc7bfij3ji2caiioy	115	18	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	115	19	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	115	20	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	115	21	38	38	CD
work_r3pghfglovc7bfij3ji2caiioy	115	22	ends	end	NNS
work_r3pghfglovc7bfij3ji2caiioy	115	23	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	115	24	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	115	25	transcripts	transcript	NNS
work_r3pghfglovc7bfij3ji2caiioy	115	26	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	115	27	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	115	28	system-	system-	JJ
work_r3pghfglovc7bfij3ji2caiioy	115	29	atically	atically	RB
work_r3pghfglovc7bfij3ji2caiioy	115	30	defined	define	VBN
work_r3pghfglovc7bfij3ji2caiioy	115	31	—	—	:
work_r3pghfglovc7bfij3ji2caiioy	115	32	some	some	DT
work_r3pghfglovc7bfij3ji2caiioy	115	33	transcripts	transcript	NNS
work_r3pghfglovc7bfij3ji2caiioy	115	34	con-	con-	NN
work_r3pghfglovc7bfij3ji2caiioy	115	35	tain	tain	NNP
work_r3pghfglovc7bfij3ji2caiioy	115	36	long	long	JJ
work_r3pghfglovc7bfij3ji2caiioy	115	37	38	38	CD
work_r3pghfglovc7bfij3ji2caiioy	115	38	UTRs	utr	NNS
work_r3pghfglovc7bfij3ji2caiioy	115	39	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	115	40	thus	thus	RB
work_r3pghfglovc7bfij3ji2caiioy	115	41	defining	define	VBG
work_r3pghfglovc7bfij3ji2caiioy	115	42	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	115	43	appropriate	appropriate	JJ
work_r3pghfglovc7bfij3ji2caiioy	115	44	boundaries	boundary	NNS
work_r3pghfglovc7bfij3ji2caiioy	115	45	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	115	46	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	115	47	interfea-	interfea-	JJ
work_r3pghfglovc7bfij3ji2caiioy	115	48	ture	ture	NN
work_r3pghfglovc7bfij3ji2caiioy	115	49	regions	region	NNS
work_r3pghfglovc7bfij3ji2caiioy	115	50	could	could	MD
work_r3pghfglovc7bfij3ji2caiioy	115	51	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	115	52	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	115	53	done	do	VBN
work_r3pghfglovc7bfij3ji2caiioy	115	54	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	115	55	an	an	DT
work_r3pghfglovc7bfij3ji2caiioy	115	56	au-	au-	NN
work_r3pghfglovc7bfij3ji2caiioy	115	57	tomated	tomate	VBN
work_r3pghfglovc7bfij3ji2caiioy	115	58	manner	manner	NN
work_r3pghfglovc7bfij3ji2caiioy	115	59	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	116	1	These	these	DT
work_r3pghfglovc7bfij3ji2caiioy	116	2	overlapping	overlap	VBG
work_r3pghfglovc7bfij3ji2caiioy	116	3	tran-	tran-	NN
work_r3pghfglovc7bfij3ji2caiioy	116	4	script	script	NN
work_r3pghfglovc7bfij3ji2caiioy	116	5	ends	end	NNS
work_r3pghfglovc7bfij3ji2caiioy	116	6	would	would	MD
work_r3pghfglovc7bfij3ji2caiioy	116	7	create	create	VB
work_r3pghfglovc7bfij3ji2caiioy	116	8	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	116	9	high	high	JJ
work_r3pghfglovc7bfij3ji2caiioy	116	10	back-	back-	NN
work_r3pghfglovc7bfij3ji2caiioy	116	11	ground	ground	NN
work_r3pghfglovc7bfij3ji2caiioy	116	12	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	116	13	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	116	14	chip	chip	NN
work_r3pghfglovc7bfij3ji2caiioy	116	15	hybridizations	hybridization	NNS
work_r3pghfglovc7bfij3ji2caiioy	116	16	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	117	1	However	however	RB
work_r3pghfglovc7bfij3ji2caiioy	117	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	117	3	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	117	4	cerevisiae	cerevisiae	NNS
work_r3pghfglovc7bfij3ji2caiioy	117	5	EST	EST	NNP
work_r3pghfglovc7bfij3ji2caiioy	117	6	data	datum	NNS
work_r3pghfglovc7bfij3ji2caiioy	117	7	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	117	8	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	117	9	re-	re-	JJ
work_r3pghfglovc7bfij3ji2caiioy	117	10	sults	sult	NNS
work_r3pghfglovc7bfij3ji2caiioy	117	11	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	117	12	experimental	experimental	JJ
work_r3pghfglovc7bfij3ji2caiioy	117	13	approaches	approach	NNS
work_r3pghfglovc7bfij3ji2caiioy	117	14	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	117	15	known	know	VBN
work_r3pghfglovc7bfij3ji2caiioy	117	16	genes	gene	NNS
work_r3pghfglovc7bfij3ji2caiioy	117	17	could	could	MD
work_r3pghfglovc7bfij3ji2caiioy	117	18	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	117	19	examined	examine	VBN
work_r3pghfglovc7bfij3ji2caiioy	117	20	thor-	thor-	RB
work_r3pghfglovc7bfij3ji2caiioy	117	21	oughly	oughly	RB
work_r3pghfglovc7bfij3ji2caiioy	117	22	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	117	23	define	define	VB
work_r3pghfglovc7bfij3ji2caiioy	117	24	one	one	CD
work_r3pghfglovc7bfij3ji2caiioy	117	25	or	or	CC
work_r3pghfglovc7bfij3ji2caiioy	117	26	more	more	JJR
work_r3pghfglovc7bfij3ji2caiioy	117	27	predictive	predictive	JJ
work_r3pghfglovc7bfij3ji2caiioy	117	28	38-end	38-end	CD
work_r3pghfglovc7bfij3ji2caiioy	117	29	formation	formation	NN
work_r3pghfglovc7bfij3ji2caiioy	117	30	consensus	consensus	NN
work_r3pghfglovc7bfij3ji2caiioy	117	31	sequences	sequence	NNS
work_r3pghfglovc7bfij3ji2caiioy	117	32	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	118	1	This	this	DT
work_r3pghfglovc7bfij3ji2caiioy	118	2	information	information	NN
work_r3pghfglovc7bfij3ji2caiioy	118	3	might	may	MD
work_r3pghfglovc7bfij3ji2caiioy	118	4	allow	allow	VB
work_r3pghfglovc7bfij3ji2caiioy	118	5	an	an	DT
work_r3pghfglovc7bfij3ji2caiioy	118	6	explic-	explic-	NN
work_r3pghfglovc7bfij3ji2caiioy	118	7	itly	itly	RB
work_r3pghfglovc7bfij3ji2caiioy	118	8	designed	design	VBN
work_r3pghfglovc7bfij3ji2caiioy	118	9	chip	chip	NN
work_r3pghfglovc7bfij3ji2caiioy	118	10	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	118	11	identify	identify	VB
work_r3pghfglovc7bfij3ji2caiioy	118	12	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	118	13	novel	novel	JJ
work_r3pghfglovc7bfij3ji2caiioy	118	14	transcripts	transcript	NNS
work_r3pghfglovc7bfij3ji2caiioy	118	15	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	118	16	whether	whether	IN
work_r3pghfglovc7bfij3ji2caiioy	118	17	they	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	118	18	correspond	correspond	VBP
work_r3pghfglovc7bfij3ji2caiioy	118	19	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	118	20	ORFs	orf	NNS
work_r3pghfglovc7bfij3ji2caiioy	118	21	or	or	CC
work_r3pghfglovc7bfij3ji2caiioy	118	22	not	not	RB
work_r3pghfglovc7bfij3ji2caiioy	118	23	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	119	1	Integrated	Integrated	NNP
work_r3pghfglovc7bfij3ji2caiioy	119	2	Protein	Protein	NNP
work_r3pghfglovc7bfij3ji2caiioy	119	3	Identification	Identification	NNP
work_r3pghfglovc7bfij3ji2caiioy	119	4	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	119	5	Analysis	Analysis	NNP
work_r3pghfglovc7bfij3ji2caiioy	119	6	Approaches	Approaches	NNP
work_r3pghfglovc7bfij3ji2caiioy	119	7	Two	Two	NNP
work_r3pghfglovc7bfij3ji2caiioy	119	8	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	119	9	dimensional	dimensional	JJ
work_r3pghfglovc7bfij3ji2caiioy	119	10	gels	gel	NNS
work_r3pghfglovc7bfij3ji2caiioy	119	11	combined	combine	VBN
work_r3pghfglovc7bfij3ji2caiioy	119	12	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	119	13	tandem	tandem	NN
work_r3pghfglovc7bfij3ji2caiioy	119	14	mass	mass	NN
work_r3pghfglovc7bfij3ji2caiioy	119	15	spectrometry	spectrometry	NN
work_r3pghfglovc7bfij3ji2caiioy	119	16	can	can	MD
