id	sid	tid	token	lemma	pos
work_2hfvnli6qndh3p3kqrzilygb4m	1	1	pq010000268p	pq010000268p	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	2	A	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	1	3	human	human	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	1	4	model	model	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	5	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	6	multigenic	multigenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	1	7	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	8	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	1	9	Phenotypic	phenotypic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	1	10	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	12	Hirschsprung	Hirschsprung	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	13	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	14	requires	require	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	1	15	both	both	CC
work_2hfvnli6qndh3p3kqrzilygb4m	1	16	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	1	17	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	18	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	19	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	1	20	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	1	21	new	new	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	1	22	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	1	23	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	24	Stacey	Stacey	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	25	Bolk	Bolk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	26	*	*	NFP
work_2hfvnli6qndh3p3kqrzilygb4m	1	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	28	Anna	Anna	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	29	Pelet†	Pelet†	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	31	Robert	Robert	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	32	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	33	W.	W.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	34	Hofstra‡	Hofstra‡	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	35	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	36	Misha	Misha	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	37	Angrist	Angrist	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	38	*	*	NFP
work_2hfvnli6qndh3p3kqrzilygb4m	1	39	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	40	Remi	Remi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	41	Salomon†	Salomon†	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	42	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	43	David	David	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	44	Croaker§	Croaker§	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	45	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	46	Charles	Charles	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	47	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	48	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	49	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	50	Buys‡	Buys‡	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	51	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	52	Stanislas	Stanislas	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	53	Lyonnet†	Lyonnet†	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	54	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	55	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	1	56	Aravinda	Aravinda	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	57	Chakravarti*¶	chakravarti*¶	XX
work_2hfvnli6qndh3p3kqrzilygb4m	1	58	*	*	NFP
work_2hfvnli6qndh3p3kqrzilygb4m	1	59	Department	Department	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	60	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	61	Genetics	Genetics	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	62	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	1	63	Center	Center	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	64	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	65	Human	Human	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	66	Genetics	Genetics	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	1	67	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	68	Case	Case	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	69	Western	Western	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	70	Reserve	Reserve	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	71	University	University	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	72	School	School	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	73	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	74	Medicine	Medicine	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	75	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	1	76	University	University	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	77	Hospitals	Hospitals	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	1	78	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	79	Cleveland	Cleveland	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	80	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	81	Cleveland	Cleveland	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	82	OH	OH	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	83	44106	44106	CD
work_2hfvnli6qndh3p3kqrzilygb4m	1	84	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	1	85	†Department	†department	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	86	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	87	Genetics	Genetics	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	88	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	1	89	Unite	Unite	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	90	Institut	Institut	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	91	National	National	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	92	de	de	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	93	la	la	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	94	Santé	Santé	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	95	et	et	FW
work_2hfvnli6qndh3p3kqrzilygb4m	1	96	de	de	FW
work_2hfvnli6qndh3p3kqrzilygb4m	1	97	la	la	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	98	Recherche	Recherche	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	99	Médicale	Médicale	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	100	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	101	U-393	U-393	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	102	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	103	Hopital	Hopital	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	104	des	des	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	105	Enfants	Enfants	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	106	Malades	Malades	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	107	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	108	75743	75743	CD
work_2hfvnli6qndh3p3kqrzilygb4m	1	109	Paris	Paris	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	110	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	111	France	France	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	112	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	1	113	‡Department	‡department	CD
work_2hfvnli6qndh3p3kqrzilygb4m	1	114	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	115	Medical	Medical	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	116	Genetics	Genetics	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	1	117	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	118	University	University	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	119	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	120	Groningen	Groningen	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	121	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	122	Groningen	Groningen	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	123	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	124	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	1	125	Netherlands	Netherlands	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	126	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	1	127	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	1	128	§	§	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	1	129	Department	Department	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	130	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	131	Surgical	Surgical	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	132	Research	Research	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	133	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	134	New	New	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	135	Children	Children	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	136	’s	’s	POS
work_2hfvnli6qndh3p3kqrzilygb4m	1	137	Hospital	Hospital	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	138	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	139	Westmead	Westmead	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	140	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	141	Australia	Australia	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	142	Communicated	communicate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	1	143	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	144	Victor	Victor	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	145	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	146	McKusick	McKusick	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	147	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	148	Johns	Johns	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	149	Hopkins	Hopkins	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	150	University	University	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	151	School	School	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	152	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	153	Medicine	Medicine	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	154	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	155	Baltimore	Baltimore	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	156	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	157	MD	MD	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	158	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	159	October	October	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	160	14	14	CD
work_2hfvnli6qndh3p3kqrzilygb4m	1	161	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	162	1999	1999	CD
work_2hfvnli6qndh3p3kqrzilygb4m	1	163	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	1	164	received	receive	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	1	165	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	166	review	review	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	167	May	May	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	1	168	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	1	169	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	1	170	1999	1999	CD
work_2hfvnli6qndh3p3kqrzilygb4m	1	171	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	1	172	Reduced	reduce	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	1	173	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	174	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	175	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	1	176	disorders	disorder	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	1	177	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	1	178	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	1	179	either	either	CC
work_2hfvnli6qndh3p3kqrzilygb4m	1	180	dependent	dependent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	1	181	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	1	182	independent	independent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	1	183	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	184	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	1	185	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	1	186	background	background	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	187	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	1	188	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	1	189	carriers	carrier	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	1	190	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	2	1	Hirsch-	Hirsch-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	2	2	sprung	sprung	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	2	3	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	2	4	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	2	5	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	2	6	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	2	7	demonstrates	demonstrate	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	2	8	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	2	9	complex	complex	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	2	10	pattern	pattern	NN
work_2hfvnli6qndh3p3kqrzilygb4m	2	11	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	2	12	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	2	13	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	2	14	'	'	CD
work_2hfvnli6qndh3p3kqrzilygb4m	2	15	50	50	CD
work_2hfvnli6qndh3p3kqrzilygb4m	2	16	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	2	17	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	2	18	familial	familial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	2	19	cases	case	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	2	20	being	be	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	2	21	heterozygous	heterozygous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	2	22	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	2	23	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	2	24	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	2	25	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	2	26	receptor	receptor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	2	27	tyrosine	tyrosine	NN
work_2hfvnli6qndh3p3kqrzilygb4m	2	28	kinase	kinase	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	2	29	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	2	30	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	3	1	Even	even	RB
work_2hfvnli6qndh3p3kqrzilygb4m	3	2	when	when	WRB
work_2hfvnli6qndh3p3kqrzilygb4m	3	3	identified	identify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	3	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	3	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	3	6	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	3	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	3	8	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	3	9	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	3	10	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	3	11	only	only	RB
work_2hfvnli6qndh3p3kqrzilygb4m	3	12	50	50	CD
work_2hfvnli6qndh3p3kqrzilygb4m	3	13	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	3	14	70	70	CD
work_2hfvnli6qndh3p3kqrzilygb4m	3	15	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	3	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	3	17	gender	gender	NN
work_2hfvnli6qndh3p3kqrzilygb4m	3	18	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	3	19	dependent	dependent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	3	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	3	21	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	3	22	varies	vary	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	3	23	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	3	24	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	3	25	extent	extent	NN
work_2hfvnli6qndh3p3kqrzilygb4m	3	26	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	3	27	aganglionosis	aganglionosis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	3	28	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	4	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	4	2	searched	search	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	4	3	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	4	4	additional	additional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	4	5	susceptibility	susceptibility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	4	6	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	4	7	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	4	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	4	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	4	10	conjunction	conjunction	NN
work_2hfvnli6qndh3p3kqrzilygb4m	4	11	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	4	12	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	4	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	4	14	lead	lead	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	4	15	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	4	16	phenotypic	phenotypic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	4	17	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	4	18	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	4	19	studying	study	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	4	20	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	4	21	multiplex	multiplex	NN
work_2hfvnli6qndh3p3kqrzilygb4m	4	22	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	4	23	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	4	24	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	5	1	Haplotype	Haplotype	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	5	2	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	5	3	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	5	4	extensive	extensive	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	5	5	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	5	6	screening	screening	NN
work_2hfvnli6qndh3p3kqrzilygb4m	5	7	demonstrated	demonstrate	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	5	8	three	three	CD
work_2hfvnli6qndh3p3kqrzilygb4m	5	9	types	type	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	5	10	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	5	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	5	12	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	5	13	six	six	CD
work_2hfvnli6qndh3p3kqrzilygb4m	5	14	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	5	15	harboring	harbor	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	5	16	severe	severe	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	5	17	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	5	18	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	5	19	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	5	20	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	5	21	I	I	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	5	22	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	5	23	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	5	24	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	5	25	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	5	26	six	six	CD
work_2hfvnli6qndh3p3kqrzilygb4m	5	27	remaining	remain	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	5	28	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	5	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	5	30	five	five	CD
work_2hfvnli6qndh3p3kqrzilygb4m	5	31	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	5	32	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	5	33	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	5	34	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	5	35	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	5	36	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	5	37	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	5	38	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	5	39	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	5	40	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	5	41	alterations	alteration	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	5	42	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	5	43	one	one	CD
work_2hfvnli6qndh3p3kqrzilygb4m	5	44	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	5	45	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	5	46	unlinked	unlinked	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	5	47	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	5	48	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	5	49	group	group	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	5	50	II	II	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	5	51	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	5	52	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	6	1	Al-	al-	RB
work_2hfvnli6qndh3p3kqrzilygb4m	6	2	though	though	IN
work_2hfvnli6qndh3p3kqrzilygb4m	6	3	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	6	4	presence	presence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	6	5	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	6	6	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	6	7	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	6	8	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	6	9	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	6	10	I	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	6	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	6	12	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	6	13	sufficient	sufficient	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	6	14	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	6	15	explain	explain	VB
work_2hfvnli6qndh3p3kqrzilygb4m	6	16	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	6	17	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	6	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	6	19	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	6	20	genome	genome	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	6	21	scan	scan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	6	22	reveals	reveal	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	6	23	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	6	24	new	new	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	6	25	suscepti-	suscepti-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	6	26	bility	bility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	6	27	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	6	28	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	6	29	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	6	30	exclusively	exclusively	RB
work_2hfvnli6qndh3p3kqrzilygb4m	6	31	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	6	32	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	6	33	II	II	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	6	34	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	6	35	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	7	1	As	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	7	2	such	such	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	7	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	7	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	7	5	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	7	6	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	7	7	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	7	8	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	7	9	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	7	10	modifier	modifier	NN
work_2hfvnli6qndh3p3kqrzilygb4m	7	11	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	7	12	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	7	13	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	7	14	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	8	1	These	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	8	2	observations	observation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	8	3	imply	imply	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	8	4	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	8	5	identification	identification	NN
work_2hfvnli6qndh3p3kqrzilygb4m	8	6	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	8	7	new	new	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	8	8	susceptibility	susceptibility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	8	9	factors	factor	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	8	10	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	8	11	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	8	12	complex	complex	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	8	13	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	8	14	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	8	15	depend	depend	VB
work_2hfvnli6qndh3p3kqrzilygb4m	8	16	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	8	17	classification	classification	NN
work_2hfvnli6qndh3p3kqrzilygb4m	8	18	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	8	19	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	8	20	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	8	21	mutational	mutational	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	8	22	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	8	23	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	8	24	known	know	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	8	25	susceptibility	susceptibility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	8	26	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	8	27	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	9	1	A	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	9	2	major	major	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	9	3	hallmark	hallmark	NN
work_2hfvnli6qndh3p3kqrzilygb4m	9	4	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	9	5	phenotypes	phenotype	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	9	6	displaying	display	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	9	7	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	9	8	complex	complex	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	9	9	pattern	pattern	NN
work_2hfvnli6qndh3p3kqrzilygb4m	9	10	ofinheritance	ofinheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	9	11	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	9	12	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	9	13	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	9	14	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	9	15	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	9	16	factors	factor	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	9	17	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	10	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	10	2	principle	principle	NN
work_2hfvnli6qndh3p3kqrzilygb4m	10	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	10	4	linkage	linkage	VB
work_2hfvnli6qndh3p3kqrzilygb4m	10	5	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	10	6	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	10	7	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	10	8	collection	collection	NN
work_2hfvnli6qndh3p3kqrzilygb4m	10	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	10	10	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	10	11	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	10	12	identify	identify	VB
work_2hfvnli6qndh3p3kqrzilygb4m	10	13	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	10	14	loci	loci	NN
work_2hfvnli6qndh3p3kqrzilygb4m	10	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	10	16	although	although	IN
work_2hfvnli6qndh3p3kqrzilygb4m	10	17	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	10	18	individual	individual	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	10	19	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	10	20	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	10	21	segregate	segregate	VB
work_2hfvnli6qndh3p3kqrzilygb4m	10	22	only	only	RB
work_2hfvnli6qndh3p3kqrzilygb4m	10	23	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	10	24	few	few	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	10	25	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	10	26	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	10	27	relevant	relevant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	10	28	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	10	29	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	11	1	Multilocus	Multilocus	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	11	2	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	11	3	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	11	4	compatible	compatible	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	11	5	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	11	6	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	11	7	distinct	distinct	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	11	8	hypotheses	hypothesis	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	11	9	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	12	1	Thus	thus	RB
work_2hfvnli6qndh3p3kqrzilygb4m	12	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	12	3	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	12	4	phenotype	phenotype	NN
work_2hfvnli6qndh3p3kqrzilygb4m	12	5	could	could	MD
work_2hfvnli6qndh3p3kqrzilygb4m	12	6	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	12	7	multigenic	multigenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	12	8	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	12	9	multifactorial	multifactorial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	12	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	12	11	resulting	result	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	12	12	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	12	13	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	12	14	cumulative	cumulative	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	12	15	effects	effect	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	12	16	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	12	17	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	12	18	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	12	19	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	12	20	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	12	21	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	12	22	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	12	23	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	12	24	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	12	25	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	12	26	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	12	27	then	then	RB
work_2hfvnli6qndh3p3kqrzilygb4m	12	28	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	12	29	sensitive	sensitive	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	12	30	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	12	31	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	12	32	individual	individual	NN
work_2hfvnli6qndh3p3kqrzilygb4m	12	33	’s	’s	POS
work_2hfvnli6qndh3p3kqrzilygb4m	12	34	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	12	35	background	background	NN
work_2hfvnli6qndh3p3kqrzilygb4m	12	36	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	13	1	This	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	13	2	hypothesis	hypothesis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	13	3	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	13	4	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	13	5	contrast	contrast	NN
work_2hfvnli6qndh3p3kqrzilygb4m	13	6	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	13	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	13	8	simple	simple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	13	9	association	association	NN
work_2hfvnli6qndh3p3kqrzilygb4m	13	10	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	13	11	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	13	12	disorder	disorder	NN
work_2hfvnli6qndh3p3kqrzilygb4m	13	13	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	13	14	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	13	15	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	13	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	13	17	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	13	18	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	13	19	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	13	20	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	13	21	heterogeneity	heterogeneity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	13	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	13	23	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	13	24	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	13	25	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	13	26	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	13	27	any	any	DT
work_2hfvnli6qndh3p3kqrzilygb4m	13	28	one	one	CD
work_2hfvnli6qndh3p3kqrzilygb4m	13	29	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	13	30	several	several	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	13	31	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	13	32	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	13	33	sufficient	sufficient	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	13	34	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	13	35	phenotypic	phenotypic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	13	36	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	13	37	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	13	38	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	13	39	independent	independent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	13	40	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	13	41	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	13	42	background	background	NN
work_2hfvnli6qndh3p3kqrzilygb4m	13	43	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	14	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	14	2	either	either	DT
work_2hfvnli6qndh3p3kqrzilygb4m	14	3	scenario	scenario	NN
work_2hfvnli6qndh3p3kqrzilygb4m	14	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	14	5	linkage	linkage	VB
work_2hfvnli6qndh3p3kqrzilygb4m	14	6	heterogeneity	heterogeneity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	14	7	exists	exist	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	14	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	14	9	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	14	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	14	11	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	14	12	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	14	13	multigenic	multigenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	14	14	hypothesis	hypothesis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	14	15	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	14	16	prevail	prevail	VB
work_2hfvnli6qndh3p3kqrzilygb4m	14	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	14	18	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	14	19	need	need	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	14	20	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	14	21	demonstrate	demonstrate	VB
work_2hfvnli6qndh3p3kqrzilygb4m	14	22	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	14	23	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	14	24	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	14	25	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	14	26	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	14	27	same	same	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	14	28	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	14	29	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	14	30	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	14	31	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	14	32	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	15	1	Although	although	IN
work_2hfvnli6qndh3p3kqrzilygb4m	15	2	unequivocal	unequivocal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	15	3	evidence	evidence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	15	4	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	15	5	multigenic	multigenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	15	6	inher-	inher-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	15	7	itance	itance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	15	8	exists	exist	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	15	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	15	10	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	15	11	many	many	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	15	12	rodent	rodent	NN
work_2hfvnli6qndh3p3kqrzilygb4m	15	13	models	model	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	15	14	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	15	15	human	human	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	15	16	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	15	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	15	18	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	15	19	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	15	20	strongly	strongly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	15	21	suspected	suspect	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	15	22	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	15	23	complex	complex	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	15	24	human	human	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	15	25	disorders	disorder	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	15	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	15	27	it	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	15	28	remains	remain	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	15	29	largely	largely	RB