work_r3pghfglovc7bfij3ji2caiioy	119	17	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	119	18	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	119	19	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	119	20	identify	identify	VB
work_r3pghfglovc7bfij3ji2caiioy	119	21	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	119	22	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	119	23	relatively	relatively	RB
work_r3pghfglovc7bfij3ji2caiioy	119	24	com-	com-	NN
work_r3pghfglovc7bfij3ji2caiioy	119	25	plex	plex	NN
work_r3pghfglovc7bfij3ji2caiioy	119	26	mixtures	mixture	NNS
work_r3pghfglovc7bfij3ji2caiioy	119	27	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	120	1	When	when	WRB
work_r3pghfglovc7bfij3ji2caiioy	120	2	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	120	3	type	type	NN
work_r3pghfglovc7bfij3ji2caiioy	120	4	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	120	5	data	datum	NNS
work_r3pghfglovc7bfij3ji2caiioy	120	6	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	120	7	combined	combine	VBN
work_r3pghfglovc7bfij3ji2caiioy	120	8	with	with	IN
work_r3pghfglovc7bfij3ji2caiioy	120	9	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	120	10	complete	complete	JJ
work_r3pghfglovc7bfij3ji2caiioy	120	11	genome	genome	NN
work_r3pghfglovc7bfij3ji2caiioy	120	12	se-	se-	NN
work_r3pghfglovc7bfij3ji2caiioy	120	13	quence	quence	NN
work_r3pghfglovc7bfij3ji2caiioy	120	14	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	120	15	hits	hit	NNS
work_r3pghfglovc7bfij3ji2caiioy	120	16	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	120	17	virtually	virtually	RB
work_r3pghfglovc7bfij3ji2caiioy	120	18	guaranteed	guarantee	VBN
work_r3pghfglovc7bfij3ji2caiioy	120	19	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	121	1	A	a	DT
work_r3pghfglovc7bfij3ji2caiioy	121	2	systematic	systematic	JJ
work_r3pghfglovc7bfij3ji2caiioy	121	3	project	project	NN
work_r3pghfglovc7bfij3ji2caiioy	121	4	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	121	5	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	121	6	type	type	NN
work_r3pghfglovc7bfij3ji2caiioy	121	7	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	121	8	under	under	IN
work_r3pghfglovc7bfij3ji2caiioy	121	9	way	way	NN
work_r3pghfglovc7bfij3ji2caiioy	121	10	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	121	11	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	121	12	biotechnology	biotechnology	NN
work_r3pghfglovc7bfij3ji2caiioy	121	13	resource	resource	NN
work_r3pghfglovc7bfij3ji2caiioy	121	14	center	center	NN
work_r3pghfglovc7bfij3ji2caiioy	121	15	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	121	16	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	121	17	University	University	NNP
work_r3pghfglovc7bfij3ji2caiioy	121	18	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	121	19	Washington	Washington	NNP
work_r3pghfglovc7bfij3ji2caiioy	121	20	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	121	21	http://	http://	NNP
work_r3pghfglovc7bfij3ji2caiioy	121	22	cellworks.washington.edu/	cellworks.washington.edu/	ADD
work_r3pghfglovc7bfij3ji2caiioy	121	23	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	121	24	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	122	1	Both	both	DT
work_r3pghfglovc7bfij3ji2caiioy	122	2	very	very	RB
work_r3pghfglovc7bfij3ji2caiioy	122	3	complex	complex	JJ
work_r3pghfglovc7bfij3ji2caiioy	122	4	mixtures	mixture	NNS
work_r3pghfglovc7bfij3ji2caiioy	122	5	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	122	6	yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	122	7	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	122	8	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	122	9	various	various	JJ
work_r3pghfglovc7bfij3ji2caiioy	122	10	purified	purify	VBN
work_r3pghfglovc7bfij3ji2caiioy	122	11	multiprotein	multiprotein	NN
work_r3pghfglovc7bfij3ji2caiioy	122	12	complexes	complex	NNS
work_r3pghfglovc7bfij3ji2caiioy	122	13	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	122	14	being	be	VBG
work_r3pghfglovc7bfij3ji2caiioy	122	15	analyzed	analyze	VBN
work_r3pghfglovc7bfij3ji2caiioy	122	16	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	122	17	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	122	18	methods	method	NNS
work_r3pghfglovc7bfij3ji2caiioy	122	19	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	122	20	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	122	21	it	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	122	22	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	122	23	anticipated	anticipate	VBN
work_r3pghfglovc7bfij3ji2caiioy	122	24	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	122	25	many	many	JJ
work_r3pghfglovc7bfij3ji2caiioy	122	26	new	new	JJ
work_r3pghfglovc7bfij3ji2caiioy	122	27	small	small	JJ
work_r3pghfglovc7bfij3ji2caiioy	122	28	proteins	protein	NNS
work_r3pghfglovc7bfij3ji2caiioy	122	29	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	122	30	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	122	31	identified	identify	VBN
work_r3pghfglovc7bfij3ji2caiioy	122	32	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	122	33	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	122	34	type	type	NN
work_r3pghfglovc7bfij3ji2caiioy	122	35	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	122	36	procedure	procedure	NN
work_r3pghfglovc7bfij3ji2caiioy	122	37	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	123	1	This	this	DT
work_r3pghfglovc7bfij3ji2caiioy	123	2	approach	approach	NN
work_r3pghfglovc7bfij3ji2caiioy	123	3	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	123	4	re-	re-	JJ
work_r3pghfglovc7bfij3ji2caiioy	123	5	verse	verse	NN
work_r3pghfglovc7bfij3ji2caiioy	123	6	genetics	genetic	NNS
work_r3pghfglovc7bfij3ji2caiioy	123	7	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	123	8	aid	aid	VB
work_r3pghfglovc7bfij3ji2caiioy	123	9	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	123	10	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	123	11	identifica-	identifica-	JJ
work_r3pghfglovc7bfij3ji2caiioy	123	12	tion	tion	NN
work_r3pghfglovc7bfij3ji2caiioy	123	13	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	123	14	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	123	15	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	123	16	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	124	1	Conclusion	conclusion	NN
work_r3pghfglovc7bfij3ji2caiioy	124	2	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	124	3	approaches	approach	NNS
work_r3pghfglovc7bfij3ji2caiioy	124	4	described	describe	VBN
work_r3pghfglovc7bfij3ji2caiioy	124	5	above	above	RB
work_r3pghfglovc7bfij3ji2caiioy	124	6	should	should	MD
work_r3pghfglovc7bfij3ji2caiioy	124	7	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	124	8	complemented	complement	VBN
work_r3pghfglovc7bfij3ji2caiioy	124	9	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	124	10	additional	additional	JJ
work_r3pghfglovc7bfij3ji2caiioy	124	11	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	124	12	vivo	vivo	NNP
work_r3pghfglovc7bfij3ji2caiioy	124	13	experimental	experimental	JJ
work_r3pghfglovc7bfij3ji2caiioy	124	14	data	datum	NNS
work_r3pghfglovc7bfij3ji2caiioy	124	15	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	124	16	establish	establish	VB
work_r3pghfglovc7bfij3ji2caiioy	124	17	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	124	18	iden-	iden-	NN
work_r3pghfglovc7bfij3ji2caiioy	124	19	tity	tity	NN
work_r3pghfglovc7bfij3ji2caiioy	124	20	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	124	21	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	124	22	cloned	clone	VBN
work_r3pghfglovc7bfij3ji2caiioy	124	23	gene	gene	NN
work_r3pghfglovc7bfij3ji2caiioy	124	24	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	125	1	It	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	125	2	is	be	VBZ
work_r3pghfglovc7bfij3ji2caiioy	125	3	clear	clear	JJ
work_r3pghfglovc7bfij3ji2caiioy	125	4	that	that	IN
work_r3pghfglovc7bfij3ji2caiioy	125	5	emerging	emerge	VBG
work_r3pghfglovc7bfij3ji2caiioy	125	6	new	new	JJ
work_r3pghfglovc7bfij3ji2caiioy	125	7	technologies	technology	NNS
work_r3pghfglovc7bfij3ji2caiioy	125	8	applied	apply	VBD
work_r3pghfglovc7bfij3ji2caiioy	125	9	glo-	glo-	NNP
work_r3pghfglovc7bfij3ji2caiioy	125	10	bally	bally	NNP
work_r3pghfglovc7bfij3ji2caiioy	125	11	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	125	12	any	any	DT
work_r3pghfglovc7bfij3ji2caiioy	125	13	given	give	VBN
work_r3pghfglovc7bfij3ji2caiioy	125	14	model	model	NN
work_r3pghfglovc7bfij3ji2caiioy	125	15	organism	organism	NN
work_r3pghfglovc7bfij3ji2caiioy	125	16	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	125	17	further	further	VB
work_r3pghfglovc7bfij3ji2caiioy	125	18	our	-PRON-	PRP$
work_r3pghfglovc7bfij3ji2caiioy	125	19	understanding	understanding	NN
work_r3pghfglovc7bfij3ji2caiioy	125	20	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	125	21	fundamen-	fundamen-	FW
work_r3pghfglovc7bfij3ji2caiioy	125	22	tal	tal	JJ
work_r3pghfglovc7bfij3ji2caiioy	125	23	biological	biological	JJ
work_r3pghfglovc7bfij3ji2caiioy	125	24	problems	problem	NNS
work_r3pghfglovc7bfij3ji2caiioy	125	25	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	126	1	We	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	126	2	used	use	VBD
work_r3pghfglovc7bfij3ji2caiioy	126	3	several	several	JJ
work_r3pghfglovc7bfij3ji2caiioy	126	4	different	different	JJ
work_r3pghfglovc7bfij3ji2caiioy	126	5	computer	computer	NN
work_r3pghfglovc7bfij3ji2caiioy	126	6	resources	resource	NNS
work_r3pghfglovc7bfij3ji2caiioy	126	7	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	126	8	try	try	VB
work_r3pghfglovc7bfij3ji2caiioy	126	9	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	126	10	d	d	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	11	e	e	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	12	t	t	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	13	e	e	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	14	r	r	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	15	m	m	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	16	i	i	NN
work_r3pghfglovc7bfij3ji2caiioy	126	17	n	n	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	18	e	e	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	19	t	t	NN
work_r3pghfglovc7bfij3ji2caiioy	126	20	h	h	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	21	e	e	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	22	n	n	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	23	u	u	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	24	m	m	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	25	b	b	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	26	e	e	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	27	r	r	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	28	o	o	NN
work_r3pghfglovc7bfij3ji2caiioy	126	29	f	f	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	30	k	k	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	31	n	n	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	32	o	o	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	33	w	w	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	34	n	n	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	35	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	126	36	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	127	1	The	the	DT
work_r3pghfglovc7bfij3ji2caiioy	127	2	output	output	NN
work_r3pghfglovc7bfij3ji2caiioy	127	3	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	127	4	data	datum	NNS
work_r3pghfglovc7bfij3ji2caiioy	127	5	obtained	obtain	VBN
work_r3pghfglovc7bfij3ji2caiioy	127	6	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	127	7	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	127	8	methods	method	NNS
work_r3pghfglovc7bfij3ji2caiioy	127	9	varied	vary	VBD
work_r3pghfglovc7bfij3ji2caiioy	127	10	widely	widely	RB
work_r3pghfglovc7bfij3ji2caiioy	127	11	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	127	12	depending	depend	VBG
work_r3pghfglovc7bfij3ji2caiioy	127	13	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	127	14	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	127	15	database	database	NN
work_r3pghfglovc7bfij3ji2caiioy	127	16	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	127	17	search	search	NN
work_r3pghfglovc7bfij3ji2caiioy	127	18	engine	engine	NN
work_r3pghfglovc7bfij3ji2caiioy	127	19	that	that	WDT
work_r3pghfglovc7bfij3ji2caiioy	127	20	was	be	VBD
work_r3pghfglovc7bfij3ji2caiioy	127	21	used	use	VBN
work_r3pghfglovc7bfij3ji2caiioy	127	22	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	128	1	As	as	IN
work_r3pghfglovc7bfij3ji2caiioy	128	2	these	these	DT
work_r3pghfglovc7bfij3ji2caiioy	128	3	are	be	VBP
work_r3pghfglovc7bfij3ji2caiioy	128	4	essentially	essentially	RB
work_r3pghfglovc7bfij3ji2caiioy	128	5	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	128	6	black	black	JJ
work_r3pghfglovc7bfij3ji2caiioy	128	7	box	box	NN
work_r3pghfglovc7bfij3ji2caiioy	128	8	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	128	9	most	most	JJS
work_r3pghfglovc7bfij3ji2caiioy	128	10	end	end	NN
work_r3pghfglovc7bfij3ji2caiioy	128	11	users	user	NNS
work_r3pghfglovc7bfij3ji2caiioy	128	12	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	128	13	it	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	128	14	will	will	MD
work_r3pghfglovc7bfij3ji2caiioy	128	15	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	128	16	ex-	ex-	RB
work_r3pghfglovc7bfij3ji2caiioy	128	17	tremely	tremely	RB
work_r3pghfglovc7bfij3ji2caiioy	128	18	useful	useful	JJ
work_r3pghfglovc7bfij3ji2caiioy	128	19	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	128	20	have	have	VB
work_r3pghfglovc7bfij3ji2caiioy	128	21	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	128	22	database	database	NN
work_r3pghfglovc7bfij3ji2caiioy	128	23	specifi-	specifi-	NN
work_r3pghfglovc7bfij3ji2caiioy	128	24	cally	cally	RB
work_r3pghfglovc7bfij3ji2caiioy	128	25	designed	design	VBN
work_r3pghfglovc7bfij3ji2caiioy	128	26	to	to	TO
work_r3pghfglovc7bfij3ji2caiioy	128	27	catalog	catalog	VB
work_r3pghfglovc7bfij3ji2caiioy	128	28	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	128	29	evaluate	evaluate	VB
work_r3pghfglovc7bfij3ji2caiioy	128	30	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	128	31	possible	possible	JJ
work_r3pghfglovc7bfij3ji2caiioy	128	32	functionality	functionality	NN
work_r3pghfglovc7bfij3ji2caiioy	128	33	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	128	34	smORFs	smORFs	NNP
work_r3pghfglovc7bfij3ji2caiioy	128	35	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	129	1	ACKNOWLEDGMENTS	acknowledgment	NNS
work_r3pghfglovc7bfij3ji2caiioy	129	2	We	-PRON-	PRP
work_r3pghfglovc7bfij3ji2caiioy	129	3	thank	thank	VBP