work_2hfvnli6qndh3p3kqrzilygb4m	15	30	unproven	unproven	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	15	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	16	1	However	however	RB
work_2hfvnli6qndh3p3kqrzilygb4m	16	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	16	3	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	16	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	16	5	human	human	NN
work_2hfvnli6qndh3p3kqrzilygb4m	16	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	16	7	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	16	8	rare	rare	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	16	9	instances	instance	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	16	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	16	11	retinitis	retinitis	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	16	12	pigmentosa	pigmentosa	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	16	13	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	16	14	arise	arise	VB
work_2hfvnli6qndh3p3kqrzilygb4m	16	15	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	16	16	digenic	digenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	16	17	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	16	18	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	16	19	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	16	20	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	16	21	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	16	22	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	16	23	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	16	24	insulin	insulin	NN
work_2hfvnli6qndh3p3kqrzilygb4m	16	25	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	16	26	dependent	dependent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	16	27	diabetes	diabetes	NN
work_2hfvnli6qndh3p3kqrzilygb4m	16	28	mellitus	mellitus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	16	29	depends	depend	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	16	30	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	16	31	interactions	interaction	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	16	32	be-	be-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	16	33	tween	tween	NN
work_2hfvnli6qndh3p3kqrzilygb4m	16	34	both	both	CC
work_2hfvnli6qndh3p3kqrzilygb4m	16	35	HLA	HLA	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	16	36	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	16	37	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	16	38	X	x	NN
work_2hfvnli6qndh3p3kqrzilygb4m	16	39	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	16	40	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	16	41	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	16	42	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	16	43	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	16	44	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	16	45	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	17	1	Hirschsprung	Hirschsprung	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	17	2	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	17	3	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	17	4	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	17	5	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	17	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	17	7	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	17	8	congenital	congenital	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	17	9	aganglionosis	aganglionosis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	17	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	17	11	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	17	12	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	17	13	model	model	NN
work_2hfvnli6qndh3p3kqrzilygb4m	17	14	complex	complex	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	17	15	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	17	16	disorder	disorder	NN
work_2hfvnli6qndh3p3kqrzilygb4m	17	17	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	17	18	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	17	19	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	17	20	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	17	21	test	test	VB
work_2hfvnli6qndh3p3kqrzilygb4m	17	22	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	17	23	hypoth-	hypoth-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	17	24	eses	ese	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	17	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	18	1	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	18	2	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	18	3	associated	associate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	18	4	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	18	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	18	6	lack	lack	NN
work_2hfvnli6qndh3p3kqrzilygb4m	18	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	18	8	intrinsic	intrinsic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	18	9	ganglion	ganglion	NN
work_2hfvnli6qndh3p3kqrzilygb4m	18	10	cells	cell	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	18	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	18	12	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	18	13	myenteric	myenteric	NN
work_2hfvnli6qndh3p3kqrzilygb4m	18	14	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	18	15	submucosal	submucosal	NN
work_2hfvnli6qndh3p3kqrzilygb4m	18	16	plexuses	plexus	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	18	17	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	18	18	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	18	19	distal	distal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	18	20	gastrointestinal	gastrointestinal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	18	21	tract	tract	NN
work_2hfvnli6qndh3p3kqrzilygb4m	18	22	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	19	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	19	2	phenotype	phenotype	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	3	has	have	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	19	4	'	'	''
work_2hfvnli6qndh3p3kqrzilygb4m	19	5	100	100	CD
work_2hfvnli6qndh3p3kqrzilygb4m	19	6	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	7	heritability	heritability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	8	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	19	9	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	19	10	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	19	11	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	19	12	shows	show	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	19	13	variable	variable	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	19	14	presentation	presentation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	15	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	19	16	reduced	reduce	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	19	17	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	19	19	even	even	RB
work_2hfvnli6qndh3p3kqrzilygb4m	19	20	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	19	21	multiplex	multiplex	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	19	22	kindreds	kindred	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	19	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	19	24	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	19	25	affected	affected	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	19	26	individuals	individual	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	19	27	differing	differ	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	19	28	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	19	29	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	19	30	length	length	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	31	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	19	32	aganglionosis	aganglionosis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	33	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	19	34	association	association	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	35	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	19	36	pigmentary	pigmentary	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	19	37	anomalies	anomaly	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	19	38	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	19	39	sensorineural	sensorineural	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	19	40	deafness	deafness	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	41	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	19	42	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	19	43	severity	severity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	44	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	19	45	intestinal	intestinal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	19	46	blockage	blockage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	19	47	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	20	1	Segregation	Segregation	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	20	2	analyses	analysis	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	20	3	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	20	4	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	20	5	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	20	6	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	20	7	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	20	8	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	20	9	established	establish	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	20	10	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	20	11	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	20	12	hallmarks	hallmark	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	20	13	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	20	14	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	20	15	i	i	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	16	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	20	17	recurrence	recurrence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	18	risks	risk	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	20	19	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	20	20	'	'	``
work_2hfvnli6qndh3p3kqrzilygb4m	20	21	3–25	3–25	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	22	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	20	24	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	20	25	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	20	26	non	non	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	20	27	-	-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	20	28	Mendelian	mendelian	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	20	29	pattern	pattern	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	30	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	20	31	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	32	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	20	33	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	20	34	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	20	35	ii	ii	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	36	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	20	37	recurrence	recurrence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	38	risk	risk	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	39	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	20	40	relatives	relative	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	20	41	varies	vary	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	20	42	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	20	43	length	length	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	44	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	20	45	aganglionosis	aganglionosis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	46	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	20	47	gender	gender	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	48	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	20	49	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	20	50	proband	proband	NN
work_2hfvnli6qndh3p3kqrzilygb4m	20	51	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	21	1	Molecular	molecular	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	21	2	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	21	3	analyses	analysis	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	21	4	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	21	5	identified	identify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	21	6	five	five	CD
work_2hfvnli6qndh3p3kqrzilygb4m	21	7	functionally	functionally	RB
work_2hfvnli6qndh3p3kqrzilygb4m	21	8	dependent	dependent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	21	9	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	21	10	susceptibility	susceptibility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	21	11	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	21	12	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	21	13	pathways	pathway	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	21	14	crucial	crucial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	21	15	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	21	16	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	21	17	normal	normal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	21	18	development	development	NN
work_2hfvnli6qndh3p3kqrzilygb4m	21	19	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	21	20	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	21	21	enteric	enteric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	21	22	nervous	nervous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	21	23	system	system	NN
work_2hfvnli6qndh3p3kqrzilygb4m	21	24	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	21	25	5–18	5–18	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	21	26	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	21	27	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	22	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	22	2	major	major	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	22	3	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	22	4	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	22	5	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	22	6	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	22	7	receptor	receptor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	22	8	tyrosine	tyrosine	NN
work_2hfvnli6qndh3p3kqrzilygb4m	22	9	kinase	kinase	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	22	10	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	22	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	22	12	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	22	13	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	22	14	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	22	15	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	22	16	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	22	17	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	22	18	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	22	19	identified	identify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	22	20	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	22	21	50	50	CD
work_2hfvnli6qndh3p3kqrzilygb4m	22	22	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	22	23	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	22	24	familial	familial	NN
work_2hfvnli6qndh3p3kqrzilygb4m	22	25	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	22	26	35	35	CD
work_2hfvnli6qndh3p3kqrzilygb4m	22	27	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	22	28	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	22	29	sporadic	sporadic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	22	30	cases	case	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	22	31	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	22	32	19–21	19–21	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	22	33	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	22	34	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	23	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	23	2	functional	functional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	23	3	ligand	ligand	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	4	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	23	5	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	23	6	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	23	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	23	8	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	9	b	b	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	10	transforming	transform	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	23	11	growth	growth	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	12	factor	factor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	13	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	23	14	like	like	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	23	15	glial	glial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	23	16	cell	cell	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	17	line	line	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	18	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	23	19	derived	derive	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	23	20	neurotrophic	neurotrophic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	23	21	factor	factor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	22	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	23	23	GDNF	GDNF	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	23	24	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	23	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	23	26	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	23	27	activates	activate	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	23	28	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	23	29	through	through	IN
work_2hfvnli6qndh3p3kqrzilygb4m	23	30	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	23	31	three	three	CD
work_2hfvnli6qndh3p3kqrzilygb4m	23	32	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	23	33	component	component	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	34	complex	complex	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	35	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	23	36	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	23	37	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	23	38	glycosylphos-	glycosylphos-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	23	39	phatidylinositol	phatidylinositol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	23	40	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	23	41	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	23	42	anchor	anchor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	43	protein	protein	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	44	GFRA1	gfra1	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	45	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	23	46	glial	glial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	23	47	cell	cell	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	48	line-	line-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	49	derived	derive	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	23	50	neurotrophic	neurotrophic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	23	51	factor	factor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	52	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	23	53	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	54	receptor	receptor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	23	55	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	23	56	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	23	57	8	8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	23	58	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	23	59	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	23	60	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	23	61	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	24	1	Mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	24	2	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	24	3	GDNF	GDNF	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	24	4	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	24	5	rare	rare	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	24	6	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	24	7	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	24	8	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	24	9	10–13	10–13	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	24	10	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	24	11	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	24	12	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	24	13	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	24	14	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	24	15	GFRA1	GFRA1	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	24	16	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	24	17	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	24	18	revealed	reveal	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	24	19	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	24	20	extensive	extensive	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	24	21	testing	testing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	24	22	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	24	23	14	14	CD
work_2hfvnli6qndh3p3kqrzilygb4m	24	24	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	24	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	25	1	A	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	25	2	second	second	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	25	3	biochemical	biochemical	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	25	4	pathway	pathway	NN
work_2hfvnli6qndh3p3kqrzilygb4m	25	5	compromised	compromise	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	25	6	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	25	7	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	25	8	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	25	9	encoded	encode	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	25	10	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	25	11	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	25	12	G	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	25	13	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	25	14	protein	protein	NN
work_2hfvnli6qndh3p3kqrzilygb4m	25	15	coupled	couple	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	25	16	endothelin	endothelin	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	25	17	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	25	18	B	b	NN
work_2hfvnli6qndh3p3kqrzilygb4m	25	19	receptor	receptor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	25	20	EDNRB	EDNRB	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	25	21	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	25	22	15	15	CD
work_2hfvnli6qndh3p3kqrzilygb4m	25	23	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	25	24	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	25	25	its	-PRON-	PRP$
work_2hfvnli6qndh3p3kqrzilygb4m	25	26	ligand	ligand	NN
work_2hfvnli6qndh3p3kqrzilygb4m	25	27	endo-	endo-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	25	28	thelin-3	thelin-3	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	25	29	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	25	30	EDN3	EDN3	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	25	31	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	25	32	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	25	33	'	'	''
work_2hfvnli6qndh3p3kqrzilygb4m	25	34	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	25	35	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	25	36	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	25	37	familial	familial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	25	38	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	25	39	sporadic	sporadic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	25	40	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	25	41	cases	case	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	25	42	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	25	43	explained	explain	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	25	44	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	25	45	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	25	46	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	25	47	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	25	48	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	25	49	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	25	50	16	16	CD
work_2hfvnli6qndh3p3kqrzilygb4m	25	51	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	25	52	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	26	1	Finally	finally	RB
work_2hfvnli6qndh3p3kqrzilygb4m	26	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	26	3	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	26	4	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	26	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	26	6	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	26	7	encoding	encode	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	26	8	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	26	9	transcription	transcription	NN
work_2hfvnli6qndh3p3kqrzilygb4m	26	10	factor	factor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	26	11	SOX10	SOX10	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	26	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	26	13	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	26	14	regulates	regulate	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	26	15	EDNRB	EDNRB	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	26	16	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	26	17	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	26	18	17	17	CD
work_2hfvnli6qndh3p3kqrzilygb4m	26	19	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	26	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	26	21	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	26	22	also	also	RB
work_2hfvnli6qndh3p3kqrzilygb4m	26	23	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	26	24	identified	identify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	26	25	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	26	26	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	26	27	patients	patient	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	26	28	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	26	29	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	26	30	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	26	31	pigmentary	pigmentary	NN
work_2hfvnli6qndh3p3kqrzilygb4m	26	32	anomalies	anomaly	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	26	33	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	26	34	Shah	Shah	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	26	35	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	26	36	Waarden-	Waarden-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	26	37	burg	burg	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	26	38	syndrome	syndrome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	26	39	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	26	40	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	26	41	17	17	CD
work_2hfvnli6qndh3p3kqrzilygb4m	26	42	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	26	43	18	18	CD
work_2hfvnli6qndh3p3kqrzilygb4m	26	44	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	26	45	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	27	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	27	2	addition	addition	NN
work_2hfvnli6qndh3p3kqrzilygb4m	27	3	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	27	4	finding	find	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	27	5	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	27	6	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	27	7	single	single	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	27	8	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	27	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	27	10	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	27	11	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	27	12	others	other	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	27	13	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	27	14	presented	present	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	27	15	preliminary	preliminary	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	27	16	evidence	evidence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	27	17	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	27	18	multigenic	multigenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	27	19	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	27	20	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	27	21	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	27	22	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	28	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	28	2	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	28	3	large	large	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	28	4	inbred	inbreed	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	28	5	Mennonite	Mennonite	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	28	6	kindred	kindred	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	28	7	segregating	segregate	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	28	8	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	28	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	28	10	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	28	11	identified	identify	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	28	12	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	28	13	hypomorphic	hypomorphic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	28	14	change	change	NN
work_2hfvnli6qndh3p3kqrzilygb4m	28	15	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	28	16	W276C	W276C	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	28	17	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	28	18	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	28	19	EDNRB	EDNRB	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	28	20	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	28	21	chromo-	chromo-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	28	22	some	some	DT
work_2hfvnli6qndh3p3kqrzilygb4m	28	23	13q22	13q22	RB
work_2hfvnli6qndh3p3kqrzilygb4m	28	24	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	28	25	demonstrated	demonstrate	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	28	26	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	28	27	nonrandom	nonrandom	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	28	28	association	association	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	28	29	between	between	IN
work_2hfvnli6qndh3p3kqrzilygb4m	28	30	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	28	31	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	28	32	polymorphisms	polymorphism	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	28	33	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	28	34	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	28	35	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	28	36	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	28	37	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	28	38	15	15	CD
work_2hfvnli6qndh3p3kqrzilygb4m	28	39	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	28	40	16	16	CD
work_2hfvnli6qndh3p3kqrzilygb4m	28	41	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	28	42	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	29	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	29	2	addition	addition	NN
work_2hfvnli6qndh3p3kqrzilygb4m	29	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	29	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	29	5	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	29	6	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	29	7	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	29	8	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	29	9	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	29	10	kindred	kindred	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	29	11	depends	depend	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	29	12	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	29	13	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	29	14	interaction	interaction	NN
work_2hfvnli6qndh3p3kqrzilygb4m	29	15	between	between	IN
work_2hfvnli6qndh3p3kqrzilygb4m	29	16	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	29	17	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	29	18	EDNRB	EDNRB	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	29	19	because	because	IN
work_2hfvnli6qndh3p3kqrzilygb4m	29	20	parent	parent	NN
work_2hfvnli6qndh3p3kqrzilygb4m	29	21	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	29	22	to-	to-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	29	23	offspring	offspring	NN
work_2hfvnli6qndh3p3kqrzilygb4m	29	24	transmission	transmission	NN
work_2hfvnli6qndh3p3kqrzilygb4m	29	25	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	29	26	W276C	W276C	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	29	27	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	29	28	significantly	significantly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	29	29	associated	associate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	29	30	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	29	31	transmission	transmission	NN
work_2hfvnli6qndh3p3kqrzilygb4m	29	32	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	29	33	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	29	34	polymorphisms	polymorphism	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	29	35	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	29	36	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	29	37	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	29	38	ref	ref	NN
work_2hfvnli6qndh3p3kqrzilygb4m	29	39	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	30	1	16	16	CD
work_2hfvnli6qndh3p3kqrzilygb4m	30	2	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	30	3	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	30	4	Carrasquillo	Carrasquillo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	30	5	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	30	6	A.C.	A.C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	30	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	30	8	unpublished	unpublished	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	30	9	data	datum	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	30	10	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	30	11	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	31	1	Extensive	extensive	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	31	2	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	31	3	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	31	4	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	31	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	31	6	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	31	7	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	31	8	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	31	9	has	have	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	31	10	failed	fail	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	31	11	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	31	12	identify	identify	VB
work_2hfvnli6qndh3p3kqrzilygb4m	31	13	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	31	14	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	31	15	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	31	16	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	31	17	Mennonites	Mennonites	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	31	18	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	32	1	Nevertheless	nevertheless	RB
work_2hfvnli6qndh3p3kqrzilygb4m	32	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	32	3	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	32	4	strong	strong	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	32	5	association	association	NN
work_2hfvnli6qndh3p3kqrzilygb4m	32	6	between	between	IN
work_2hfvnli6qndh3p3kqrzilygb4m	32	7	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	8	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	32	9	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	32	11	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	32	12	association	association	NN