work_r3pghfglovc7bfij3ji2caiioy	129	4	A.	A.	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	5	Bairoch	Bairoch	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	6	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	129	7	Doug	Doug	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	8	Bassett	Bassett	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	9	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	129	10	Mike	Mike	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	11	Cherry	Cherry	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	12	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	129	13	Mark	Mark	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	14	Johnston	Johnston	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	15	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	129	16	Guy	Guy	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	17	Plun-	plun-	IN
work_r3pghfglovc7bfij3ji2caiioy	129	18	kett	kett	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	19	III	III	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	20	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	129	21	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	129	22	John	John	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	23	Spieth	Spieth	NNP
work_r3pghfglovc7bfij3ji2caiioy	129	24	for	for	IN
work_r3pghfglovc7bfij3ji2caiioy	129	25	helpful	helpful	JJ
work_r3pghfglovc7bfij3ji2caiioy	129	26	dis-	dis-	NN
work_r3pghfglovc7bfij3ji2caiioy	129	27	cussions	cussion	NNS
work_r3pghfglovc7bfij3ji2caiioy	129	28	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	129	29	information	information	NN
work_r3pghfglovc7bfij3ji2caiioy	129	30	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	130	1	REFERENCES	REFERENCES	NNP
work_r3pghfglovc7bfij3ji2caiioy	130	2	Burns	Burns	NNP
work_r3pghfglovc7bfij3ji2caiioy	130	3	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	130	4	N.	N.	NNP
work_r3pghfglovc7bfij3ji2caiioy	130	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	130	6	B.	B.	NNP
work_r3pghfglovc7bfij3ji2caiioy	130	7	Grimwade	Grimwade	NNP
work_r3pghfglovc7bfij3ji2caiioy	130	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	130	9	P.	P.	NNP
work_r3pghfglovc7bfij3ji2caiioy	130	10	Ross	Ross	NNP
work_r3pghfglovc7bfij3ji2caiioy	130	11	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	130	12	MacDonald	MacDonald	NNP
work_r3pghfglovc7bfij3ji2caiioy	130	13	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	130	14	E.-Y.	e.-y.	UH
work_r3pghfglovc7bfij3ji2caiioy	131	1	Choi	Choi	NNP
work_r3pghfglovc7bfij3ji2caiioy	131	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	131	3	K	K	NNP
work_r3pghfglovc7bfij3ji2caiioy	131	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	131	5	Finberg	Finberg	NNP
work_r3pghfglovc7bfij3ji2caiioy	131	6	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	131	7	G.S.	G.S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	132	1	Roeder	roeder	NN
work_r3pghfglovc7bfij3ji2caiioy	132	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	132	3	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	132	4	M.	M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	132	5	Snyder	Snyder	NNP
work_r3pghfglovc7bfij3ji2caiioy	132	6	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	133	1	1995	1995	CD
work_r3pghfglovc7bfij3ji2caiioy	133	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	134	1	Genes	Genes	NNP
work_r3pghfglovc7bfij3ji2caiioy	134	2	&	&	CC
work_r3pghfglovc7bfij3ji2caiioy	134	3	Dev	Dev	NNP
work_r3pghfglovc7bfij3ji2caiioy	134	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	135	1	8	8	CD
work_r3pghfglovc7bfij3ji2caiioy	135	2	:	:	SYM
work_r3pghfglovc7bfij3ji2caiioy	135	3	1087–1105	1087–1105	CD
work_r3pghfglovc7bfij3ji2caiioy	135	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	136	1	Das	Das	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	136	3	S.	S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	136	5	L.	L.	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	6	Yu	Yu	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	7	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	136	8	C.	C.	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	9	Galtatzes	Galtatzes	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	136	11	R.	R.	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	12	Rogers	Rogers	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	13	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	136	14	J.	J.	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	15	Free-	Free-	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	16	man	man	NN
work_r3pghfglovc7bfij3ji2caiioy	136	17	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	136	18	J.	J.	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	19	Blenkowska	Blenkowska	NNP
work_r3pghfglovc7bfij3ji2caiioy	136	20	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	136	21	R.M.	R.M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	137	1	Adams	Adams	NNP
work_r3pghfglovc7bfij3ji2caiioy	137	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	137	3	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	137	4	T.F.	T.F.	NNP
work_r3pghfglovc7bfij3ji2caiioy	138	1	Smith	Smith	NNP
work_r3pghfglovc7bfij3ji2caiioy	138	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	139	1	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	139	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	140	1	Nature	nature	NN
work_r3pghfglovc7bfij3ji2caiioy	140	2	385	385	CD
work_r3pghfglovc7bfij3ji2caiioy	140	3	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	140	4	29–30	29–30	CD
work_r3pghfglovc7bfij3ji2caiioy	140	5	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	141	1	Dujon	Dujon	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	141	3	B.	B.	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	141	5	D.	D.	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	6	Alexandraki	Alexandraki	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	7	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	141	8	B.	B.	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	9	Andre	Andre	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	141	11	W.	W.	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	12	Ansorge	Ansorge	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	13	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	141	14	V.	V.	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	15	Baladron	Baladron	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	16	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	141	17	J.P.	J.P.	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	18	Ballesta	Ballesta	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	19	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	141	20	A.	A.	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	21	Banrevi	Banrevi	NNP
work_r3pghfglovc7bfij3ji2caiioy	141	22	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	141	23	P.A.	P.A.	NNP
work_r3pghfglovc7bfij3ji2caiioy	142	1	Bolle	Bolle	NNP
work_r3pghfglovc7bfij3ji2caiioy	142	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	142	3	M.	M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	142	4	Bolotin	Bolotin	NNP
work_r3pghfglovc7bfij3ji2caiioy	142	5	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	142	6	Fukuhara	Fukuhara	NNP
work_r3pghfglovc7bfij3ji2caiioy	142	7	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	142	8	P.	P.	NNP
work_r3pghfglovc7bfij3ji2caiioy	142	9	Bossier	Bossier	NNP
work_r3pghfglovc7bfij3ji2caiioy	142	10	et	et	NNP
work_r3pghfglovc7bfij3ji2caiioy	142	11	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	142	12	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	143	1	1994	1994	CD