work_2hfvnli6qndh3p3kqrzilygb4m	32	13	between	between	IN
work_2hfvnli6qndh3p3kqrzilygb4m	32	14	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	32	15	joint	joint	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	32	16	trans-	trans-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	32	17	mission	mission	NN
work_2hfvnli6qndh3p3kqrzilygb4m	32	18	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	32	19	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	20	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	32	21	EDNRB	EDNRB	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	22	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	32	23	patients	patient	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	32	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	32	25	emphasizes	emphasize	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	32	26	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	32	27	EDNRB	EDNRB	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	28	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	32	29	conjunction	conjunction	NN
work_2hfvnli6qndh3p3kqrzilygb4m	32	30	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	32	31	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	32	determines	determine	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	32	33	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	34	susceptibility	susceptibility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	32	35	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	32	36	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	32	37	Abbreviations	Abbreviations	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	38	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	32	39	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	40	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	32	41	Hirschsprung	Hirschsprung	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	42	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	32	43	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	32	44	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	45	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	32	46	nonparametric	nonparametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	32	47	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	32	48	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	32	49	RT	RT	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	50	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	32	51	reverse	reverse	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	32	52	tran-	tran-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	32	53	scription	scription	NN
work_2hfvnli6qndh3p3kqrzilygb4m	32	54	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	32	55	cM	cM	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	56	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	32	57	centimorgans	centimorgans	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	32	58	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	33	1	¶To	¶to	NN
work_2hfvnli6qndh3p3kqrzilygb4m	33	2	whom	whom	WP
work_2hfvnli6qndh3p3kqrzilygb4m	33	3	reprint	reprint	NN
work_2hfvnli6qndh3p3kqrzilygb4m	33	4	requests	request	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	33	5	should	should	MD
work_2hfvnli6qndh3p3kqrzilygb4m	33	6	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	33	7	addressed	address	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	33	8	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	33	9	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	33	10	Department	Department	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	11	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	33	12	Genetics	Genetics	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	13	BRB	BRB	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	14	721	721	CD
work_2hfvnli6qndh3p3kqrzilygb4m	33	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	33	16	Case	Case	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	17	Western	Western	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	18	Reserve	Reserve	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	19	University	University	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	33	21	10900	10900	CD
work_2hfvnli6qndh3p3kqrzilygb4m	33	22	Euclid	Euclid	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	23	Avenue	Avenue	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	33	25	Cleveland	Cleveland	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	33	27	OH	OH	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	33	28	44106	44106	CD
work_2hfvnli6qndh3p3kqrzilygb4m	33	29	-	-	SYM
work_2hfvnli6qndh3p3kqrzilygb4m	33	30	4955	4955	CD
work_2hfvnli6qndh3p3kqrzilygb4m	33	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	34	1	E	e	NN
work_2hfvnli6qndh3p3kqrzilygb4m	34	2	-	-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	34	3	mail	mail	NN
work_2hfvnli6qndh3p3kqrzilygb4m	34	4	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	34	5	axc39@po.cwru.edu	axc39@po.cwru.edu	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	34	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	35	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	35	2	publication	publication	NN
work_2hfvnli6qndh3p3kqrzilygb4m	35	3	costs	cost	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	35	4	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	35	5	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	35	6	article	article	NN
work_2hfvnli6qndh3p3kqrzilygb4m	35	7	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	35	8	defrayed	defray	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	35	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	35	10	part	part	NN
work_2hfvnli6qndh3p3kqrzilygb4m	35	11	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	35	12	page	page	NN
work_2hfvnli6qndh3p3kqrzilygb4m	35	13	charge	charge	NN
work_2hfvnli6qndh3p3kqrzilygb4m	35	14	payment	payment	NN
work_2hfvnli6qndh3p3kqrzilygb4m	35	15	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	36	1	This	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	36	2	article	article	NN
work_2hfvnli6qndh3p3kqrzilygb4m	36	3	must	must	MD
work_2hfvnli6qndh3p3kqrzilygb4m	36	4	therefore	therefore	RB
work_2hfvnli6qndh3p3kqrzilygb4m	36	5	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	36	6	hereby	hereby	RB
work_2hfvnli6qndh3p3kqrzilygb4m	36	7	marked	mark	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	36	8	“	"	``
work_2hfvnli6qndh3p3kqrzilygb4m	36	9	advertisement	advertisement	NN
work_2hfvnli6qndh3p3kqrzilygb4m	36	10	”	"	''
work_2hfvnli6qndh3p3kqrzilygb4m	36	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	36	12	accordance	accordance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	36	13	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	36	14	18	18	CD
work_2hfvnli6qndh3p3kqrzilygb4m	36	15	U.S.C.	U.S.C.	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	37	1	§	§	ADD
work_2hfvnli6qndh3p3kqrzilygb4m	37	2	1734	1734	CD
work_2hfvnli6qndh3p3kqrzilygb4m	37	3	solely	solely	RB
work_2hfvnli6qndh3p3kqrzilygb4m	37	4	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	37	5	indicate	indicate	VB
work_2hfvnli6qndh3p3kqrzilygb4m	37	6	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	37	7	fact	fact	NN
work_2hfvnli6qndh3p3kqrzilygb4m	37	8	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	38	1	268	268	CD
work_2hfvnli6qndh3p3kqrzilygb4m	38	2	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	38	3	273	273	CD
work_2hfvnli6qndh3p3kqrzilygb4m	38	4	u	u	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	38	5	PNAS	PNAS	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	38	6	u	u	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	38	7	January	January	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	38	8	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	38	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	38	10	2000	2000	CD
work_2hfvnli6qndh3p3kqrzilygb4m	38	11	u	u	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	38	12	vol	vol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	38	13	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	39	1	97	97	CD
work_2hfvnli6qndh3p3kqrzilygb4m	39	2	u	u	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	39	3	no	no	UH
work_2hfvnli6qndh3p3kqrzilygb4m	39	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	40	1	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	40	2	D	D	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	3	o	o	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	4	w	w	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	5	n	n	XX
work_2hfvnli6qndh3p3kqrzilygb4m	40	6	lo	lo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	7	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	40	8	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	9	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	10	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	11	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	40	12	t	t	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	13	C	c	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	14	a	a	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	15	rn	rn	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	16	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	17	g	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	18	ie	ie	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	19	M	M	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	20	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	21	llo	llo	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	22	n	n	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	23	U	u	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	24	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	40	25	iv	iv	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	26	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	27	rs	rs	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	28	ity	ity	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	29	o	o	XX
work_2hfvnli6qndh3p3kqrzilygb4m	40	30	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	40	31	A	A	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	32	p	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	33	ri	ri	FW
work_2hfvnli6qndh3p3kqrzilygb4m	40	34	l	l	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	35	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	40	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	40	37	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	40	38	0	0	CD
work_2hfvnli6qndh3p3kqrzilygb4m	40	39	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	40	40	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	40	41	kindred	kindre	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	40	42	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	40	43	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	40	44	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	40	45	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	40	46	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	40	47	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	40	48	located	locate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	40	49	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	40	50	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	40	51	non	non	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	40	52	-	-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	40	53	coding	coding	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	40	54	regions	region	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	40	55	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	41	1	Additionally	additionally	RB
work_2hfvnli6qndh3p3kqrzilygb4m	41	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	41	3	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	41	4	some	some	DT
work_2hfvnli6qndh3p3kqrzilygb4m	41	5	outbred	outbreed	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	41	6	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	41	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	41	8	GDNF	GDNF	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	41	9	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	41	10	do	do	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	41	11	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	41	12	appear	appear	VB
work_2hfvnli6qndh3p3kqrzilygb4m	41	13	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	41	14	act	act	VB
work_2hfvnli6qndh3p3kqrzilygb4m	41	15	alone	alone	RB
work_2hfvnli6qndh3p3kqrzilygb4m	41	16	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	41	17	co	co	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	41	18	-	-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	41	19	occur	occur	VB
work_2hfvnli6qndh3p3kqrzilygb4m	41	20	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	41	21	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	41	22	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	41	23	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	41	24	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	41	25	trisomy	trisomy	NN
work_2hfvnli6qndh3p3kqrzilygb4m	41	26	21	21	CD
work_2hfvnli6qndh3p3kqrzilygb4m	41	27	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	41	28	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	41	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	41	30	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	41	31	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	41	32	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	42	1	These	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	42	2	data	datum	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	42	3	underscore	underscore	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	42	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	42	5	complex	complex	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	42	6	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	42	7	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	42	8	provide	provide	VB
work_2hfvnli6qndh3p3kqrzilygb4m	42	9	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	42	10	first	first	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	42	11	clues	clue	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	42	12	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	42	13	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	42	14	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	42	15	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	42	16	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	42	17	required	require	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	42	18	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	42	19	modulate	modulate	VB
work_2hfvnli6qndh3p3kqrzilygb4m	42	20	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	42	21	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	42	22	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	42	23	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	42	24	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	43	1	To	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	43	2	test	test	VB
work_2hfvnli6qndh3p3kqrzilygb4m	43	3	whether	whether	IN
work_2hfvnli6qndh3p3kqrzilygb4m	43	4	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	43	5	results	result	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	43	6	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	43	7	multigene	multigene	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	43	8	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	43	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	43	10	outbred	outbreed	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	43	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	43	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	43	13	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	43	14	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	43	15	focused	focus	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	43	16	attention	attention	NN
work_2hfvnli6qndh3p3kqrzilygb4m	43	17	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	43	18	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	43	19	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	43	20	showing	show	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	43	21	vertical	vertical	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	43	22	transmission	transmission	NN
work_2hfvnli6qndh3p3kqrzilygb4m	43	23	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	44	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	44	2	such	such	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	44	3	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	44	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	44	5	few	few	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	44	6	segregating	segregating	NN
work_2hfvnli6qndh3p3kqrzilygb4m	44	7	loci	loci	NN
work_2hfvnli6qndh3p3kqrzilygb4m	44	8	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	44	9	expected	expect	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	44	10	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	44	11	priori	priori	FW
work_2hfvnli6qndh3p3kqrzilygb4m	44	12	because	because	IN
work_2hfvnli6qndh3p3kqrzilygb4m	44	13	they	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	44	14	largely	largely	RB
work_2hfvnli6qndh3p3kqrzilygb4m	44	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	44	16	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	44	17	exclusively	exclusively	RB
work_2hfvnli6qndh3p3kqrzilygb4m	44	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	44	19	segregate	segregate	VB
work_2hfvnli6qndh3p3kqrzilygb4m	44	20	long	long	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	44	21	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	44	22	segment	segment	NN
work_2hfvnli6qndh3p3kqrzilygb4m	44	23	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	44	24	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	44	25	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	44	26	higher	high	JJR
work_2hfvnli6qndh3p3kqrzilygb4m	44	27	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	44	28	than	than	IN
work_2hfvnli6qndh3p3kqrzilygb4m	44	29	short-	short-	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	44	30	segment	segment	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	44	31	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	44	32	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	44	33	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	44	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	44	35	21	21	CD
work_2hfvnli6qndh3p3kqrzilygb4m	44	36	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	44	37	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	45	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	45	2	chose	choose	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	45	3	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	45	4	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	45	5	three	three	CD
work_2hfvnli6qndh3p3kqrzilygb4m	45	6	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	45	7	more	more	JJR
work_2hfvnli6qndh3p3kqrzilygb4m	45	8	affecteds	affected	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	45	9	across	across	IN
work_2hfvnli6qndh3p3kqrzilygb4m	45	10	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	45	11	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	45	12	more	more	JJR
work_2hfvnli6qndh3p3kqrzilygb4m	45	13	generations	generation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	45	14	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	45	15	phenotypic	phenotypic	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	45	16	charac-	charac-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	45	17	teristics	teristic	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	45	18	typical	typical	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	45	19	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	45	20	other	other	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	45	21	reported	report	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	45	22	large	large	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	45	23	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	45	24	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	46	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	46	2	variable	variable	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	46	3	expressivity	expressivity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	46	4	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	46	5	reduced	reduce	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	46	6	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	46	7	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	46	8	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	46	9	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	46	10	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	46	11	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	46	12	explained	explain	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	46	13	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	46	14	environmental	environmental	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	46	15	effects	effect	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	46	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	46	17	stochastic	stochastic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	46	18	developmental	developmental	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	46	19	events	event	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	46	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	46	21	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	46	22	multigenic	multigenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	46	23	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	46	24	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	47	1	To	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	47	2	distinguish	distinguish	VB
work_2hfvnli6qndh3p3kqrzilygb4m	47	3	between	between	IN
work_2hfvnli6qndh3p3kqrzilygb4m	47	4	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	47	5	hypotheses	hypothesis	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	47	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	47	7	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	47	8	conducted	conduct	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	47	9	allele	allele	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	47	10	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	47	11	sharing	share	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	47	12	tests	test	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	47	13	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	47	14	linkage	linkage	VB
work_2hfvnli6qndh3p3kqrzilygb4m	47	15	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	47	16	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	47	17	identify	identify	VB
work_2hfvnli6qndh3p3kqrzilygb4m	47	18	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	47	19	segregating	segregate	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	47	20	genomic	genomic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	47	21	regions	region	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	47	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	47	23	followed	follow	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	47	24	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	47	25	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	47	26	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	47	27	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	47	28	known	know	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	47	29	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	47	30	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	48	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	48	2	present	present	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	48	3	data	datum	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	48	4	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	48	5	demon-	demon-	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	48	6	strate	strate	VB
work_2hfvnli6qndh3p3kqrzilygb4m	48	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	48	8	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	48	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	48	10	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	48	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	48	12	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	48	13	majority	majority	NN
work_2hfvnli6qndh3p3kqrzilygb4m	48	14	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	48	15	11y12	11y12	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	48	16	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	48	17	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	48	18	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	48	19	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	48	20	additional	additional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	48	21	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	48	22	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	48	23	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	48	24	new	new	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	48	25	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	48	26	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	48	27	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	48	28	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	49	1	Mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	49	2	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	49	3	identified	identify	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	49	4	severe	severe	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	49	5	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	49	6	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	49	7	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	49	8	only	only	RB
work_2hfvnli6qndh3p3kqrzilygb4m	49	9	50	50	CD
work_2hfvnli6qndh3p3kqrzilygb4m	49	10	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	49	11	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	49	12	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	49	13	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	50	1	Impor-	Impor-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	50	2	tantly	tantly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	50	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	50	4	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	50	5	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	50	6	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	50	7	limited	limit	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	50	8	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	50	9	those	those	DT
work_2hfvnli6qndh3p3kqrzilygb4m	50	10	six	six	CD
work_2hfvnli6qndh3p3kqrzilygb4m	50	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	50	12	lacking	lack	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	50	13	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	50	14	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	50	15	missense	missense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	50	16	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	50	17	nonsense	nonsense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	50	18	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	50	19	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	50	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	51	1	Thus	thus	RB
work_2hfvnli6qndh3p3kqrzilygb4m	51	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	51	3	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	51	4	nature	nature	NN
work_2hfvnli6qndh3p3kqrzilygb4m	51	5	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	51	6	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	51	7	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	51	8	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	51	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	51	10	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	51	11	patients	patient	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	51	12	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	51	13	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	51	14	strong	strong	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	51	15	predictor	predictor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	51	16	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	51	17	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	51	18	presence	presence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	51	19	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	51	20	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	51	21	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	51	22	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	51	23	additional	additional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	51	24	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	51	25	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	51	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	51	27	sup-	sup-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	51	28	porting	porting	NN
work_2hfvnli6qndh3p3kqrzilygb4m	51	29	multigenic	multigenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	51	30	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	51	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	52	1	A	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	52	2	corollary	corollary	NN
work_2hfvnli6qndh3p3kqrzilygb4m	52	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	52	4	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	52	5	observations	observation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	52	6	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	52	7	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	52	8	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	52	9	patients	patient	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	52	10	heterozygous	heterozygous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	52	11	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	52	12	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	52	13	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	52	14	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	52	15	weak	weak	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	52	16	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	52	17	hypomorphic	hypomorphic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	52	18	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	52	19	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	52	20	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	52	21	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	52	22	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	52	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	52	24	thus	thus	RB
work_2hfvnli6qndh3p3kqrzilygb4m	52	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	52	26	explains	explain	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	52	27	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	52	28	reduced	reduce	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	52	29	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	52	30	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	52	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	53	1	Materials	material	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	53	2	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	53	3	Methods	Methods	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	53	4	Family	Family	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	53	5	Ascertainment	Ascertainment	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	53	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	54	1	Multiplex	multiplex	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	54	2	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	54	3	segregating	segregate	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	54	4	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	54	5	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	54	6	ascertained	ascertain	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	54	7	under	under	IN
work_2hfvnli6qndh3p3kqrzilygb4m	54	8	informed	inform	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	54	9	consent	consent	NN
work_2hfvnli6qndh3p3kqrzilygb4m	54	10	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	54	11	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	54	12	classified	classify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	54	13	into	into	IN
work_2hfvnli6qndh3p3kqrzilygb4m	54	14	those	those	DT
work_2hfvnli6qndh3p3kqrzilygb4m	54	15	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	54	16	affected	affected	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	54	17	siblings	sibling	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	54	18	only	only	RB
work_2hfvnli6qndh3p3kqrzilygb4m	54	19	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	54	20	those	those	DT
work_2hfvnli6qndh3p3kqrzilygb4m	54	21	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	54	22	three	three	CD
work_2hfvnli6qndh3p3kqrzilygb4m	54	23	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	54	24	more	more	RBR
work_2hfvnli6qndh3p3kqrzilygb4m	54	25	affected	affected	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	54	26	individuals	individual	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	54	27	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	54	28	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	54	29	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	54	30	more	more	JJR
work_2hfvnli6qndh3p3kqrzilygb4m	54	31	generations	generation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	54	32	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	55	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	55	2	latter	latter	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	55	3	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	55	4	show	show	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	55	5	vertical	vertical	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	55	6	transmission	transmission	NN
work_2hfvnli6qndh3p3kqrzilygb4m	55	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	55	8	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	55	9	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	55	10	have	have	VB
work_2hfvnli6qndh3p3kqrzilygb4m	55	11	higher	high	JJR
work_2hfvnli6qndh3p3kqrzilygb4m	55	12	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	55	13	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	56	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	56	2	identified	identify	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	56	3	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	56	4	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	56	5	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	56	6	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	56	7	study	study	NN
work_2hfvnli6qndh3p3kqrzilygb4m	56	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	56	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	56	10	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	56	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	56	12	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	56	13	–	–	SYM
work_2hfvnli6qndh3p3kqrzilygb4m	56	14	6	6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	56	15	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	56	16	8–10	8–10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	56	17	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	56	18	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	56	19	reported	report	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	56	20	previously	previously	RB
work_2hfvnli6qndh3p3kqrzilygb4m	56	21	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	56	22	21	21	CD
work_2hfvnli6qndh3p3kqrzilygb4m	56	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	56	24	22	22	CD
work_2hfvnli6qndh3p3kqrzilygb4m	56	25	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	56	26	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	56	27	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	56	28	Mennonite	Mennonite	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	56	29	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	56	30	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	56	31	15	15	CD
work_2hfvnli6qndh3p3kqrzilygb4m	56	32	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	56	33	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	56	34	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	56	35	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	56	36	part	part	NN
work_2hfvnli6qndh3p3kqrzilygb4m	56	37	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	56	38	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	56	39	study	study	NN