work_r3pghfglovc7bfij3ji2caiioy	143	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	144	1	Nature	nature	NN
work_r3pghfglovc7bfij3ji2caiioy	144	2	369	369	CD
work_r3pghfglovc7bfij3ji2caiioy	144	3	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	144	4	371–378	371–378	CD
work_r3pghfglovc7bfij3ji2caiioy	144	5	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	145	1	Fickett	Fickett	NNP
work_r3pghfglovc7bfij3ji2caiioy	145	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	145	3	J.W.	J.W.	NNP
work_r3pghfglovc7bfij3ji2caiioy	146	1	1995	1995	CD
work_r3pghfglovc7bfij3ji2caiioy	146	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	147	1	J.	J.	NNP
work_r3pghfglovc7bfij3ji2caiioy	147	2	Comput	Comput	NNP
work_r3pghfglovc7bfij3ji2caiioy	147	3	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	148	1	Biol	Biol	NNP
work_r3pghfglovc7bfij3ji2caiioy	148	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	149	1	2	2	LS
work_r3pghfglovc7bfij3ji2caiioy	149	2	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	149	3	117–123	117–123	CD
work_r3pghfglovc7bfij3ji2caiioy	149	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	150	1	Goffeau	Goffeau	NNP
work_r3pghfglovc7bfij3ji2caiioy	150	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	150	3	A.	a.	NN
work_r3pghfglovc7bfij3ji2caiioy	150	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	150	5	B.G.	B.G.	NNP
work_r3pghfglovc7bfij3ji2caiioy	151	1	Barrell	Barrell	NNP
work_r3pghfglovc7bfij3ji2caiioy	151	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	151	3	H.	H.	NNP
work_r3pghfglovc7bfij3ji2caiioy	151	4	Bussey	Bussey	NNP
work_r3pghfglovc7bfij3ji2caiioy	151	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	151	6	R.W.	R.W.	NNP
work_r3pghfglovc7bfij3ji2caiioy	152	1	Davis	Davis	NNP
work_r3pghfglovc7bfij3ji2caiioy	152	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	152	3	B.	B.	NNP
work_r3pghfglovc7bfij3ji2caiioy	152	4	Dujon	Dujon	NNP
work_r3pghfglovc7bfij3ji2caiioy	152	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	152	6	H.	H.	NNP
work_r3pghfglovc7bfij3ji2caiioy	152	7	Feldman	Feldman	NNP
work_r3pghfglovc7bfij3ji2caiioy	152	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	152	9	F.	F.	NNP
work_r3pghfglovc7bfij3ji2caiioy	152	10	Galibert	Galibert	NNP
work_r3pghfglovc7bfij3ji2caiioy	152	11	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	152	12	J.D.	J.D.	NNP
work_r3pghfglovc7bfij3ji2caiioy	153	1	Hoheisel	Hoheisel	NNP
work_r3pghfglovc7bfij3ji2caiioy	153	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	153	3	C.	C.	NNP
work_r3pghfglovc7bfij3ji2caiioy	153	4	Jacq	Jacq	NNP
work_r3pghfglovc7bfij3ji2caiioy	153	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	153	6	M.	M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	153	7	Johnston	Johnston	NNP
work_r3pghfglovc7bfij3ji2caiioy	153	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	153	9	E.J.	E.J.	NNP
work_r3pghfglovc7bfij3ji2caiioy	154	1	Louis	Louis	NNP
work_r3pghfglovc7bfij3ji2caiioy	154	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	154	3	H.W.	H.W.	NNP
work_r3pghfglovc7bfij3ji2caiioy	155	1	Mewes	Mewes	NNP
work_r3pghfglovc7bfij3ji2caiioy	155	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	155	3	Y.	Y.	NNP
work_r3pghfglovc7bfij3ji2caiioy	155	4	Murakami	Murakami	NNP
work_r3pghfglovc7bfij3ji2caiioy	155	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	155	6	P.	P.	NNP
work_r3pghfglovc7bfij3ji2caiioy	155	7	Phillipsen	Phillipsen	NNP
work_r3pghfglovc7bfij3ji2caiioy	155	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	155	9	H.	H.	NNP
work_r3pghfglovc7bfij3ji2caiioy	155	10	Tetteli	Tetteli	NNP
work_r3pghfglovc7bfij3ji2caiioy	155	11	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	155	12	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	155	13	S.G.	S.G.	NNP
work_r3pghfglovc7bfij3ji2caiioy	155	14	Oliver	Oliver	NNP
work_r3pghfglovc7bfij3ji2caiioy	155	15	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	156	1	1996	1996	CD
work_r3pghfglovc7bfij3ji2caiioy	156	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	157	1	Science	science	NN
work_r3pghfglovc7bfij3ji2caiioy	157	2	274	274	CD
work_r3pghfglovc7bfij3ji2caiioy	157	3	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	157	4	546–567	546–567	CD
work_r3pghfglovc7bfij3ji2caiioy	157	5	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	158	1	Goffeau	Goffeau	NNP
work_r3pghfglovc7bfij3ji2caiioy	158	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	158	3	A.	a.	NN
work_r3pghfglovc7bfij3ji2caiioy	158	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	158	5	B.G.	B.G.	NNP
work_r3pghfglovc7bfij3ji2caiioy	159	1	Barrell	Barrell	NNP
work_r3pghfglovc7bfij3ji2caiioy	159	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	159	3	H.	H.	NNP
work_r3pghfglovc7bfij3ji2caiioy	159	4	Bussey	Bussey	NNP
work_r3pghfglovc7bfij3ji2caiioy	159	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	159	6	R.W.	R.W.	NNP
work_r3pghfglovc7bfij3ji2caiioy	160	1	Davis	Davis	NNP
work_r3pghfglovc7bfij3ji2caiioy	160	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	160	3	B.	B.	NNP
work_r3pghfglovc7bfij3ji2caiioy	160	4	Dujon	Dujon	NNP
work_r3pghfglovc7bfij3ji2caiioy	160	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	160	6	H.	H.	NNP
work_r3pghfglovc7bfij3ji2caiioy	160	7	Feldman	Feldman	NNP
work_r3pghfglovc7bfij3ji2caiioy	160	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	160	9	G.	G.	NNP
work_r3pghfglovc7bfij3ji2caiioy	160	10	Galibert	Galibert	NNP
work_r3pghfglovc7bfij3ji2caiioy	160	11	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	160	12	J.D.	J.D.	NNP
work_r3pghfglovc7bfij3ji2caiioy	161	1	Hoheisel	Hoheisel	NNP
work_r3pghfglovc7bfij3ji2caiioy	161	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	161	3	C.	C.	NNP
work_r3pghfglovc7bfij3ji2caiioy	161	4	Jacq	Jacq	NNP
work_r3pghfglovc7bfij3ji2caiioy	161	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	161	6	M.	M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	161	7	Johnston	Johnston	NNP
work_r3pghfglovc7bfij3ji2caiioy	161	8	et	et	FW
work_r3pghfglovc7bfij3ji2caiioy	161	9	al	al	NNP
work_r3pghfglovc7bfij3ji2caiioy	161	10	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	162	1	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	162	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	163	1	Nature	nature	NN
work_r3pghfglovc7bfij3ji2caiioy	163	2	(	(	-LRB-
work_r3pghfglovc7bfij3ji2caiioy	163	3	Suppl	Suppl	NNP
work_r3pghfglovc7bfij3ji2caiioy	163	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	163	5	)	)	-RRB-
work_r3pghfglovc7bfij3ji2caiioy	164	1	387	387	CD
work_r3pghfglovc7bfij3ji2caiioy	164	2	:	:	SYM
work_r3pghfglovc7bfij3ji2caiioy	164	3	1–105	1–105	CD
work_r3pghfglovc7bfij3ji2caiioy	164	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	165	1	Koonin	Koonin	NNP
work_r3pghfglovc7bfij3ji2caiioy	165	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	165	3	E.V.	E.V.	NNP
work_r3pghfglovc7bfij3ji2caiioy	165	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	165	5	P.	P.	NNP
work_r3pghfglovc7bfij3ji2caiioy	165	6	Bork	Bork	NNP
work_r3pghfglovc7bfij3ji2caiioy	165	7	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	165	8	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	165	9	C.	C.	NNP
work_r3pghfglovc7bfij3ji2caiioy	165	10	Sander	Sander	NNP
work_r3pghfglovc7bfij3ji2caiioy	165	11	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	166	1	1994	1994	CD