work_2hfvnli6qndh3p3kqrzilygb4m	56	40	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	57	1	Genomic	Genomic	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	57	2	DNA	DNA	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	57	3	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	57	4	extracted	extract	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	57	5	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	57	6	lymphoblastoid	lymphoblastoid	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	57	7	cell	cell	NN
work_2hfvnli6qndh3p3kqrzilygb4m	57	8	lines	line	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	57	9	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	57	10	established	establish	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	57	11	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	57	12	participating	participate	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	57	13	mem-	mem-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	57	14	bers	ber	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	57	15	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	57	16	described	describe	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	57	17	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	57	18	22	22	CD
work_2hfvnli6qndh3p3kqrzilygb4m	57	19	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	57	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	58	1	Linkage	linkage	VB
work_2hfvnli6qndh3p3kqrzilygb4m	58	2	Analysis	Analysis	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	58	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	59	1	Polymorphic	polymorphic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	59	2	microsatellite	microsatellite	NN
work_2hfvnli6qndh3p3kqrzilygb4m	59	3	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	59	4	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	59	5	geno-	geno-	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	59	6	typed	type	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	59	7	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	59	8	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	59	9	standard	standard	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	59	10	methods	method	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	59	11	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	59	12	22	22	CD
work_2hfvnli6qndh3p3kqrzilygb4m	59	13	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	59	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	59	15	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	59	16	allele	allele	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	59	17	sizes	size	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	59	18	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	59	19	determined	determine	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	59	20	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	59	21	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	59	22	Centre	Centre	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	59	23	d’Etude	d’Etude	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	59	24	du	du	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	59	25	Polymorphisme	Polymorphisme	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	59	26	Humain	Humain	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	59	27	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	59	28	CEPH	CEPH	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	59	29	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	59	30	individual	individual	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	59	31	1347	1347	CD
work_2hfvnli6qndh3p3kqrzilygb4m	59	32	-	-	SYM
work_2hfvnli6qndh3p3kqrzilygb4m	59	33	02	02	CD
work_2hfvnli6qndh3p3kqrzilygb4m	59	34	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	59	35	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	59	36	genotyping	genotyping	NN
work_2hfvnli6qndh3p3kqrzilygb4m	59	37	standard	standard	NN
work_2hfvnli6qndh3p3kqrzilygb4m	59	38	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	60	1	Parametric	parametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	60	2	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	60	3	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	60	4	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	60	5	powerful	powerful	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	60	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	60	7	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	60	8	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	60	9	major	major	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	60	10	hindrance	hindrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	60	11	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	60	12	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	60	13	lack	lack	NN
work_2hfvnli6qndh3p3kqrzilygb4m	60	14	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	60	15	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	60	16	accurate	accurate	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	60	17	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	60	18	model	model	NN
work_2hfvnli6qndh3p3kqrzilygb4m	60	19	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	60	20	23	23	CD
work_2hfvnli6qndh3p3kqrzilygb4m	60	21	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	60	22	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	60	23	concomitant	concomitant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	60	24	reduction	reduction	NN
work_2hfvnli6qndh3p3kqrzilygb4m	60	25	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	60	26	power	power	NN
work_2hfvnli6qndh3p3kqrzilygb4m	60	27	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	60	28	detecting	detect	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	60	29	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	60	30	when	when	WRB
work_2hfvnli6qndh3p3kqrzilygb4m	60	31	parameters	parameter	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	60	32	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	60	33	specified	specify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	60	34	incor-	incor-	RB
work_2hfvnli6qndh3p3kqrzilygb4m	60	35	rectly	rectly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	60	36	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	61	1	One	one	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	61	2	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	61	3	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	61	4	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	61	5	priori	priori	FW
work_2hfvnli6qndh3p3kqrzilygb4m	61	6	predict	predict	VB
work_2hfvnli6qndh3p3kqrzilygb4m	61	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	61	8	number	number	NN
work_2hfvnli6qndh3p3kqrzilygb4m	61	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	61	10	different	different	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	61	11	loci	loci	NN
work_2hfvnli6qndh3p3kqrzilygb4m	61	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	61	13	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	61	14	mutant	mutant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	61	15	allele	allele	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	61	16	frequency	frequency	NN
work_2hfvnli6qndh3p3kqrzilygb4m	61	17	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	61	18	each	each	DT
work_2hfvnli6qndh3p3kqrzilygb4m	61	19	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	61	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	61	21	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	61	22	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	61	23	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	61	24	associ-	associ-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	61	25	ated	ate	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	61	26	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	61	27	each	each	DT
work_2hfvnli6qndh3p3kqrzilygb4m	61	28	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	61	29	susceptibility	susceptibility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	61	30	allele	allele	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	61	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	62	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	62	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	62	3	therefore	therefore	RB
work_2hfvnli6qndh3p3kqrzilygb4m	62	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	62	5	relied	rely	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	62	6	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	62	7	model	model	NN
work_2hfvnli6qndh3p3kqrzilygb4m	62	8	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	62	9	free	free	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	62	10	tests	test	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	62	11	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	62	12	allele	allele	NN
work_2hfvnli6qndh3p3kqrzilygb4m	62	13	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	62	14	sharing	sharing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	62	15	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	62	16	marker	marker	NN
work_2hfvnli6qndh3p3kqrzilygb4m	62	17	loci	loci	NN
work_2hfvnli6qndh3p3kqrzilygb4m	62	18	among	among	IN
work_2hfvnli6qndh3p3kqrzilygb4m	62	19	all	all	DT
work_2hfvnli6qndh3p3kqrzilygb4m	62	20	affecteds	affected	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	62	21	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	62	22	each	each	DT
work_2hfvnli6qndh3p3kqrzilygb4m	62	23	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	62	24	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	62	25	searched	search	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	62	26	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	62	27	regions	region	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	62	28	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	62	29	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	62	30	allele	allele	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	62	31	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	62	32	sharing	sharing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	62	33	exceeds	exceed	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	62	34	Mendelian	mendelian	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	62	35	expectations	expectation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	62	36	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	63	1	All	all	DT
work_2hfvnli6qndh3p3kqrzilygb4m	63	2	multipoint	multipoint	NN
work_2hfvnli6qndh3p3kqrzilygb4m	63	3	parametric	parametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	63	4	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	63	5	nonparametric	nonparametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	63	6	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	63	7	analyses	analysis	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	63	8	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	63	9	performed	perform	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	63	10	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	63	11	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	63	12	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	63	13	computer	computer	NN
work_2hfvnli6qndh3p3kqrzilygb4m	63	14	program	program	NN
work_2hfvnli6qndh3p3kqrzilygb4m	63	15	GENEHUNTER	genehunter	NN
work_2hfvnli6qndh3p3kqrzilygb4m	63	16	1.1	1.1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	63	17	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	63	18	24	24	CD
work_2hfvnli6qndh3p3kqrzilygb4m	63	19	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	63	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	64	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	64	2	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	64	3	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	64	4	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	64	5	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	64	6	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	64	7	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	64	8	had	have	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	64	9	intermarker	intermarker	NN
work_2hfvnli6qndh3p3kqrzilygb4m	64	10	map	map	NN
work_2hfvnli6qndh3p3kqrzilygb4m	64	11	distances	distance	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	64	12	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	64	13	pub-	pub-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	64	14	lished	lished	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	64	15	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	64	16	25	25	CD
work_2hfvnli6qndh3p3kqrzilygb4m	64	17	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	64	18	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	64	19	allele	allele	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	64	20	frequencies	frequency	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	64	21	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	64	22	CEPH	CEPH	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	64	23	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	64	24	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	64	25	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	64	26	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	64	27	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	64	28	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	64	29	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	64	30	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	64	31	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	64	32	different	different	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	64	33	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	64	34	those	those	DT
work_2hfvnli6qndh3p3kqrzilygb4m	64	35	estimated	estimate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	64	36	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	64	37	founders	founder	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	64	38	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	64	39	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	64	40	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	64	41	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	64	42	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	65	1	For	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	65	2	lod	lod	DT
work_2hfvnli6qndh3p3kqrzilygb4m	65	3	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	4	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	65	6	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	65	7	specified	specify	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	65	8	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	65	9	autosomal	autosomal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	65	10	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	65	11	dominant	dominant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	65	12	mode	mode	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	13	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	65	14	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	65	16	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	65	17	mutant	mutant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	65	18	allele	allele	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	65	19	fre-	fre-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	65	20	quency	quency	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	21	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	65	22	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	65	23	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	65	25	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	65	26	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	27	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	65	28	58	58	CD
work_2hfvnli6qndh3p3kqrzilygb4m	65	29	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	30	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	65	31	males	male	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	65	32	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	65	33	29	29	CD
work_2hfvnli6qndh3p3kqrzilygb4m	65	34	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	35	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	65	36	females	female	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	65	37	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	65	38	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	65	39	estimates	estimate	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	65	40	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	65	41	based	base	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	65	42	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	65	43	our	-PRON-	PRP$
work_2hfvnli6qndh3p3kqrzilygb4m	65	44	previous	previous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	65	45	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	46	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	65	47	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	65	48	22	22	CD
work_2hfvnli6qndh3p3kqrzilygb4m	65	49	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	65	50	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	66	1	Linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	66	2	analyses	analysis	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	66	3	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	66	4	also	also	RB
work_2hfvnli6qndh3p3kqrzilygb4m	66	5	performed	perform	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	66	6	allowing	allow	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	66	7	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	66	8	heterogeneity	heterogeneity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	66	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	66	10	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	66	11	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	66	12	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	66	13	‘	'	``
work_2hfvnli6qndh3p3kqrzilygb4m	66	14	‘	'	``
work_2hfvnli6qndh3p3kqrzilygb4m	66	15	Total	Total	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	66	16	Heterogeneity	Heterogeneity	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	66	17	’	'	''
work_2hfvnli6qndh3p3kqrzilygb4m	66	18	’	'	''
work_2hfvnli6qndh3p3kqrzilygb4m	66	19	command	command	NN
work_2hfvnli6qndh3p3kqrzilygb4m	66	20	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	66	21	GENEHUNTER	GENEHUNTER	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	66	22	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	66	23	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	66	24	calculated	calculate	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	66	25	both	both	CC
work_2hfvnli6qndh3p3kqrzilygb4m	66	26	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	66	27	heterogeneity	heterogeneity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	66	28	lod	lod	NN
work_2hfvnli6qndh3p3kqrzilygb4m	66	29	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	66	30	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	66	31	estimated	estimate	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	66	32	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	66	33	pro-	pro-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	66	34	portion	portion	NN
work_2hfvnli6qndh3p3kqrzilygb4m	66	35	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	66	36	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	66	37	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	66	38	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	66	39	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	66	40	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	66	41	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	67	1	To	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	67	2	compute	compute	VB
work_2hfvnli6qndh3p3kqrzilygb4m	67	3	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	67	4	posterior	posterior	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	67	5	probability	probability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	67	6	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	67	7	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	67	8	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	67	9	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	67	10	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	67	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	67	12	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	67	13	placed	place	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	67	14	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	67	15	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	67	16	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	67	17	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	67	18	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	67	19	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	67	20	intron	intron	NN
work_2hfvnli6qndh3p3kqrzilygb4m	67	21	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	67	22	marker	marker	NN
work_2hfvnli6qndh3p3kqrzilygb4m	67	23	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	67	24	used	use	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	67	25	Eq	Eq	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	67	26	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	68	1	9.11	9.11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	68	2	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	68	3	ref	ref	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	68	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	69	1	23	23	CD
work_2hfvnli6qndh3p3kqrzilygb4m	69	2	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	69	3	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	69	4	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	69	5	declared	declare	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	69	6	whenever	whenever	WRB
work_2hfvnli6qndh3p3kqrzilygb4m	69	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	69	8	posterior	posterior	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	69	9	probability	probability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	69	10	exceeded	exceed	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	69	11	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	69	12	estimated	estimate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	69	13	a.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	69	14	Nonparametric	Nonparametric	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	69	15	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	69	16	used	use	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	69	17	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	69	18	nonparametric	nonparametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	69	19	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	69	20	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	69	21	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	69	22	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	69	23	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	69	24	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	69	25	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	69	26	‘	'	``
work_2hfvnli6qndh3p3kqrzilygb4m	69	27	‘	'	``
work_2hfvnli6qndh3p3kqrzilygb4m	69	28	sharing	share	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	69	29	all	all	DT
work_2hfvnli6qndh3p3kqrzilygb4m	69	30	’	'	''
work_2hfvnli6qndh3p3kqrzilygb4m	69	31	’	'	''
work_2hfvnli6qndh3p3kqrzilygb4m	69	32	option	option	NN
work_2hfvnli6qndh3p3kqrzilygb4m	69	33	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	70	1	Mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	70	2	Detection	detection	NN
work_2hfvnli6qndh3p3kqrzilygb4m	70	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	71	1	Mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	71	2	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	71	3	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	71	4	performed	perform	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	71	5	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	71	6	all	all	DT
work_2hfvnli6qndh3p3kqrzilygb4m	71	7	21	21	CD
work_2hfvnli6qndh3p3kqrzilygb4m	71	8	exons	exon	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	71	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	71	10	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	71	11	comprising	comprise	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	71	12	3,474	3,474	CD
work_2hfvnli6qndh3p3kqrzilygb4m	71	13	bp	bp	NN
work_2hfvnli6qndh3p3kqrzilygb4m	71	14	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	71	15	1,700	1,700	CD
work_2hfvnli6qndh3p3kqrzilygb4m	71	16	bp	bp	NN
work_2hfvnli6qndh3p3kqrzilygb4m	71	17	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	71	18	adjacent	adjacent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	71	19	intronic	intronic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	71	20	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	71	21	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	71	22	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	71	23	published	publish	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	71	24	human	human	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	71	25	cDNA	cdna	NN
work_2hfvnli6qndh3p3kqrzilygb4m	71	26	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	71	27	partial	partial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	71	28	genomic	genomic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	71	29	sequences	sequence	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	71	30	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	71	31	26–29	26–29	CD
work_2hfvnli6qndh3p3kqrzilygb4m	71	32	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	71	33	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	71	34	wild	wild	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	71	35	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	71	36	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	71	37	standards	standard	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	71	38	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	72	1	Single	single	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	72	2	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	72	3	strand	strand	NN
work_2hfvnli6qndh3p3kqrzilygb4m	72	4	conforma-	conforma-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	72	5	tional	tional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	72	6	polymorphism	polymorphism	NN
work_2hfvnli6qndh3p3kqrzilygb4m	72	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	72	8	denaturing	denature	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	72	9	gradient	gradient	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	72	10	gel	gel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	72	11	electrophoresis	electrophoresis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	72	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	72	13	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	72	14	automated	automate	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	72	15	nucleotide	nucleotide	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	72	16	sequencing	sequencing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	72	17	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	72	18	dye	dye	NN
work_2hfvnli6qndh3p3kqrzilygb4m	72	19	terminator	terminator	NN
work_2hfvnli6qndh3p3kqrzilygb4m	72	20	chemistry	chemistry	NN
work_2hfvnli6qndh3p3kqrzilygb4m	72	21	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	72	22	performed	perform	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	72	23	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	72	24	standard	standard	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	72	25	methods	method	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	72	26	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	72	27	6	6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	72	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	72	29	14	14	CD
work_2hfvnli6qndh3p3kqrzilygb4m	72	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	72	31	21	21	CD
work_2hfvnli6qndh3p3kqrzilygb4m	72	32	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	72	33	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	73	1	RNA	RNA	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	73	2	Isolation	Isolation	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	73	3	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	73	4	Reverse	Reverse	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	73	5	Transcription	Transcription	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	73	6	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	73	7	RT)–PCR	rt)–pcr	NN
work_2hfvnli6qndh3p3kqrzilygb4m	73	8	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	74	1	Total	Total	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	74	2	RNA	RNA	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	74	3	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	74	4	extracted	extract	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	74	5	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	74	6	lymphoblastoid	lymphoblastoid	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	74	7	cell	cell	NN
work_2hfvnli6qndh3p3kqrzilygb4m	74	8	lines	line	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	74	9	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	74	10	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	74	11	RNAzolB	RNAzolB	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	74	12	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	74	13	CinnayBiotecx	CinnayBiotecx	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	74	14	Laboratories	Laboratories	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	74	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	74	16	Friendswood	Friendswood	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	74	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	74	18	TX	TX	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	74	19	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	74	20	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	74	21	extractions	extraction	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	74	22	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	74	23	performed	perform	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	74	24	twice	twice	RB
work_2hfvnli6qndh3p3kqrzilygb4m	74	25	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	74	26	help	help	VB
work_2hfvnli6qndh3p3kqrzilygb4m	74	27	reduce	reduce	VB
work_2hfvnli6qndh3p3kqrzilygb4m	74	28	DNA	dna	NN
work_2hfvnli6qndh3p3kqrzilygb4m	74	29	contamination	contamination	NN
work_2hfvnli6qndh3p3kqrzilygb4m	74	30	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	75	1	RNA	RNA	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	75	2	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	75	3	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	75	4	mg	mg	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	75	5	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	75	6	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	75	7	reverse	reverse	RB
work_2hfvnli6qndh3p3kqrzilygb4m	75	8	transcribed	transcribe	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	75	9	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	75	10	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	75	11	SuperscriptII	superscriptii	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	75	12	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	75	13	GIBCOyBRL	gibcoybrl	CD
work_2hfvnli6qndh3p3kqrzilygb4m	75	14	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	75	15	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	75	16	random	random	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	75	17	hexamer	hexamer	NN
work_2hfvnli6qndh3p3kqrzilygb4m	75	18	primers	primer	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	75	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	75	20	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	75	21	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	75	22	ml	ml	NN
work_2hfvnli6qndh3p3kqrzilygb4m	75	23	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	75	24	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	75	25	RT	RT	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	75	26	reaction	reaction	NN
work_2hfvnli6qndh3p3kqrzilygb4m	75	27	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	75	28	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	75	29	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	75	30	subsequent	subsequent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	75	31	50-ml	50-ml	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	75	32	PCR	PCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	75	33	amplifications	amplification	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	75	34	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	76	1	Primers	primer	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	76	2	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	76	3	specific	specific	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	76	4	ampli-	ampli-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	76	5	fication	fication	NN
work_2hfvnli6qndh3p3kqrzilygb4m	76	6	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	76	7	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	76	8	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	76	9	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	76	10	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	76	11	designed	design	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	76	12	such	such	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	76	13	that	that	DT
work_2hfvnli6qndh3p3kqrzilygb4m	76	14	forward	forward	RB
work_2hfvnli6qndh3p3kqrzilygb4m	76	15	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	76	16	reverse	reverse	VB
work_2hfvnli6qndh3p3kqrzilygb4m	76	17	oligonucleotides	oligonucleotide	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	76	18	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	76	19	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	76	20	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	76	21	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	76	22	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	76	23	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	76	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	76	25	respectively	respectively	RB
work_2hfvnli6qndh3p3kqrzilygb4m	76	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	76	27	so	so	IN
work_2hfvnli6qndh3p3kqrzilygb4m	76	28	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	76	29	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	76	30	product	product	NN
work_2hfvnli6qndh3p3kqrzilygb4m	76	31	would	would	MD
work_2hfvnli6qndh3p3kqrzilygb4m	76	32	span	span	VB
work_2hfvnli6qndh3p3kqrzilygb4m	76	33	introns	intron	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	76	34	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	76	35	control	control	NN
work_2hfvnli6qndh3p3kqrzilygb4m	76	36	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	76	37	genomic	genomic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	76	38	DNA	DNA	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	76	39	contamination	contamination	NN
work_2hfvnli6qndh3p3kqrzilygb4m	76	40	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	77	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	77	2	primers	primer	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	77	3	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	77	4	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	77	5	RETX10F	RETX10F	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	77	6	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	77	7	59-TTCCCT-	59-ttccct-	CD
work_2hfvnli6qndh3p3kqrzilygb4m	77	8	GAGGAGGAGAAGTGC-39	GAGGAGGAGAAGTGC-39	,
work_2hfvnli6qndh3p3kqrzilygb4m	77	9	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	77	10	RETX12R	RETX12R	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	77	11	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	77	12	59-CCACTTTTC-	59-ccacttttc-	CD
work_2hfvnli6qndh3p3kqrzilygb4m	77	13	CAAATTCGCCTT-39	caaattcgcctt-39	CD
work_2hfvnli6qndh3p3kqrzilygb4m	77	14	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	77	15	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	77	16	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	77	17	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	77	18	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	77	19	amplification	amplification	NN
work_2hfvnli6qndh3p3kqrzilygb4m	77	20	reactions	reaction	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	77	21	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	77	22	follows	follow	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	77	23	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	77	24	30	30	CD
work_2hfvnli6qndh3p3kqrzilygb4m	77	25	s	s	NN
work_2hfvnli6qndh3p3kqrzilygb4m	77	26	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	77	27	94	94	CD
work_2hfvnli6qndh3p3kqrzilygb4m	77	28	°	°	,