work_r3pghfglovc7bfij3ji2caiioy	166	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	167	1	EMBO	EMBO	NNP
work_r3pghfglovc7bfij3ji2caiioy	167	2	J.	J.	NNP
work_r3pghfglovc7bfij3ji2caiioy	168	1	13	13	CD
work_r3pghfglovc7bfij3ji2caiioy	168	2	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	168	3	493–503	493–503	CD
work_r3pghfglovc7bfij3ji2caiioy	168	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	169	1	Ross	Ross	NNP
work_r3pghfglovc7bfij3ji2caiioy	169	2	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	169	3	MacDonald	MacDonald	NNP
work_r3pghfglovc7bfij3ji2caiioy	169	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	169	5	P.	P.	NNP
work_r3pghfglovc7bfij3ji2caiioy	169	6	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	169	7	A.G.	A.G.	NNP
work_r3pghfglovc7bfij3ji2caiioy	169	8	Sheehan	Sheehan	NNP
work_r3pghfglovc7bfij3ji2caiioy	169	9	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	169	10	G.S.	G.S.	NNP
work_r3pghfglovc7bfij3ji2caiioy	170	1	Roeder	roeder	NN
work_r3pghfglovc7bfij3ji2caiioy	170	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	170	3	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	170	4	M.	M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	170	5	Snyder	Snyder	NNP
work_r3pghfglovc7bfij3ji2caiioy	170	6	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	171	1	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	171	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	172	1	Proc	Proc	NNP
work_r3pghfglovc7bfij3ji2caiioy	172	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	173	1	Natl	Natl	NNP
work_r3pghfglovc7bfij3ji2caiioy	173	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	174	1	Acad	Acad	NNS
work_r3pghfglovc7bfij3ji2caiioy	174	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	175	1	Sci	Sci	NNP
work_r3pghfglovc7bfij3ji2caiioy	175	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	176	1	94	94	CD
work_r3pghfglovc7bfij3ji2caiioy	176	2	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	176	3	190–195	190–195	CD
work_r3pghfglovc7bfij3ji2caiioy	176	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	177	1	Schena	Schena	NNP
work_r3pghfglovc7bfij3ji2caiioy	177	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	177	3	M.	M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	177	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	177	5	Shalon	Shalon	NNP
work_r3pghfglovc7bfij3ji2caiioy	177	6	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	177	7	D.	D.	NNP
work_r3pghfglovc7bfij3ji2caiioy	177	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	177	9	R.W.	R.W.	NNP
work_r3pghfglovc7bfij3ji2caiioy	178	1	Davis	Davis	NNP
work_r3pghfglovc7bfij3ji2caiioy	178	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	178	3	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	178	4	P.O.	P.O.	NNP
work_r3pghfglovc7bfij3ji2caiioy	179	1	Brown	Brown	NNP
work_r3pghfglovc7bfij3ji2caiioy	179	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	180	1	1995	1995	CD
work_r3pghfglovc7bfij3ji2caiioy	180	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	181	1	Science	science	NN
work_r3pghfglovc7bfij3ji2caiioy	181	2	270	270	CD
work_r3pghfglovc7bfij3ji2caiioy	181	3	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	181	4	467–470	467–470	CD
work_r3pghfglovc7bfij3ji2caiioy	181	5	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	182	1	Sharp	sharp	JJ
work_r3pghfglovc7bfij3ji2caiioy	182	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	182	3	P.M.	P.M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	182	4	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	182	5	W.H.	W.H.	NNP
work_r3pghfglovc7bfij3ji2caiioy	183	1	Li	Li	NNP
work_r3pghfglovc7bfij3ji2caiioy	183	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	184	1	1987	1987	CD
work_r3pghfglovc7bfij3ji2caiioy	184	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	185	1	Nucleic	Nucleic	NNP
work_r3pghfglovc7bfij3ji2caiioy	185	2	Acids	Acids	NNPS
work_r3pghfglovc7bfij3ji2caiioy	185	3	Res	Res	NNP
work_r3pghfglovc7bfij3ji2caiioy	185	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	186	1	15	15	CD
work_r3pghfglovc7bfij3ji2caiioy	186	2	:	:	SYM
work_r3pghfglovc7bfij3ji2caiioy	186	3	1281–1295	1281–1295	CD
work_r3pghfglovc7bfij3ji2caiioy	186	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	187	1	Shoemaker	shoemaker	NN
work_r3pghfglovc7bfij3ji2caiioy	187	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	187	3	D.D.	D.D.	NNP
work_r3pghfglovc7bfij3ji2caiioy	187	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	187	5	D.A.	D.A.	NNP
work_r3pghfglovc7bfij3ji2caiioy	188	1	Lashkari	Lashkari	NNP
work_r3pghfglovc7bfij3ji2caiioy	188	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	188	3	D.	D.	NNP
work_r3pghfglovc7bfij3ji2caiioy	188	4	Morris	Morris	NNP
work_r3pghfglovc7bfij3ji2caiioy	188	5	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	188	6	M.	M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	188	7	Mittman	Mittman	NNP
work_r3pghfglovc7bfij3ji2caiioy	188	8	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	188	9	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	188	10	R.W.	R.W.	NNP
work_r3pghfglovc7bfij3ji2caiioy	189	1	Davis	Davis	NNP
work_r3pghfglovc7bfij3ji2caiioy	189	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	190	1	1996	1996	CD
work_r3pghfglovc7bfij3ji2caiioy	190	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	191	1	Nature	Nature	NNP
work_r3pghfglovc7bfij3ji2caiioy	191	2	Genet	Genet	NNP
work_r3pghfglovc7bfij3ji2caiioy	191	3	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	192	1	14	14	CD
work_r3pghfglovc7bfij3ji2caiioy	192	2	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	192	3	450–456	450–456	CD
work_r3pghfglovc7bfij3ji2caiioy	192	4	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	193	1	Smith	Smith	NNP
work_r3pghfglovc7bfij3ji2caiioy	193	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	193	3	V.	V.	NNP
work_r3pghfglovc7bfij3ji2caiioy	193	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	193	5	K.N.	K.N.	NNP
work_r3pghfglovc7bfij3ji2caiioy	194	1	Chou	Chou	NNP
work_r3pghfglovc7bfij3ji2caiioy	194	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	194	3	D.V.	D.V.	NNP
work_r3pghfglovc7bfij3ji2caiioy	195	1	Lashkari	Lashkari	NNP
work_r3pghfglovc7bfij3ji2caiioy	195	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	195	3	D.	D.	NNP
work_r3pghfglovc7bfij3ji2caiioy	195	4	Bot-	Bot-	NNP
work_r3pghfglovc7bfij3ji2caiioy	195	5	s	s	NNP
work_r3pghfglovc7bfij3ji2caiioy	195	6	t	t	NNP
work_r3pghfglovc7bfij3ji2caiioy	195	7	e	e	NNP
work_r3pghfglovc7bfij3ji2caiioy	195	8	i	i	NNP
work_r3pghfglovc7bfij3ji2caiioy	195	9	n	n	CD
work_r3pghfglovc7bfij3ji2caiioy	195	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	195	11	a	a	DT
work_r3pghfglovc7bfij3ji2caiioy	195	12	n	n	NN
work_r3pghfglovc7bfij3ji2caiioy	195	13	d	d	NN
work_r3pghfglovc7bfij3ji2caiioy	195	14	P	p	NN
work_r3pghfglovc7bfij3ji2caiioy	195	15	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	196	1	O	o	UH
work_r3pghfglovc7bfij3ji2caiioy	196	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	197	1	B	B	NNP
work_r3pghfglovc7bfij3ji2caiioy	197	2	r	r	NNP
work_r3pghfglovc7bfij3ji2caiioy	197	3	o	o	NNP
work_r3pghfglovc7bfij3ji2caiioy	197	4	w	w	NNP
work_r3pghfglovc7bfij3ji2caiioy	197	5	n	n	NN
work_r3pghfglovc7bfij3ji2caiioy	197	6	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	198	1	1	1	CD
work_r3pghfglovc7bfij3ji2caiioy	198	2	9	9	CD
work_r3pghfglovc7bfij3ji2caiioy	198	3	9	9	CD