work_2hfvnli6qndh3p3kqrzilygb4m	77	29	C	C	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	77	30	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	77	31	30	30	CD
work_2hfvnli6qndh3p3kqrzilygb4m	77	32	s	s	NN
work_2hfvnli6qndh3p3kqrzilygb4m	77	33	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	77	34	59	59	CD
work_2hfvnli6qndh3p3kqrzilygb4m	77	35	°	°	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	77	36	C	C	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	77	37	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	77	38	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	77	39	30	30	CD
work_2hfvnli6qndh3p3kqrzilygb4m	77	40	s	s	NN
work_2hfvnli6qndh3p3kqrzilygb4m	77	41	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	77	42	72	72	CD
work_2hfvnli6qndh3p3kqrzilygb4m	77	43	°	°	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	77	44	C	C	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	77	45	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	77	46	35	35	CD
work_2hfvnli6qndh3p3kqrzilygb4m	77	47	cycles	cycle	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	77	48	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	78	1	Results	result	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	78	2	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	78	3	Is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	78	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	78	5	Major	Major	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	78	6	Gene	Gene	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	78	7	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	78	8	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	78	9	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	79	1	Human	human	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	79	2	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	79	3	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	79	4	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	79	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	79	6	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	79	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	79	8	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	79	9	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	79	10	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	79	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	79	12	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	79	13	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	79	14	10q11	10q11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	79	15	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	79	16	19	19	CD
work_2hfvnli6qndh3p3kqrzilygb4m	79	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	79	18	20	20	CD
work_2hfvnli6qndh3p3kqrzilygb4m	79	19	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	79	20	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	79	21	GFRA1	gfra1	WP
work_2hfvnli6qndh3p3kqrzilygb4m	79	22	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	79	23	10q25	10q25	CD
work_2hfvnli6qndh3p3kqrzilygb4m	79	24	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	79	25	14	14	CD
work_2hfvnli6qndh3p3kqrzilygb4m	79	26	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	79	27	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	80	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	80	2	searched	search	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	80	3	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	80	4	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	80	5	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	80	6	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	80	7	multiplex	multiplex	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	80	8	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	80	9	segregating	segregate	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	80	10	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	80	11	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	80	12	Fig	fig	NN
work_2hfvnli6qndh3p3kqrzilygb4m	80	13	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	81	1	1	1	LS
work_2hfvnli6qndh3p3kqrzilygb4m	81	2	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	81	3	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	81	4	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	81	5	22	22	CD
work_2hfvnli6qndh3p3kqrzilygb4m	81	6	polymorphic	polymorphic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	81	7	microsatellite	microsatellite	NN
work_2hfvnli6qndh3p3kqrzilygb4m	81	8	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	81	9	spanning	span	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	81	10	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	81	11	entire	entire	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	81	12	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	81	13	length	length	NN
work_2hfvnli6qndh3p3kqrzilygb4m	81	14	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	81	15	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	81	16	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	81	17	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	81	18	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	81	19	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	81	20	resolution	resolution	NN
work_2hfvnli6qndh3p3kqrzilygb4m	81	21	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	81	22	8	8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	81	23	centimorgans	centimorgan	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	81	24	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	81	25	cM	cM	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	81	26	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	81	27	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	81	28	Fig	fig	NN
work_2hfvnli6qndh3p3kqrzilygb4m	81	29	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	82	1	2a	2a	LS
work_2hfvnli6qndh3p3kqrzilygb4m	82	2	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	82	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	83	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	83	2	performed	perform	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	83	3	both	both	DT
work_2hfvnli6qndh3p3kqrzilygb4m	83	4	parametric	parametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	83	5	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	83	6	nonparametric	nonparametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	83	7	multipoint	multipoint	NN
work_2hfvnli6qndh3p3kqrzilygb4m	83	8	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	83	9	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	83	10	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	83	11	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	83	12	computer	computer	NN
work_2hfvnli6qndh3p3kqrzilygb4m	83	13	program	program	NN
work_2hfvnli6qndh3p3kqrzilygb4m	83	14	GENEHUNTER	GENEHUNTER	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	83	15	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	83	16	24	24	CD
work_2hfvnli6qndh3p3kqrzilygb4m	83	17	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	83	18	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	84	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	84	2	detected	detect	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	84	3	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	84	4	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	84	5	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	84	6	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	84	7	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	84	8	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	84	9	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	84	10	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	84	11	nonparametric	nonparametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	84	12	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	84	13	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	84	14	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	84	15	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	84	16	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	84	17	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	84	18	11.3	11.3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	84	19	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	84	20	P	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	84	21	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	84	22	7.7	7.7	CD
work_2hfvnli6qndh3p3kqrzilygb4m	84	23	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	84	24	1028	1028	CD
work_2hfvnli6qndh3p3kqrzilygb4m	84	25	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	84	26	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	84	27	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	84	28	lod	lod	NN
work_2hfvnli6qndh3p3kqrzilygb4m	84	29	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	84	30	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	84	31	9.4	9.4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	84	32	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	84	33	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	84	34	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	84	35	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	84	36	Fig	Fig	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	84	37	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	85	1	2a	2a	LS
work_2hfvnli6qndh3p3kqrzilygb4m	85	2	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	85	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	86	1	No	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	86	2	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	86	3	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	86	4	evident	evident	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	86	5	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	86	6	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	86	7	GFRA1	GFRA1	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	86	8	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	86	9	consistent	consistent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	86	10	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	86	11	our	-PRON-	PRP$
work_2hfvnli6qndh3p3kqrzilygb4m	86	12	previous	previous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	86	13	observations	observation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	86	14	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	86	15	14	14	CD
work_2hfvnli6qndh3p3kqrzilygb4m	86	16	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	86	17	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	87	1	Haplotype	Haplotype	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	87	2	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	87	3	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	87	4	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	87	5	flanking	flank	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	87	6	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	87	7	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	87	8	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	87	9	demonstrated	demonstrate	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	87	10	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	87	11	all	all	DT
work_2hfvnli6qndh3p3kqrzilygb4m	87	12	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	87	13	except	except	IN
work_2hfvnli6qndh3p3kqrzilygb4m	87	14	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	87	15	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	87	16	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	87	17	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	87	18	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	87	19	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	87	20	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	87	21	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	87	22	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	87	23	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	88	1	Consequently	consequently	RB
work_2hfvnli6qndh3p3kqrzilygb4m	88	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	88	3	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	88	4	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	88	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	88	6	major	major	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	88	7	segregating	segregating	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	88	8	factor	factor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	88	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	88	10	multigenerational	multigenerational	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	88	11	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	88	12	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	88	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	88	14	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	88	15	additional	additional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	88	16	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	88	17	must	must	MD
work_2hfvnli6qndh3p3kqrzilygb4m	88	18	also	also	RB
work_2hfvnli6qndh3p3kqrzilygb4m	88	19	exist	exist	VB
work_2hfvnli6qndh3p3kqrzilygb4m	88	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	89	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	89	2	demonstrated	demonstrate	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	89	3	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	89	4	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	89	5	heterogeneity	heterogeneity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	89	6	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	89	7	x2	x2	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	89	8	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	89	9	5.1	5.1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	89	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	89	11	P	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	89	12	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	89	13	0.023	0.023	CD
work_2hfvnli6qndh3p3kqrzilygb4m	89	14	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	89	15	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	89	16	obtained	obtain	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	89	17	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	89	18	multipoint	multipoint	NN
work_2hfvnli6qndh3p3kqrzilygb4m	89	19	heterogeneity	heterogeneity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	89	20	lod	lod	DT
work_2hfvnli6qndh3p3kqrzilygb4m	89	21	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	89	22	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	89	23	10.5	10.5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	89	24	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	89	25	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	89	26	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	89	27	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	89	28	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	89	29	91	91	CD
work_2hfvnli6qndh3p3kqrzilygb4m	89	30	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	89	31	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	89	32	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	89	33	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	89	34	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	89	35	23	23	CD
work_2hfvnli6qndh3p3kqrzilygb4m	89	36	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	89	37	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	90	1	Calculations	calculation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	90	2	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	90	3	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	90	4	posterior	posterior	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	90	5	probability	probability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	90	6	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	90	7	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	90	8	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	90	9	each	each	DT
work_2hfvnli6qndh3p3kqrzilygb4m	90	10	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	90	11	showed	show	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	90	12	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	90	13	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	90	14	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	90	15	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	90	16	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	90	17	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	90	18	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	90	19	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	90	20	.97	.97	CD
work_2hfvnli6qndh3p3kqrzilygb4m	90	21	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	90	22	probability	probability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	90	23	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	90	24	being	be	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	90	25	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	90	26	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	90	27	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	90	28	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	90	29	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	90	30	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	90	31	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	90	32	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	91	1	There	there	EX
work_2hfvnli6qndh3p3kqrzilygb4m	91	2	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	91	3	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	91	4	evidence	evidence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	91	5	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	91	6	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	91	7	common	common	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	91	8	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	91	9	haplotype	haplotype	NN
work_2hfvnli6qndh3p3kqrzilygb4m	91	10	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	91	11	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	91	12	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	91	13	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	91	14	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	92	1	Diverse	diverse	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	92	2	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	92	3	Mutations	Mutations	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	92	4	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	92	5	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	92	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	93	1	To	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	93	2	determine	determine	VB
work_2hfvnli6qndh3p3kqrzilygb4m	93	3	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	93	4	nature	nature	NN
work_2hfvnli6qndh3p3kqrzilygb4m	93	5	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	93	6	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	93	7	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	93	8	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	93	9	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	93	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	93	11	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	93	12	conducted	conduct	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	93	13	extensive	extensive	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	93	14	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	93	15	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	93	16	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	93	17	all	all	DT
work_2hfvnli6qndh3p3kqrzilygb4m	93	18	probands	proband	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	93	19	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	93	20	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	93	21	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	93	22	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	93	23	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	93	24	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	93	25	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	93	26	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	93	27	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	94	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	94	2	identified	identify	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	94	3	eight	eight	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	4	putative	putative	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	94	5	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	6	distributed	distribute	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	94	7	across	across	IN
work_2hfvnli6qndh3p3kqrzilygb4m	94	8	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	94	9	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	94	10	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	94	12	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	94	13	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	14	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	94	15	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	16	relative	relative	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	94	17	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	94	18	reference	reference	VB
work_2hfvnli6qndh3p3kqrzilygb4m	94	19	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	20	data	datum	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	21	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	94	22	26–29	26–29	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	23	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	94	24	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	94	25	studies	study	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	26	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	94	27	control	control	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	28	individuals	individual	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	29	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	94	30	four	four	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	31	probands	proband	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	32	had	have	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	94	33	missense	missense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	34	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	35	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	94	36	N394	N394	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	94	37	K	K	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	94	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	94	39	R360W	R360W	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	94	40	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	94	41	R77C	R77C	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	94	42	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	94	43	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	94	44	S32L	S32L	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	94	45	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	94	46	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	47	1–4	1–4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	48	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	94	49	respectively	respectively	RB
work_2hfvnli6qndh3p3kqrzilygb4m	94	50	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	94	51	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	94	52	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	53	pro-	pro-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	54	bands	band	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	55	had	have	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	94	56	nonsense	nonsense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	57	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	58	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	94	59	W942X	w942x	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	60	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	94	61	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	62	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	63	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	94	64	E921X	E921X	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	94	65	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	94	66	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	67	6	6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	68	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	94	69	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	94	70	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	94	71	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	72	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	73	harbored	harbor	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	94	74	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	75	alterations	alteration	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	94	76	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	94	77	could	could	MD
work_2hfvnli6qndh3p3kqrzilygb4m	94	78	affect	affect	VB
work_2hfvnli6qndh3p3kqrzilygb4m	94	79	normal	normal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	94	80	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	81	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	94	82	S649S	s649s	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	83	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	94	84	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	85	7	7	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	86	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	94	87	IVS17	IVS17	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	94	88	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	89	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	90	G	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	91	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	92	A	a	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	93	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	94	94	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	94	95	8)	8)	CD
work_2hfvnli6qndh3p3kqrzilygb4m	94	96	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	95	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	95	2	synonymous	synonymous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	95	3	Serine	Serine	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	95	4	change	change	NN
work_2hfvnli6qndh3p3kqrzilygb4m	95	5	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	95	6	residue	residue	NN
work_2hfvnli6qndh3p3kqrzilygb4m	95	7	649	649	CD
work_2hfvnli6qndh3p3kqrzilygb4m	95	8	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	95	9	TCG	TCG	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	95	10	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	95	11	TCA	TCA	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	95	12	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	95	13	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	95	14	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	95	15	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	95	16	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	95	17	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	95	18	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	95	19	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	95	20	has	have	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	95	21	previously	previously	RB
work_2hfvnli6qndh3p3kqrzilygb4m	95	22	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	95	23	observed	observe	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	95	24	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	95	25	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	95	26	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	95	27	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	95	28	one	one	CD
work_2hfvnli6qndh3p3kqrzilygb4m	95	29	patient	patient	NN
work_2hfvnli6qndh3p3kqrzilygb4m	95	30	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	96	1	With	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	96	2	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	96	3	observation	observation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	96	4	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	96	5	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	96	6	second	second	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	96	7	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	96	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	96	9	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	96	10	Bolk	Bolk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	96	11	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	96	12	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	96	13	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	97	1	PNAS	PNAS	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	97	2	u	u	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	97	3	January	January	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	97	4	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	97	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	97	6	2000	2000	CD
work_2hfvnli6qndh3p3kqrzilygb4m	97	7	u	u	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	97	8	vol	vol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	97	9	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	98	1	97	97	CD
work_2hfvnli6qndh3p3kqrzilygb4m	98	2	u	u	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	98	3	no	no	UH
work_2hfvnli6qndh3p3kqrzilygb4m	98	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	99	1	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	99	2	u	u	CD
work_2hfvnli6qndh3p3kqrzilygb4m	99	3	269	269	CD
work_2hfvnli6qndh3p3kqrzilygb4m	99	4	G	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	5	EN	EN	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	6	ET	ET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	7	IC	ic	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	8	S	s	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	9	D	d	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	10	o	o	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	11	w	w	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	12	n	n	XX
work_2hfvnli6qndh3p3kqrzilygb4m	99	13	lo	lo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	14	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	99	15	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	16	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	17	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	18	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	99	19	t	t	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	20	C	c	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	21	a	a	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	22	rn	rn	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	23	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	24	g	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	25	ie	ie	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	26	M	M	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	27	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	28	llo	llo	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	29	n	n	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	30	U	u	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	31	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	99	32	iv	iv	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	33	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	34	rs	rs	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	35	ity	ity	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	36	o	o	XX
work_2hfvnli6qndh3p3kqrzilygb4m	99	37	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	99	38	A	A	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	99	39	p	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	40	ri	ri	FW
work_2hfvnli6qndh3p3kqrzilygb4m	99	41	l	l	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	42	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	99	43	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	99	44	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	99	45	0	0	CD
work_2hfvnli6qndh3p3kqrzilygb4m	99	46	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	99	47	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	99	48	sought	seek	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	99	49	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	99	50	determine	determine	VB
work_2hfvnli6qndh3p3kqrzilygb4m	99	51	whether	whether	IN
work_2hfvnli6qndh3p3kqrzilygb4m	99	52	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	99	53	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	99	54	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	99	55	polymorphism	polymorphism	NN
work_2hfvnli6qndh3p3kqrzilygb4m	99	56	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	100	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	100	2	G	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	100	3	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	100	4	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	100	5	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	100	6	A	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	100	7	nucleotide	nucleotide	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	100	8	change	change	NN
work_2hfvnli6qndh3p3kqrzilygb4m	100	9	created	create	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	100	10	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	100	11	DdeI	DdeI	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	100	12	restriction	restriction	NN
work_2hfvnli6qndh3p3kqrzilygb4m	100	13	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	100	14	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	100	15	allowed	allow	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	100	16	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	100	17	rapid	rapid	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	100	18	screen	screen	NN
work_2hfvnli6qndh3p3kqrzilygb4m	100	19	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	100	20	60	60	CD
work_2hfvnli6qndh3p3kqrzilygb4m	100	21	CEPH	CEPH	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	100	22	control	control	NN
work_2hfvnli6qndh3p3kqrzilygb4m	100	23	individuals	individual	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	100	24	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	100	25	100	100	CD
work_2hfvnli6qndh3p3kqrzilygb4m	100	26	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	100	27	probands	proband	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	100	28	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	100	29	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	100	30	did	do	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	100	31	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	100	32	encounter	encounter	VB
work_2hfvnli6qndh3p3kqrzilygb4m	100	33	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	100	34	again	again	RB
work_2hfvnli6qndh3p3kqrzilygb4m	100	35	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	100	36	320	320	CD
work_2hfvnli6qndh3p3kqrzilygb4m	100	37	chromosomes	chromosome	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	100	38	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	101	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	101	2	second	second	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	101	3	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	4	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	5	occurs	occur	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	101	6	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	101	7	intron	intron	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	101	8	17	17	CD
work_2hfvnli6qndh3p3kqrzilygb4m	101	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	101	10	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	101	11	consensus	consensus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	12	splice	splice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	13	donor	donor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	14	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	101	16	altering	alter	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	101	17	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	101	18	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	19	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	101	20	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	101	21	splice	splice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	22	donor	donor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	23	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	24	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	101	25	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	101	26	exonyintron	exonyintron	NN
work_2hfvnli6qndh3p3kqrzilygb4m	101	27	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	101	28	AGyGTGAGT	agygtgagt	ADD
work_2hfvnli6qndh3p3kqrzilygb4m	101	29	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	101	30	AGyGTGAAT	AGyGTGAAT	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	101	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	102	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	102	2	remaining	remain	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	102	3	three	three	CD
work_2hfvnli6qndh3p3kqrzilygb4m	102	4	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	102	5	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	102	6	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	102	7	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	102	8	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	102	9	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	102	10	9–11	9–11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	102	11	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	102	12	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	102	13	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	102	14	extensively	extensively	RB
work_2hfvnli6qndh3p3kqrzilygb4m	102	15	screened	screen	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	102	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	102	17	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	102	18	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	102	19	causative	causative	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	102	20	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	102	21	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	102	22	could	could	MD
work_2hfvnli6qndh3p3kqrzilygb4m	102	23	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	102	24	identified	identify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	102	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	103	1	To	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	103	2	assess	assess	VB
work_2hfvnli6qndh3p3kqrzilygb4m	103	3	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	103	4	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	103	5	might	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	103	6	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	103	7	functional	functional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	103	8	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	103	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	103	10	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	103	11	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	103	12	benign	benign	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	103	13	rare	rare	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	103	14	variants	variant	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	103	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	103	16	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	103	17	also	also	RB
work_2hfvnli6qndh3p3kqrzilygb4m	103	18	compared	compare	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	103	19	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	103	20	nature	nature	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	21	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	103	22	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	103	23	residue	residue	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	24	altered	alter	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	103	25	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	103	26	conservative	conservative	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	103	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	103	28	nonconservative	nonconservative	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	103	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	103	30	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	103	31	neutral	neutral	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	103	32	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	103	33	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	103	34	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	103	35	evolutionary	evolutionary	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	103	36	conservation	conservation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	37	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	103	38	that	that	DT
work_2hfvnli6qndh3p3kqrzilygb4m	103	39	amino	amino	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	40	acid	acid	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	41	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	103	42	protein	protein	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	43	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	44	alignment	alignment	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	45	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	103	46	human	human	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	47	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	103	48	mouse	mouse	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	49	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	103	50	chicken	chicken	NN
work_2hfvnli6qndh3p3kqrzilygb4m	103	51	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	103	52	zebrafish	zebrafish	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	103	53	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	103	54	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	103	55	Drosophila	Drosophila	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	103	56	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	103	57	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	104	1	As	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	104	2	shown	show	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	104	3	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	104	4	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	104	5	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	104	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	104	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	104	8	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	104	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	104	10	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	104	11	1–4	1–4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	104	12	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	104	13	either	either	CC
work_2hfvnli6qndh3p3kqrzilygb4m	104	14	nonconservative	nonconservative	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	104	15	residue	residue	NN
work_2hfvnli6qndh3p3kqrzilygb4m	104	16	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	104	17	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	104	18	alterations	alteration	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	104	19	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	104	20	evolutionarily	evolutionarily	RB
work_2hfvnli6qndh3p3kqrzilygb4m	104	21	conserved	conserve	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	104	22	residues	residue	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	104	23	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	104	24	likely	likely	RB
work_2hfvnli6qndh3p3kqrzilygb4m	104	25	lead	lead	NN
work_2hfvnli6qndh3p3kqrzilygb4m	104	26	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	104	27	diminished	diminished	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	104	28	protein	protein	NN
work_2hfvnli6qndh3p3kqrzilygb4m	104	29	function	function	NN
work_2hfvnli6qndh3p3kqrzilygb4m	104	30	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	105	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	105	2	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	105	3	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	105	4	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	105	5	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	105	6	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	105	7	6	6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	105	8	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	105	9	nonsense	nonsense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	105	10	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	105	11	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	105	12	very	very	RB
work_2hfvnli6qndh3p3kqrzilygb4m	105	13	highly	highly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	105	14	conserved	conserve	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	105	15	sites	site	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	105	16	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	106	1	Thus	thus	RB
work_2hfvnli6qndh3p3kqrzilygb4m	106	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	106	3	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	106	4	conclude	conclude	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	106	5	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	106	6	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	106	7	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	106	8	alter-	alter-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	106	9	ations	ation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	106	10	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	106	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	106	12	1–6	1–6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	106	13	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	106	14	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	106	15	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	106	16	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	106	17	lead	lead	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	106	18	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	106	19	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	106	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	107	1	These	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	107	2	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	107	3	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	107	4	likely	likely	RB
work_2hfvnli6qndh3p3kqrzilygb4m	107	5	loss	loss	NN
work_2hfvnli6qndh3p3kqrzilygb4m	107	6	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	107	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	107	8	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	107	9	function	function	NN
work_2hfvnli6qndh3p3kqrzilygb4m	107	10	variants	variant	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	107	11	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	108	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	108	2	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	108	3	S649S	s649s	CD
work_2hfvnli6qndh3p3kqrzilygb4m	108	4	Synonymous	synonymous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	108	5	Change	change	NN
work_2hfvnli6qndh3p3kqrzilygb4m	108	6	Is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	108	7	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	108	8	Variant	Variant	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	108	9	Splicing	Splicing	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	108	10	Mutation	Mutation	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	108	11	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	109	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	109	2	synonymous	synonymous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	109	3	substitution	substitution	NN
work_2hfvnli6qndh3p3kqrzilygb4m	109	4	S649S	S649S	:
work_2hfvnli6qndh3p3kqrzilygb4m	109	5	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	109	6	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	109	7	priori	priori	FW
work_2hfvnli6qndh3p3kqrzilygb4m	109	8	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	109	9	unlikely	unlikely	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	109	10	candidate	candidate	NN
work_2hfvnli6qndh3p3kqrzilygb4m	109	11	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	109	12	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	110	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	110	2	hypothesized	hypothesize	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	110	3	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	110	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	110	5	underlying	underlie	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	110	6	nucleotide	nucleotide	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	110	7	change	change	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	8	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	110	9	TCG3TCA	tcg3tca	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	10	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	110	11	causes	cause	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	110	12	aberrant	aberrant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	110	13	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	14	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	110	15	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	110	16	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	110	17	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	110	18	because	because	IN
work_2hfvnli6qndh3p3kqrzilygb4m	110	19	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	110	20	substitution	substitution	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	21	creates	create	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	110	22	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	110	23	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	24	[	[	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	110	25	CTTCATCGTCTCAGT	CTTCATCGTCTCAGT	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	110	26	]	]	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	110	27	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	110	28	closely	closely	RB
work_2hfvnli6qndh3p3kqrzilygb4m	110	29	resembles	resemble	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	110	30	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	110	31	consensus	consensus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	32	splice	splice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	33	acceptor	acceptor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	34	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	35	[	[	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	110	36	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	110	37	ct)10ncagG	ct)10ncagg	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	38	]	]	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	110	39	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	110	40	Fig	fig	NN
work_2hfvnli6qndh3p3kqrzilygb4m	110	41	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	111	1	3a	3a	LS
work_2hfvnli6qndh3p3kqrzilygb4m	111	2	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	111	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	112	1	If	if	IN
work_2hfvnli6qndh3p3kqrzilygb4m	112	2	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	112	3	novel	novel	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	112	4	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	112	5	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	112	6	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	112	7	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	112	8	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	112	9	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	112	10	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	112	11	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	112	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	112	13	then	then	RB
work_2hfvnli6qndh3p3kqrzilygb4m	112	14	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	112	15	would	would	MD
work_2hfvnli6qndh3p3kqrzilygb4m	112	16	result	result	VB
work_2hfvnli6qndh3p3kqrzilygb4m	112	17	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	112	18	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	112	19	deletion	deletion	NN
work_2hfvnli6qndh3p3kqrzilygb4m	112	20	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	112	21	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	112	22	first	first	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	112	23	23	23	CD
work_2hfvnli6qndh3p3kqrzilygb4m	112	24	amino	amino	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	112	25	acids	acid	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	112	26	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	112	27	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	112	28	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	112	29	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	113	1	Given	give	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	113	2	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	113	3	exon	exon	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	113	4	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	113	5	encodes	encode	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	113	6	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	113	7	transmembrane	transmembrane	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	113	8	domain	domain	NN
work_2hfvnli6qndh3p3kqrzilygb4m	113	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	113	10	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	113	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	113	12	it	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	113	13	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	113	14	likely	likely	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	113	15	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	113	16	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	113	17	deletion	deletion	NN
work_2hfvnli6qndh3p3kqrzilygb4m	113	18	would	would	MD
work_2hfvnli6qndh3p3kqrzilygb4m	113	19	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	113	20	allow	allow	VB
work_2hfvnli6qndh3p3kqrzilygb4m	113	21	membrane	membrane	NN
work_2hfvnli6qndh3p3kqrzilygb4m	113	22	anchoring	anchoring	NN
work_2hfvnli6qndh3p3kqrzilygb4m	113	23	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	113	24	would	would	MD
work_2hfvnli6qndh3p3kqrzilygb4m	113	25	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	113	26	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	113	27	loss	loss	NN
work_2hfvnli6qndh3p3kqrzilygb4m	113	28	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	113	29	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	113	30	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	113	31	function	function	NN
work_2hfvnli6qndh3p3kqrzilygb4m	113	32	allele	allele	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	113	33	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	114	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	114	2	used	use	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	114	3	RT	RT	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	114	4	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	114	5	PCR	PCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	114	6	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	114	7	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	114	8	Fig	fig	NN
work_2hfvnli6qndh3p3kqrzilygb4m	114	9	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	115	1	3b	3b	LS
work_2hfvnli6qndh3p3kqrzilygb4m	115	2	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	115	3	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	115	4	show	show	VB
work_2hfvnli6qndh3p3kqrzilygb4m	115	5	functionally	functionally	RB
work_2hfvnli6qndh3p3kqrzilygb4m	115	6	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	115	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	115	8	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	115	9	base	base	NN
work_2hfvnli6qndh3p3kqrzilygb4m	115	10	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	115	11	residue	residue	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	115	12	649	649	CD
work_2hfvnli6qndh3p3kqrzilygb4m	115	13	creates	create	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	115	14	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	115	15	novel	novel	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	115	16	splice	splice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	115	17	acceptor	acceptor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	115	18	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	115	19	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	115	20	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	115	21	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	115	22	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	115	23	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	115	24	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	115	25	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	115	26	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	115	27	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	115	28	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	115	29	lymphoblastoid	lymphoblastoid	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	115	30	cells	cell	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	115	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	116	1	However	however	RB
work_2hfvnli6qndh3p3kqrzilygb4m	116	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	116	3	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	116	4	data	datum	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	116	5	do	do	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	116	6	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	116	7	clarify	clarify	VB
work_2hfvnli6qndh3p3kqrzilygb4m	116	8	whether	whether	IN
work_2hfvnli6qndh3p3kqrzilygb4m	116	9	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	116	10	new	new	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	116	11	splice	splice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	116	12	acceptor	acceptor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	116	13	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	116	14	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	116	15	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	116	16	exclusively	exclusively	RB
work_2hfvnli6qndh3p3kqrzilygb4m	116	17	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	116	18	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	116	19	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	117	1	To	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	117	2	determine	determine	VB
work_2hfvnli6qndh3p3kqrzilygb4m	117	3	whether	whether	IN
work_2hfvnli6qndh3p3kqrzilygb4m	117	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	117	5	RT	RT	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	117	6	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	117	7	PCR	PCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	117	8	band	band	NN
work_2hfvnli6qndh3p3kqrzilygb4m	117	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	117	10	wild	wild	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	117	11	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	117	12	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	117	13	molecular	molecular	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	117	14	weight	weight	NN
work_2hfvnli6qndh3p3kqrzilygb4m	117	15	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	117	16	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	117	17	single	single	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	117	18	molecular	molecular	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	117	19	species	specie	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	117	20	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	117	21	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	117	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	117	23	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	117	24	used	use	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	117	25	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	117	26	expressed	express	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	117	27	BanI	BanI	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	117	28	polymorphism	polymorphism	NN
work_2hfvnli6qndh3p3kqrzilygb4m	117	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	117	30	G691S	G691S	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	117	31	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	117	32	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	117	33	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	117	34	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	117	35	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	117	36	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	117	37	carriers	carrier	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	117	38	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	117	39	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	117	40	S649S	s649s	CD
work_2hfvnli6qndh3p3kqrzilygb4m	117	41	variant	variant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	117	42	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	117	43	also	also	RB
work_2hfvnli6qndh3p3kqrzilygb4m	117	44	heterozygous	heterozygous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	117	45	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	118	1	As	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	118	2	shown	show	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	118	3	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	118	4	Fig	Fig	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	118	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	119	1	3c	3c	LS
work_2hfvnli6qndh3p3kqrzilygb4m	119	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	119	3	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	119	4	wild	wild	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	119	5	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	119	6	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	119	7	band	band	NN
work_2hfvnli6qndh3p3kqrzilygb4m	119	8	consisted	consist	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	119	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	119	10	amplification	amplification	NN
work_2hfvnli6qndh3p3kqrzilygb4m	119	11	products	product	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	119	12	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	119	13	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	119	14	sources	source	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	119	15	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	119	16	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	119	17	transcript	transcript	NN
work_2hfvnli6qndh3p3kqrzilygb4m	119	18	carrying	carry	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	119	19	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	119	20	wild	wild	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	119	21	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	119	22	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	119	23	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	119	24	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	119	25	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	119	26	transcript	transcript	NN
work_2hfvnli6qndh3p3kqrzilygb4m	119	27	carrying	carry	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	119	28	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	119	29	S649S	s649s	CD
work_2hfvnli6qndh3p3kqrzilygb4m	119	30	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	119	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	120	1	There-	There-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	120	2	fore	fore	NN
work_2hfvnli6qndh3p3kqrzilygb4m	120	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	120	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	120	5	novel	novel	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	120	6	splice	splice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	120	7	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	120	8	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	120	9	only	only	RB
work_2hfvnli6qndh3p3kqrzilygb4m	120	10	partially	partially	RB
work_2hfvnli6qndh3p3kqrzilygb4m	120	11	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	120	12	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	121	1	On	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	121	2	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	121	3	basis	basis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	121	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	121	5	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	121	6	conclude	conclude	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	121	7	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	121	8	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	121	9	S649S	s649s	CD
work_2hfvnli6qndh3p3kqrzilygb4m	121	10	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	121	11	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	121	12	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	121	13	hypomorphic	hypomorphic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	121	14	allele	allele	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	121	15	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	121	16	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	121	17	carriers	carrier	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	121	18	will	will	MD
work_2hfvnli6qndh3p3kqrzilygb4m	121	19	express	express	VB
work_2hfvnli6qndh3p3kqrzilygb4m	121	20	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	121	21	intermediate	intermediate	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	121	22	level	level	NN
work_2hfvnli6qndh3p3kqrzilygb4m	121	23	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	121	24	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	121	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	122	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	122	2	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	122	3	unable	unable	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	122	4	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	122	5	assay	assay	VB
work_2hfvnli6qndh3p3kqrzilygb4m	122	6	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	122	7	effect	effect	NN
work_2hfvnli6qndh3p3kqrzilygb4m	122	8	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	122	9	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	122	10	caused	cause	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	122	11	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	122	12	IVS17	IVS17	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	122	13	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	122	14	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	122	15	G	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	122	16	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	122	17	A	A	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	122	18	because	because	IN
work_2hfvnli6qndh3p3kqrzilygb4m	122	19	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	122	20	unavailability	unavailability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	122	21	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	122	22	cell	cell	NN
work_2hfvnli6qndh3p3kqrzilygb4m	122	23	lines	line	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	122	24	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	122	25	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	122	26	8	8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	122	27	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	123	1	A	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	123	2	New	New	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	123	3	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	123	4	Locus	Locus	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	123	5	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	123	6	Chromosome	Chromosome	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	123	7	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	123	8	Modifies	Modifies	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	123	9	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	123	10	Penetrance	Penetrance	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	123	11	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	124	1	To	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	124	2	search	search	VB
work_2hfvnli6qndh3p3kqrzilygb4m	124	3	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	124	4	additional	additional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	124	5	susceptibility	susceptibility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	124	6	factors	factor	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	124	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	124	8	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	124	9	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	124	10	begun	begin	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	124	11	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	124	12	ge-	ge-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	124	13	nome	nome	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	124	14	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	124	15	scan	scan	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	124	16	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	124	17	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	124	18	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	124	19	pedigrees	pedigree	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	124	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	124	21	initially	initially	RB
work_2hfvnli6qndh3p3kqrzilygb4m	124	22	concentrating	concentrate	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	124	23	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	124	24	chromo-	chromo-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	124	25	some	some	DT
work_2hfvnli6qndh3p3kqrzilygb4m	124	26	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	124	27	based	base	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	124	28	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	124	29	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	124	30	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	124	31	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	124	32	point	point	NN
work_2hfvnli6qndh3p3kqrzilygb4m	124	33	lod	lod	NN
work_2hfvnli6qndh3p3kqrzilygb4m	124	34	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	124	35	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	124	36	1.51	1.51	CD
work_2hfvnli6qndh3p3kqrzilygb4m	124	37	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	124	38	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	124	39	one	one	CD
work_2hfvnli6qndh3p3kqrzilygb4m	124	40	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	124	41	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	124	42	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	124	43	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	124	44	microsatellite	microsatellite	NN
work_2hfvnli6qndh3p3kqrzilygb4m	124	45	marker	marker	NN
work_2hfvnli6qndh3p3kqrzilygb4m	124	46	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	124	47	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	124	48	Hexabrachion	Hexabrachion	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	124	49	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	124	50	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	124	51	9q32–34	9q32–34	CD
work_2hfvnli6qndh3p3kqrzilygb4m	124	52	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	125	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	125	2	genotyped	genotype	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	125	3	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	125	4	performed	perform	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	125	5	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	125	6	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	125	7	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	125	8	16	16	CD
work_2hfvnli6qndh3p3kqrzilygb4m	125	9	polymor-	polymor-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	125	10	phic	phic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	125	11	microsatellite	microsatellite	NN
work_2hfvnli6qndh3p3kqrzilygb4m	125	12	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	125	13	spanning	span	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	125	14	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	125	15	entire	entire	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	125	16	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	125	17	length	length	NN
work_2hfvnli6qndh3p3kqrzilygb4m	125	18	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	125	19	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	125	20	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	125	21	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	125	22	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	125	23	map	map	NN
work_2hfvnli6qndh3p3kqrzilygb4m	125	24	resolution	resolution	NN
work_2hfvnli6qndh3p3kqrzilygb4m	125	25	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	125	26	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	125	27	cM	cM	.