work_r3pghfglovc7bfij3ji2caiioy	198	4	6	6	CD
work_r3pghfglovc7bfij3ji2caiioy	198	5	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	199	1	S	S	NNP
work_r3pghfglovc7bfij3ji2caiioy	199	2	c	c	NN
work_r3pghfglovc7bfij3ji2caiioy	199	3	i	i	NN
work_r3pghfglovc7bfij3ji2caiioy	199	4	e	e	NN
work_r3pghfglovc7bfij3ji2caiioy	199	5	n	n	CC
work_r3pghfglovc7bfij3ji2caiioy	199	6	c	c	NNP
work_r3pghfglovc7bfij3ji2caiioy	199	7	e	e	NNP
work_r3pghfglovc7bfij3ji2caiioy	199	8	274	274	CD
work_r3pghfglovc7bfij3ji2caiioy	199	9	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	199	10	2069–2074	2069–2074	CD
work_r3pghfglovc7bfij3ji2caiioy	199	11	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	200	1	Termier	Termier	NNP
work_r3pghfglovc7bfij3ji2caiioy	200	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	200	3	M.	M.	NNP
work_r3pghfglovc7bfij3ji2caiioy	200	4	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	200	5	A.	A.	NNP
work_r3pghfglovc7bfij3ji2caiioy	200	6	Kalogeropoulos	Kalogeropoulos	NNP
work_r3pghfglovc7bfij3ji2caiioy	200	7	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	201	1	1996	1996	CD
work_r3pghfglovc7bfij3ji2caiioy	201	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	202	1	Yeast	yeast	NN
work_r3pghfglovc7bfij3ji2caiioy	202	2	12	12	CD
work_r3pghfglovc7bfij3ji2caiioy	202	3	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	202	4	369–384	369–384	CD
work_r3pghfglovc7bfij3ji2caiioy	202	5	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	203	1	Velculescu	Velculescu	NNP
work_r3pghfglovc7bfij3ji2caiioy	203	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	203	3	V.	V.	NNP
work_r3pghfglovc7bfij3ji2caiioy	203	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	203	5	L.	L.	NNP
work_r3pghfglovc7bfij3ji2caiioy	203	6	Zhang	Zhang	NNP
work_r3pghfglovc7bfij3ji2caiioy	203	7	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	203	8	W.	W.	NNP
work_r3pghfglovc7bfij3ji2caiioy	203	9	Zhou	Zhou	NNP
work_r3pghfglovc7bfij3ji2caiioy	203	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	203	11	J.	J.	NNP
work_r3pghfglovc7bfij3ji2caiioy	203	12	Vogel-	Vogel-	NNP
work_r3pghfglovc7bfij3ji2caiioy	203	13	stein	stein	NN
work_r3pghfglovc7bfij3ji2caiioy	203	14	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	203	15	M.A.	M.A.	NNP
work_r3pghfglovc7bfij3ji2caiioy	204	1	Basrai	Basrai	NNP
work_r3pghfglovc7bfij3ji2caiioy	204	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	204	3	D.E.	D.E.	NNP
work_r3pghfglovc7bfij3ji2caiioy	205	1	Bassett	Bassett	NNP
work_r3pghfglovc7bfij3ji2caiioy	205	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	205	3	Jr.	Jr.	NNP
work_r3pghfglovc7bfij3ji2caiioy	205	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	205	5	P.	P.	NNP
work_r3pghfglovc7bfij3ji2caiioy	205	6	Hieter	Hieter	NNP
work_r3pghfglovc7bfij3ji2caiioy	205	7	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	205	8	B.	B.	NNP
work_r3pghfglovc7bfij3ji2caiioy	205	9	Vogelstein	Vogelstein	NNP
work_r3pghfglovc7bfij3ji2caiioy	205	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	205	11	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	205	12	K.	K.	NNP
work_r3pghfglovc7bfij3ji2caiioy	205	13	Kinzler	Kinzler	NNP
work_r3pghfglovc7bfij3ji2caiioy	205	14	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	206	1	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	206	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	207	1	Cell	cell	NN
work_r3pghfglovc7bfij3ji2caiioy	207	2	88	88	CD
work_r3pghfglovc7bfij3ji2caiioy	207	3	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	207	4	243–251	243–251	CD
work_r3pghfglovc7bfij3ji2caiioy	207	5	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	208	1	Velculescu	Velculescu	NNP
work_r3pghfglovc7bfij3ji2caiioy	208	2	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	208	3	V.E.	V.E.	NNP
work_r3pghfglovc7bfij3ji2caiioy	208	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	208	5	L.	L.	NNP
work_r3pghfglovc7bfij3ji2caiioy	208	6	Zhang	Zhang	NNP
work_r3pghfglovc7bfij3ji2caiioy	208	7	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	208	8	B.	B.	NNP
work_r3pghfglovc7bfij3ji2caiioy	208	9	Vogelstein	Vogelstein	NNP
work_r3pghfglovc7bfij3ji2caiioy	208	10	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	208	11	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	208	12	K.	K.	NNP
work_r3pghfglovc7bfij3ji2caiioy	208	13	Kinzler	Kinzler	NNP
work_r3pghfglovc7bfij3ji2caiioy	208	14	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	209	1	1995	1995	CD
work_r3pghfglovc7bfij3ji2caiioy	209	2	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	210	1	Science	science	NN
work_r3pghfglovc7bfij3ji2caiioy	210	2	270	270	CD
work_r3pghfglovc7bfij3ji2caiioy	210	3	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	210	4	484–487	484–487	CD
work_r3pghfglovc7bfij3ji2caiioy	210	5	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	211	1	Insight	Insight	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	2	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	211	3	Outlook	Outlook	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	4	GENOME	GENOME	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	5	RESEARCH	research	NN
work_r3pghfglovc7bfij3ji2caiioy	211	6	771	771	CD
work_r3pghfglovc7bfij3ji2caiioy	211	7	Cold	Cold	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	8	Spring	Spring	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	9	Harbor	Harbor	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	10	Laboratory	Laboratory	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	11	Press	Press	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	12	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	211	13	April	April	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	14	5	5	CD
work_r3pghfglovc7bfij3ji2caiioy	211	15	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	211	16	2021	2021	CD
work_r3pghfglovc7bfij3ji2caiioy	211	17	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	211	18	Published	publish	VBN
work_r3pghfglovc7bfij3ji2caiioy	211	19	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	211	20	genome.cshlp.orgDownloaded	genome.cshlp.orgDownloaded	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	21	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	211	22	http://genome.cshlp.org/	http://genome.cshlp.org/	CD
work_r3pghfglovc7bfij3ji2caiioy	211	23	http://www.cshlpress.com	http://www.cshlpress.com	ADD
work_r3pghfglovc7bfij3ji2caiioy	211	24	10.1101	10.1101	CD
work_r3pghfglovc7bfij3ji2caiioy	211	25	/	/	SYM
work_r3pghfglovc7bfij3ji2caiioy	211	26	gr.7.8.768Access	gr.7.8.768access	NN
work_r3pghfglovc7bfij3ji2caiioy	211	27	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	211	28	most	most	RBS
work_r3pghfglovc7bfij3ji2caiioy	211	29	recent	recent	JJ
work_r3pghfglovc7bfij3ji2caiioy	211	30	version	version	NN
work_r3pghfglovc7bfij3ji2caiioy	211	31	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	211	32	doi	doi	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	33	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	211	34	1997	1997	CD
work_r3pghfglovc7bfij3ji2caiioy	211	35	7	7	CD
work_r3pghfglovc7bfij3ji2caiioy	211	36	:	:	SYM
work_r3pghfglovc7bfij3ji2caiioy	211	37	768	768	CD
work_r3pghfglovc7bfij3ji2caiioy	211	38	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	211	39	771	771	CD
work_r3pghfglovc7bfij3ji2caiioy	211	40	Genome	Genome	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	41	Res	Res	NNP
work_r3pghfglovc7bfij3ji2caiioy	211	42	.	.	.