work_2hfvnli6qndh3p3kqrzilygb4m	125	28	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	125	29	Fig	fig	NN
work_2hfvnli6qndh3p3kqrzilygb4m	125	30	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	126	1	2b	2b	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	126	2	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	126	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	127	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	127	2	obtained	obtain	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	127	3	weak	weak	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	127	4	evidence	evidence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	127	5	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	127	6	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	127	7	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	127	8	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	127	9	peak	peak	NN
work_2hfvnli6qndh3p3kqrzilygb4m	127	10	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	127	11	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	127	12	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	127	13	3.8	3.8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	127	14	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	127	15	P	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	127	16	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	127	17	0.002	0.002	CD
work_2hfvnli6qndh3p3kqrzilygb4m	127	18	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	127	19	between	between	IN
work_2hfvnli6qndh3p3kqrzilygb4m	127	20	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	127	21	D9S1677	D9S1677	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	127	22	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	127	23	D9S1828	D9S1828	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	127	24	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	127	25	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	127	26	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	127	27	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	127	28	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	128	1	Parametric	parametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	128	2	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	128	3	provided	provide	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	128	4	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	128	5	peak	peak	NN
work_2hfvnli6qndh3p3kqrzilygb4m	128	6	lod	lod	NN
work_2hfvnli6qndh3p3kqrzilygb4m	128	7	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	128	8	'	'	''
work_2hfvnli6qndh3p3kqrzilygb4m	128	9	20-cM	20-cM	``
work_2hfvnli6qndh3p3kqrzilygb4m	128	10	proximal	proximal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	128	11	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	128	12	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	128	13	peak	peak	NN
work_2hfvnli6qndh3p3kqrzilygb4m	128	14	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	128	15	value	value	NN
work_2hfvnli6qndh3p3kqrzilygb4m	128	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	128	17	probably	probably	RB
work_2hfvnli6qndh3p3kqrzilygb4m	128	18	because	because	IN
work_2hfvnli6qndh3p3kqrzilygb4m	128	19	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	128	20	incorrect	incorrect	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	128	21	specification	specification	NN
work_2hfvnli6qndh3p3kqrzilygb4m	128	22	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	128	23	param-	param-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	128	24	Fig	Fig	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	128	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	129	1	1	1	LS
work_2hfvnli6qndh3p3kqrzilygb4m	129	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	130	1	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	130	2	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	130	3	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	130	4	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	130	5	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	130	6	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	130	7	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	131	1	Individuals	individual	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	131	2	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	131	3	confirmed	confirm	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	131	4	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	131	5	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	131	6	clinical	clinical	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	131	7	diagnosis	diagnosis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	131	8	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	131	9	chronic	chronic	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	131	10	severe	severe	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	131	11	constipation	constipation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	131	12	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	131	13	indicated	indicate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	131	14	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	131	15	filled	filled	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	131	16	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	131	17	shaded	shaded	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	131	18	symbols	symbol	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	131	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	131	20	respectively	respectively	RB
work_2hfvnli6qndh3p3kqrzilygb4m	131	21	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	132	1	Asterisks	asterisks	IN
work_2hfvnli6qndh3p3kqrzilygb4m	132	2	indicate	indicate	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	132	3	individuals	individual	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	132	4	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	132	5	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	132	6	genotyping	genotyping	NN
work_2hfvnli6qndh3p3kqrzilygb4m	132	7	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	133	1	270	270	CD
work_2hfvnli6qndh3p3kqrzilygb4m	133	2	u	u	CD
work_2hfvnli6qndh3p3kqrzilygb4m	133	3	www.pnas.org	www.pnas.org	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	133	4	Bolk	Bolk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	133	5	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	133	6	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	133	7	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	134	1	D	D	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	2	o	o	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	3	w	w	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	4	n	n	XX
work_2hfvnli6qndh3p3kqrzilygb4m	134	5	lo	lo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	6	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	134	7	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	8	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	9	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	10	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	134	11	t	t	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	12	C	c	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	13	a	a	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	14	rn	rn	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	15	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	16	g	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	17	ie	ie	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	18	M	M	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	19	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	20	llo	llo	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	21	n	n	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	22	U	u	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	23	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	134	24	iv	iv	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	25	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	26	rs	rs	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	27	ity	ity	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	28	o	o	XX
work_2hfvnli6qndh3p3kqrzilygb4m	134	29	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	134	30	A	A	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	134	31	p	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	32	ri	ri	FW
work_2hfvnli6qndh3p3kqrzilygb4m	134	33	l	l	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	34	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	134	35	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	134	36	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	134	37	0	0	CD
work_2hfvnli6qndh3p3kqrzilygb4m	134	38	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	134	39	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	134	40	eters	eter	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	134	41	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	134	42	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	134	43	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	134	44	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	135	1	Further	further	RB
work_2hfvnli6qndh3p3kqrzilygb4m	135	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	135	3	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	135	4	obtained	obtain	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	135	5	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	135	6	peak	peak	NN
work_2hfvnli6qndh3p3kqrzilygb4m	135	7	heterogeneity	heterogeneity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	135	8	lod	lod	PRP$
work_2hfvnli6qndh3p3kqrzilygb4m	135	9	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	135	10	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	135	11	2.3	2.3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	135	12	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	135	13	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	135	14	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	135	15	46	46	CD
work_2hfvnli6qndh3p3kqrzilygb4m	135	16	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	135	17	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	135	18	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	135	19	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	135	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	136	1	These	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	136	2	results	result	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	136	3	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	136	4	consistent	consistent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	136	5	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	136	6	haplotype	haplotype	NN
work_2hfvnli6qndh3p3kqrzilygb4m	136	7	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	136	8	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	136	9	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	136	10	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	136	11	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	136	12	Fig	Fig	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	136	13	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	137	1	2b	2b	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	137	2	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	137	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	137	4	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	137	5	shows	show	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	137	6	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	137	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	137	8	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	137	9	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	137	10	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	137	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	137	12	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	137	13	7–12	7–12	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	137	14	only	only	RB
work_2hfvnli6qndh3p3kqrzilygb4m	137	15	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	138	1	There	there	EX
work_2hfvnli6qndh3p3kqrzilygb4m	138	2	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	138	3	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	138	4	evidence	evidence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	138	5	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	138	6	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	138	7	common	common	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	138	8	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	138	9	haplotype	haplotype	NN
work_2hfvnli6qndh3p3kqrzilygb4m	138	10	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	138	11	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	138	12	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	138	13	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	138	14	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	139	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	139	2	results	result	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	139	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	139	4	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	5	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	6	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	139	7	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	139	8	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	139	9	linkage	linkage	VB
work_2hfvnli6qndh3p3kqrzilygb4m	139	10	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	11	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	139	12	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	13	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	139	14	suggested	suggest	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	139	15	classification	classification	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	16	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	139	17	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	139	18	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	139	19	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	139	20	into	into	IN
work_2hfvnli6qndh3p3kqrzilygb4m	139	21	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	139	22	groups	group	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	139	23	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	139	24	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	25	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	139	26	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	139	27	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	139	28	1–6	1–6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	139	29	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	139	30	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	31	I	I	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	139	32	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	139	33	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	139	34	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	139	35	carried	carry	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	139	36	severe	severe	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	139	37	nonsense	nonsense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	38	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	139	39	missense	missense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	40	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	139	41	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	42	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	139	43	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	139	44	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	139	45	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	139	46	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	47	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	139	48	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	139	49	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	139	50	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	139	51	those	those	DT
work_2hfvnli6qndh3p3kqrzilygb4m	139	52	without	without	IN
work_2hfvnli6qndh3p3kqrzilygb4m	139	53	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	139	54	missense	missense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	55	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	139	56	nonsense	nonsense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	57	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	139	58	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	139	59	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	139	60	7–12	7–12	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	139	61	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	139	62	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	63	II	II	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	139	64	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	139	65	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	139	66	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	139	67	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	139	68	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	139	69	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	140	1	This	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	140	2	association	association	NN
work_2hfvnli6qndh3p3kqrzilygb4m	140	3	between	between	IN
work_2hfvnli6qndh3p3kqrzilygb4m	140	4	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	140	5	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	140	6	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	140	7	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	140	8	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	140	9	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	140	10	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	140	11	highly	highly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	140	12	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	140	13	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	140	14	x2	x2	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	140	15	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	140	16	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	140	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	140	18	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	140	19	df	df	NN
work_2hfvnli6qndh3p3kqrzilygb4m	140	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	140	21	P	P	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	140	22	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	140	23	0.0025	0.0025	CD
work_2hfvnli6qndh3p3kqrzilygb4m	140	24	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	140	25	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	140	26	demonstrates	demonstrate	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	140	27	that	that	DT
work_2hfvnli6qndh3p3kqrzilygb4m	140	28	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	140	29	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	140	30	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	140	31	additional	additional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	140	32	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	140	33	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	140	34	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	140	35	restricted	restrict	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	140	36	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	140	37	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	140	38	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	140	39	do	do	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	140	40	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	140	41	have	have	VB
work_2hfvnli6qndh3p3kqrzilygb4m	140	42	missense	missense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	140	43	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	140	44	nonsense	nonsense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	140	45	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	140	46	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	140	47	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	141	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	141	2	reanalyzed	reanalyze	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	141	3	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	141	4	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	141	5	data	datum	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	141	6	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	141	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	141	8	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	141	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	141	10	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	141	11	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	141	12	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	141	13	Fig	fig	NN
work_2hfvnli6qndh3p3kqrzilygb4m	141	14	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	142	1	4	4	LS
work_2hfvnli6qndh3p3kqrzilygb4m	142	2	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	142	3	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	142	4	show	show	VB
work_2hfvnli6qndh3p3kqrzilygb4m	142	5	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	142	6	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	142	7	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	142	8	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	142	9	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	142	10	II	ii	CD
work_2hfvnli6qndh3p3kqrzilygb4m	142	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	142	12	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	142	13	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	142	14	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	142	15	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	142	16	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	142	17	5.3	5.3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	142	18	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	142	19	P	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	142	20	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	142	21	6.8	6.8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	142	22	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	142	23	1025	1025	CD
work_2hfvnli6qndh3p3kqrzilygb4m	142	24	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	142	25	between	between	IN
work_2hfvnli6qndh3p3kqrzilygb4m	142	26	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	142	27	D9S1677	D9S1677	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	142	28	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	142	29	D9S1828	D9S1828	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	142	30	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	142	31	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	142	32	expected	expect	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	142	33	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	142	34	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	142	35	evidence	evidence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	142	36	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	142	37	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	142	38	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	142	39	obtained	obtain	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	142	40	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	142	41	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	142	42	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	142	43	I	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	142	44	families	familie	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	142	45	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	143	1	Analogous	analogous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	143	2	parametric	parametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	143	3	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	4	showed	show	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	143	5	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	143	6	peak	peak	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	7	lod	lod	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	8	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	143	10	4.8	4.8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	143	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	143	12	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	13	II	II	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	143	14	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	143	15	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	143	16	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	143	17	same	same	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	143	18	map	map	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	19	location	location	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	20	defined	define	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	143	21	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	143	22	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	143	23	peak	peak	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	24	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	143	25	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	26	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	143	27	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	143	28	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	143	29	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	30	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	143	31	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	143	32	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	143	33	evident	evident	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	143	34	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	143	35	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	143	36	I	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	143	37	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	143	38	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	144	1	To	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	144	2	distinguish	distinguish	VB
work_2hfvnli6qndh3p3kqrzilygb4m	144	3	between	between	IN
work_2hfvnli6qndh3p3kqrzilygb4m	144	4	multigenic	multigenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	144	5	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	144	6	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	144	7	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	144	8	heter-	heter-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	144	9	ogeneity	ogeneity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	144	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	144	11	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	144	12	next	next	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	144	13	reanalyzed	reanalyzed	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	144	14	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	144	15	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	144	16	data	datum	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	144	17	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	144	18	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	144	19	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	144	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	145	1	As	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	145	2	shown	show	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	145	3	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	145	4	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	145	5	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	145	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	145	7	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	145	8	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	145	9	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	145	10	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	145	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	145	12	both	both	DT
work_2hfvnli6qndh3p3kqrzilygb4m	145	13	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	145	14	I	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	145	15	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	145	16	II	ii	CD
work_2hfvnli6qndh3p3kqrzilygb4m	145	17	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	145	18	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	145	19	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	145	20	scores	score	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	145	21	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	145	22	9.1	9.1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	145	23	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	145	24	P	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	145	25	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	145	26	6.2	6.2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	145	27	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	145	28	1025	1025	CD
work_2hfvnli6qndh3p3kqrzilygb4m	145	29	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	145	30	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	145	31	5.3	5.3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	145	32	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	145	33	P	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	145	34	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	145	35	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	145	36	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	146	1	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	146	2	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	146	3	1025	1025	CD
work_2hfvnli6qndh3p3kqrzilygb4m	146	4	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	146	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	146	6	respectively	respectively	RB
work_2hfvnli6qndh3p3kqrzilygb4m	146	7	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	147	1	Under	under	IN
work_2hfvnli6qndh3p3kqrzilygb4m	147	2	parametric	parametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	147	3	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	147	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	147	5	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	147	6	lod	lod	NN
work_2hfvnli6qndh3p3kqrzilygb4m	147	7	scores	score	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	147	8	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	147	9	also	also	RB
work_2hfvnli6qndh3p3kqrzilygb4m	147	10	observed	observe	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	147	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	147	12	both	both	DT
work_2hfvnli6qndh3p3kqrzilygb4m	147	13	groups	group	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	147	14	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	147	15	lod	lod	CC
work_2hfvnli6qndh3p3kqrzilygb4m	147	16	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	147	17	7.7	7.7	CD
work_2hfvnli6qndh3p3kqrzilygb4m	147	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	147	19	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	147	20	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	147	21	100	100	CD
work_2hfvnli6qndh3p3kqrzilygb4m	147	22	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	147	23	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	147	24	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	147	25	I	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	147	26	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	147	27	lod	lod	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	147	28	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	147	29	3.9	3.9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	147	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	147	31	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	147	32	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	147	33	86	86	CD
work_2hfvnli6qndh3p3kqrzilygb4m	147	34	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	147	35	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	147	36	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	147	37	II	II	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	147	38	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	147	39	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	148	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	148	2	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	148	3	I	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	148	4	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	148	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	148	6	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	148	7	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	148	8	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	148	9	sole	sole	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	148	10	contributory	contributory	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	148	11	factor	factor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	148	12	because	because	IN
work_2hfvnli6qndh3p3kqrzilygb4m	148	13	there	there	EX
work_2hfvnli6qndh3p3kqrzilygb4m	148	14	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	148	15	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	148	16	evidence	evidence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	148	17	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	148	18	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	148	19	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	148	20	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	148	21	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	148	22	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	148	23	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	149	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	149	2	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	149	3	remaining	remain	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	149	4	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	149	5	II	ii	CD
work_2hfvnli6qndh3p3kqrzilygb4m	149	6	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	149	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	149	8	there	there	EX