work_r3pghfglovc7bfij3ji2caiioy	212	1	Munira	Munira	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	2	A.	A.	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	3	Basrai	Basrai	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	4	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	212	5	Philip	Philip	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	6	Hieter	Hieter	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	7	and	and	CC
work_r3pghfglovc7bfij3ji2caiioy	212	8	Jef	Jef	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	9	D.	D.	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	10	Boeke	Boeke	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	11	Haystack	Haystack	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	12	Small	Small	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	13	Open	open	JJ
work_r3pghfglovc7bfij3ji2caiioy	212	14	Reading	reading	NN
work_r3pghfglovc7bfij3ji2caiioy	212	15	Frames	frame	NNS
work_r3pghfglovc7bfij3ji2caiioy	212	16	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	212	17	Beautiful	beautiful	JJ
work_r3pghfglovc7bfij3ji2caiioy	212	18	Needles	Needles	NNPS
work_r3pghfglovc7bfij3ji2caiioy	212	19	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	212	20	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	212	21	References	reference	NNS
work_r3pghfglovc7bfij3ji2caiioy	212	22	http://genome.cshlp.org/content/7/8/768.full.html#ref-list-1	http://genome.cshlp.org/content/7/8/768.full.html#ref-list-1	CD
work_r3pghfglovc7bfij3ji2caiioy	212	23	This	this	DT
work_r3pghfglovc7bfij3ji2caiioy	212	24	article	article	NN
work_r3pghfglovc7bfij3ji2caiioy	212	25	cites	cite	VBZ
work_r3pghfglovc7bfij3ji2caiioy	212	26	14	14	CD
work_r3pghfglovc7bfij3ji2caiioy	212	27	articles	article	NNS
work_r3pghfglovc7bfij3ji2caiioy	212	28	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	212	29	6	6	CD
work_r3pghfglovc7bfij3ji2caiioy	212	30	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	212	31	which	which	WDT
work_r3pghfglovc7bfij3ji2caiioy	212	32	can	can	MD
work_r3pghfglovc7bfij3ji2caiioy	212	33	be	be	VB
work_r3pghfglovc7bfij3ji2caiioy	212	34	accessed	access	VBN
work_r3pghfglovc7bfij3ji2caiioy	212	35	free	free	JJ
work_r3pghfglovc7bfij3ji2caiioy	212	36	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	212	37	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	212	38	License	License	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	39	Service	Service	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	40	Email	Email	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	41	Alerting	Alerting	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	42	click	click	VBP
work_r3pghfglovc7bfij3ji2caiioy	212	43	here.top	here.top	JJ
work_r3pghfglovc7bfij3ji2caiioy	212	44	right	right	JJ
work_r3pghfglovc7bfij3ji2caiioy	212	45	corner	corner	NN
work_r3pghfglovc7bfij3ji2caiioy	212	46	of	of	IN
work_r3pghfglovc7bfij3ji2caiioy	212	47	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	212	48	article	article	NN
work_r3pghfglovc7bfij3ji2caiioy	212	49	or	or	CC
work_r3pghfglovc7bfij3ji2caiioy	212	50	Receive	receive	VB
work_r3pghfglovc7bfij3ji2caiioy	212	51	free	free	JJ
work_r3pghfglovc7bfij3ji2caiioy	212	52	email	email	NN
work_r3pghfglovc7bfij3ji2caiioy	212	53	alerts	alert	NNS
work_r3pghfglovc7bfij3ji2caiioy	212	54	when	when	WRB
work_r3pghfglovc7bfij3ji2caiioy	212	55	new	new	JJ
work_r3pghfglovc7bfij3ji2caiioy	212	56	articles	article	NNS
work_r3pghfglovc7bfij3ji2caiioy	212	57	cite	cite	VBP
work_r3pghfglovc7bfij3ji2caiioy	212	58	this	this	DT
work_r3pghfglovc7bfij3ji2caiioy	212	59	article	article	NN
work_r3pghfglovc7bfij3ji2caiioy	212	60	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	212	61	sign	sign	VB
work_r3pghfglovc7bfij3ji2caiioy	212	62	up	up	RP
work_r3pghfglovc7bfij3ji2caiioy	212	63	in	in	IN
work_r3pghfglovc7bfij3ji2caiioy	212	64	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	212	65	box	box	NN
work_r3pghfglovc7bfij3ji2caiioy	212	66	at	at	IN
work_r3pghfglovc7bfij3ji2caiioy	212	67	the	the	DT
work_r3pghfglovc7bfij3ji2caiioy	212	68	https://genome.cshlp.org/subscriptions	https://genome.cshlp.org/subscriptions	ADD
work_r3pghfglovc7bfij3ji2caiioy	212	69	go	go	VB
work_r3pghfglovc7bfij3ji2caiioy	212	70	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	212	71	:	:	:
work_r3pghfglovc7bfij3ji2caiioy	212	72	Genome	Genome	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	73	Research	Research	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	74	To	to	TO
work_r3pghfglovc7bfij3ji2caiioy	212	75	subscribe	subscribe	VB
work_r3pghfglovc7bfij3ji2caiioy	212	76	to	to	IN
work_r3pghfglovc7bfij3ji2caiioy	212	77	Cold	Cold	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	78	Spring	Spring	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	79	Harbor	Harbor	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	80	Laboratory	Laboratory	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	81	Press	Press	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	82	Cold	Cold	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	83	Spring	Spring	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	84	Harbor	Harbor	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	85	Laboratory	Laboratory	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	86	Press	Press	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	87	on	on	IN
work_r3pghfglovc7bfij3ji2caiioy	212	88	April	April	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	89	5	5	CD
work_r3pghfglovc7bfij3ji2caiioy	212	90	,	,	,
work_r3pghfglovc7bfij3ji2caiioy	212	91	2021	2021	CD
work_r3pghfglovc7bfij3ji2caiioy	212	92	-	-	HYPH
work_r3pghfglovc7bfij3ji2caiioy	212	93	Published	publish	VBN
work_r3pghfglovc7bfij3ji2caiioy	212	94	by	by	IN
work_r3pghfglovc7bfij3ji2caiioy	212	95	genome.cshlp.orgDownloaded	genome.cshlp.orgDownloaded	NNP
work_r3pghfglovc7bfij3ji2caiioy	212	96	from	from	IN
work_r3pghfglovc7bfij3ji2caiioy	212	97	http://genome.cshlp.org/lookup/doi/10.1101/gr.7.8.768	http://genome.cshlp.org/lookup/doi/10.1101/gr.7.8.768	JJ
work_r3pghfglovc7bfij3ji2caiioy	212	98	http://genome.cshlp.org/content/7/8/768.full.html#ref-list-1	http://genome.cshlp.org/content/7/8/768.full.html#ref-list-1	CD
work_r3pghfglovc7bfij3ji2caiioy	212	99	http://genome.cshlp.org/cgi/alerts/ctalert?alertType=citedby&addAlert=cited_by&saveAlert=no&cited_by_criteria_resid=protocols;10.1101/gr.7.8.768&return_type=article&return_url=http://genome.cshlp.org/content/10.1101/gr.7.8.768.full.pdf	http://genome.cshlp.org/cgi/alerts/ctalert?alertType=citedby&addAlert=cited_by&saveAlert=no&cited_by_criteria_resid=protocols;10.1101/gr.7.8.768&return_type=article&return_url=http://genome.cshlp.org/content/10.1101/gr.7.8.768.full.pdf	NNS
work_r3pghfglovc7bfij3ji2caiioy	212	100	https://genome.cshlp.org/subscriptions	https://genome.cshlp.org/subscriptions	ADD
work_r3pghfglovc7bfij3ji2caiioy	212	101	http://genome.cshlp.org/	http://genome.cshlp.org/	ADD
work_r3pghfglovc7bfij3ji2caiioy	212	102	http://www.cshlpress.com	http://www.cshlpress.com	ADD