work_2hfvnli6qndh3p3kqrzilygb4m	149	9	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	149	10	overall	overall	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	149	11	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	149	12	evidence	evidence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	149	13	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	149	14	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	149	15	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	149	16	both	both	DT
work_2hfvnli6qndh3p3kqrzilygb4m	149	17	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	149	18	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	149	19	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	149	20	using	use	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	149	21	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	149	22	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	149	23	lod	lod	NN
work_2hfvnli6qndh3p3kqrzilygb4m	149	24	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	149	25	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	149	26	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	150	1	One	one	CD
work_2hfvnli6qndh3p3kqrzilygb4m	150	2	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	150	3	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	150	4	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	150	5	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	150	6	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	150	7	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	150	8	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	150	9	latter	latter	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	150	10	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	150	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	150	12	analogous	analogous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	150	13	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	150	14	those	those	DT
work_2hfvnli6qndh3p3kqrzilygb4m	150	15	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	150	16	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	150	17	I	I	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	150	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	150	19	might	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	150	20	harbor	harbor	VB
work_2hfvnli6qndh3p3kqrzilygb4m	150	21	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	150	22	severe	severe	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	150	23	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	150	24	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	150	25	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	150	26	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	150	27	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	150	28	only	only	RB
work_2hfvnli6qndh3p3kqrzilygb4m	150	29	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	151	1	These	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	151	2	data	datum	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	151	3	clearly	clearly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	151	4	demonstrate	demonstrate	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	151	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	151	6	existence	existence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	151	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	151	8	at	at	RB
work_2hfvnli6qndh3p3kqrzilygb4m	151	9	least	least	RBS
work_2hfvnli6qndh3p3kqrzilygb4m	151	10	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	151	11	types	type	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	151	12	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	151	13	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	151	14	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	151	15	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	151	16	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	151	17	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	151	18	missense	missense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	151	19	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	151	20	nonsense	nonsense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	151	21	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	151	22	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	151	23	sufficient	sufficient	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	151	24	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	151	25	lead	lead	VB
work_2hfvnli6qndh3p3kqrzilygb4m	151	26	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	151	27	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	151	28	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	151	29	those	those	DT
work_2hfvnli6qndh3p3kqrzilygb4m	151	30	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	151	31	weak	weak	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	151	32	alleles	allele	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	151	33	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	151	34	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	151	35	additional	additional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	151	36	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	151	37	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	151	38	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	151	39	required	require	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	151	40	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	151	41	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	151	42	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	151	43	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	152	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	152	2	suspect	suspect	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	152	3	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	152	4	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	152	5	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	152	6	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	152	7	fam-	fam-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	152	8	ilies	ilie	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	152	9	without	without	IN
work_2hfvnli6qndh3p3kqrzilygb4m	152	10	recognized	recognize	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	152	11	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	152	12	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	152	13	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	152	14	9–11	9–11	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	152	15	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	152	16	either	either	RB
work_2hfvnli6qndh3p3kqrzilygb4m	152	17	harbor	harbor	VB
work_2hfvnli6qndh3p3kqrzilygb4m	152	18	common	common	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	152	19	polymorphic	polymorphic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	152	20	variants	variant	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	152	21	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	152	22	excluded	exclude	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	152	23	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	152	24	being	be	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	152	25	considered	consider	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	152	26	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	152	27	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	152	28	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	152	29	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	152	30	noncoding	noncode	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	152	31	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	152	32	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	152	33	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	152	34	make	make	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	152	35	partial	partial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	152	36	contributions	contribution	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	152	37	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	152	38	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	152	39	risk	risk	NN
work_2hfvnli6qndh3p3kqrzilygb4m	152	40	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	153	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	153	2	demonstration	demonstration	NN
work_2hfvnli6qndh3p3kqrzilygb4m	153	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	153	4	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	153	5	segrega-	segrega-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	153	6	tion	tion	NN
work_2hfvnli6qndh3p3kqrzilygb4m	153	7	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	153	8	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	153	9	latter	latter	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	153	10	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	153	11	suggest	suggest	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	153	12	both	both	DT
work_2hfvnli6qndh3p3kqrzilygb4m	153	13	multigenic	multigenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	153	14	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	153	15	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	153	16	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	153	17	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	153	18	results	result	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	153	19	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	153	20	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	153	21	cumulative	cumulative	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	153	22	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	153	23	effects	effect	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	153	24	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	153	25	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	153	26	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	153	27	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	153	28	yet	yet	RB
work_2hfvnli6qndh3p3kqrzilygb4m	153	29	unknown	unknown	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	153	30	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	153	31	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	153	32	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	153	33	some	some	DT
work_2hfvnli6qndh3p3kqrzilygb4m	153	34	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	153	35	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	154	1	Discussion	Discussion	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	154	2	Segregation	Segregation	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	154	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	154	4	Hirschsprung	Hirschsprung	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	154	5	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	154	6	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	154	7	decidedly	decidedly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	154	8	non	non	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	154	9	-	-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	154	10	Mendelian	mendelian	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	154	11	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	154	12	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	154	13	most	most	JJS
work_2hfvnli6qndh3p3kqrzilygb4m	154	14	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	154	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	154	16	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	154	17	phenotype	phenotype	NN
work_2hfvnli6qndh3p3kqrzilygb4m	154	18	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	154	19	variable	variable	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	154	20	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	154	21	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	154	22	mutant	mutant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	154	23	genotype	genotype	NN
work_2hfvnli6qndh3p3kqrzilygb4m	154	24	Fig	Fig	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	154	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	155	1	2	2	LS
work_2hfvnli6qndh3p3kqrzilygb4m	155	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	156	1	Linkage	linkage	VB
work_2hfvnli6qndh3p3kqrzilygb4m	156	2	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	156	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	156	4	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	156	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	157	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	157	2	a	a	LS
work_2hfvnli6qndh3p3kqrzilygb4m	157	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	157	4	Chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	157	5	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	157	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	158	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	158	2	b	b	LS
work_2hfvnli6qndh3p3kqrzilygb4m	158	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	158	4	Chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	158	5	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	158	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	159	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	159	2	x	x	NN
work_2hfvnli6qndh3p3kqrzilygb4m	159	3	axis	axi	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	159	4	indicates	indicate	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	159	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	159	6	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	159	7	map	map	NN
work_2hfvnli6qndh3p3kqrzilygb4m	159	8	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	159	9	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	159	10	indicated	indicate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	159	11	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	159	12	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	159	13	intermarker	intermarker	NN
work_2hfvnli6qndh3p3kqrzilygb4m	159	14	distances	distance	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	159	15	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	159	16	centimorgans	centimorgans	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	159	17	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	159	18	cM	cM	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	159	19	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	159	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	159	21	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	159	22	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	159	23	y	y	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	159	24	axis	axis	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	159	25	indicates	indicate	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	159	26	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	159	27	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	159	28	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	159	29	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	160	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	160	2	Solid	solid	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	160	3	line	line	NN
work_2hfvnli6qndh3p3kqrzilygb4m	160	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	160	5	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	160	6	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	160	7	;	;	,
work_2hfvnli6qndh3p3kqrzilygb4m	160	8	dashed	dash	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	160	9	line	line	NN
work_2hfvnli6qndh3p3kqrzilygb4m	160	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	160	11	parametric	parametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	160	12	lod	lod	NN
work_2hfvnli6qndh3p3kqrzilygb4m	160	13	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	160	14	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	161	1	Although	although	IN
work_2hfvnli6qndh3p3kqrzilygb4m	161	2	depicted	depict	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	161	3	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	161	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	161	5	same	same	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	161	6	graph	graph	NN
work_2hfvnli6qndh3p3kqrzilygb4m	161	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	161	8	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	161	9	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	161	10	lod	lod	NN
work_2hfvnli6qndh3p3kqrzilygb4m	161	11	scores	score	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	161	12	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	161	13	distinct	distinct	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	161	14	properties	property	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	161	15	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	161	16	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	161	17	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	161	18	synonymous	synonymous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	161	19	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	161	20	thus	thus	RB
work_2hfvnli6qndh3p3kqrzilygb4m	161	21	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	161	22	they	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	161	23	should	should	MD
work_2hfvnli6qndh3p3kqrzilygb4m	161	24	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	161	25	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	161	26	numerically	numerically	RB
work_2hfvnli6qndh3p3kqrzilygb4m	161	27	compared	compare	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	161	28	against	against	IN
work_2hfvnli6qndh3p3kqrzilygb4m	161	29	each	each	DT
work_2hfvnli6qndh3p3kqrzilygb4m	161	30	other	other	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	161	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	161	32	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	162	1	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	162	2	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	162	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	163	1	Segregation	Segregation	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	2	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	163	3	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	4	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	163	5	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	163	6	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	7	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	8	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	163	10	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	163	12	Family	Family	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	13	Posterior	Posterior	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	14	probability	probability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	15	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	163	16	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	17	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	18	*	*	NFP
work_2hfvnli6qndh3p3kqrzilygb4m	163	19	RET†	RET†	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	20	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	21	haplotype	haplotype	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	22	shared‡Mutation	shared‡mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	23	Type	Type	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	24	Evolutionary	Evolutionary	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	25	conservation	conservation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	26	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	27	1.00	1.00	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	28	N394	N394	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	29	K	K	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	30	n	n	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	31	m	m	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	163	33	c	c	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	163	35	z	z	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	36	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	163	37	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	38	0.99	0.99	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	39	R360W	r360w	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	40	nc	nc	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	41	m	m	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	42	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	163	43	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	44	0.99	0.99	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	45	R77C	r77c	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	46	nc	nc	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	47	m	m	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	48	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	163	49	c	c	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	50	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	163	51	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	52	1.00	1.00	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	53	S32L1	s32l1	FW
work_2hfvnli6qndh3p3kqrzilygb4m	163	54	nc	nc	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	55	m	m	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	56	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	163	57	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	58	0.99	0.99	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	59	W942X1	w942x1	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	60	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	163	61	m	m	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	62	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	163	63	c	c	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	64	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	163	65	z	z	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	66	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	163	67	d	d	LS
work_2hfvnli6qndh3p3kqrzilygb4m	163	68	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	163	69	6	6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	70	0.99	0.99	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	71	E921X1	e921x1	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	72	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	163	73	m	m	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	74	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	163	75	c	c	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	163	76	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	163	77	z	z	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	78	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	163	79	d	d	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	80	no	no	DT
work_2hfvnli6qndh3p3kqrzilygb4m	163	81	7	7	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	82	0.99	0.99	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	83	S649S	s649s	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	84	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	163	85	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	163	86	yes	yes	UH
work_2hfvnli6qndh3p3kqrzilygb4m	163	87	8	8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	88	0.98	0.98	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	89	IVS17	ivs17	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	90	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	91	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	163	92	G	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	163	93	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	164	1	A	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	164	2	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	3	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	4	yes	yes	UH
work_2hfvnli6qndh3p3kqrzilygb4m	164	5	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	164	6	0.97	0.97	CD
work_2hfvnli6qndh3p3kqrzilygb4m	164	7	ND	ND	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	164	8	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	9	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	10	yes	yes	UH
work_2hfvnli6qndh3p3kqrzilygb4m	164	11	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	164	12	1.00	1.00	CD
work_2hfvnli6qndh3p3kqrzilygb4m	164	13	ND	ND	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	164	14	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	15	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	16	yes	yes	UH
work_2hfvnli6qndh3p3kqrzilygb4m	164	17	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	164	18	0.99	0.99	CD
work_2hfvnli6qndh3p3kqrzilygb4m	164	19	ND	ND	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	164	20	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	21	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	22	yes	yes	UH
work_2hfvnli6qndh3p3kqrzilygb4m	164	23	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	164	24	0.005	0.005	CD
work_2hfvnli6qndh3p3kqrzilygb4m	164	25	ND	ND	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	164	26	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	27	—	—	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	28	yes	yes	UH
work_2hfvnli6qndh3p3kqrzilygb4m	164	29	*	*	NFP
work_2hfvnli6qndh3p3kqrzilygb4m	164	30	Posterior	posterior	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	164	31	probability	probability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	164	32	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	164	33	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	164	34	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	164	35	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	164	36	see	see	VB
work_2hfvnli6qndh3p3kqrzilygb4m	164	37	Materials	material	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	164	38	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	164	39	Methods	Methods	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	164	40	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	164	41	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	42	haplotype	haplotype	NN
work_2hfvnli6qndh3p3kqrzilygb4m	164	43	sharing	sharing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	164	44	among	among	IN
work_2hfvnli6qndh3p3kqrzilygb4m	164	45	all	all	DT
work_2hfvnli6qndh3p3kqrzilygb4m	164	46	affecteds	affected	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	164	47	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	164	48	each	each	DT
work_2hfvnli6qndh3p3kqrzilygb4m	164	49	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	164	50	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	164	51	based	base	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	164	52	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	164	53	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	164	54	D10S141-RETint5-D10S1099	D10S141-RETint5-D10S1099	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	164	55	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	164	56	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	164	57	consistent	consistent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	164	58	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	164	59	posterior	posterior	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	164	60	probability	probability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	164	61	estimates	estimate	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	164	62	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	164	63	shared	share	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	164	64	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	164	65	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	164	66	1–11	1–11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	164	67	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	164	68	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	164	69	shared	share	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	164	70	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	164	71	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	164	72	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	164	73	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	164	74	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	165	1	†RET	†ret	CD
work_2hfvnli6qndh3p3kqrzilygb4m	165	2	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	165	3	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	165	4	exons	exon	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	165	5	[	[	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	165	6	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	165	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	8	reported	report	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	165	9	previously	previously	RB
work_2hfvnli6qndh3p3kqrzilygb4m	165	10	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	165	11	7	7	CD
work_2hfvnli6qndh3p3kqrzilygb4m	165	12	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	165	13	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	165	14	ND	ND	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	165	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	16	none	none	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	17	detected	detect	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	165	18	]	]	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	165	19	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	165	20	listed	list	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	165	21	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	165	22	mutational	mutational	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	165	23	change	change	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	25	residue	residue	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	165	26	change	change	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	27	classified	classify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	165	28	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	165	29	nonconservative	nonconservative	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	165	30	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	165	31	nc	nc	FW
work_2hfvnli6qndh3p3kqrzilygb4m	165	32	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	165	33	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	165	34	neutral	neutral	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	165	35	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	165	36	n	n	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	165	37	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	165	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	39	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	165	40	evolutionary	evolutionary	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	165	41	conservation	conservation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	42	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	165	43	human	human	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	165	44	residue	residue	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	45	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	165	46	m	m	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	47	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	48	c	c	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	165	49	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	50	z	z	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	51	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	52	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	165	53	d	d	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	54	denoting	denote	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	165	55	conservation	conservation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	56	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	165	57	mouse	mouse	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	58	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	59	chicken	chicken	NN
work_2hfvnli6qndh3p3kqrzilygb4m	165	60	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	61	zebrafish	zebrafish	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	165	62	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	63	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	165	64	Drosophila	Drosophila	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	165	65	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	165	66	respectively	respectively	RB
work_2hfvnli6qndh3p3kqrzilygb4m	165	67	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	165	68	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	166	1	‡Haplotype	‡haplotype	NN
work_2hfvnli6qndh3p3kqrzilygb4m	166	2	sharing	sharing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	166	3	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	166	4	each	each	DT
work_2hfvnli6qndh3p3kqrzilygb4m	166	5	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	166	6	based	base	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	166	7	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	166	8	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	166	9	D9S176-D9S1832-D9S1677-D9S1828	D9S176-D9S1832-D9S1677-D9S1828	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	166	10	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	167	1	Bolk	Bolk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	167	2	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	167	3	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	167	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	168	1	PNAS	PNAS	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	168	2	u	u	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	168	3	January	January	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	168	4	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	168	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	168	6	2000	2000	CD
work_2hfvnli6qndh3p3kqrzilygb4m	168	7	u	u	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	168	8	vol	vol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	168	9	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	169	1	97	97	CD
work_2hfvnli6qndh3p3kqrzilygb4m	169	2	u	u	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	169	3	no	no	UH
work_2hfvnli6qndh3p3kqrzilygb4m	169	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	170	1	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	170	2	u	u	CD
work_2hfvnli6qndh3p3kqrzilygb4m	170	3	271	271	CD
work_2hfvnli6qndh3p3kqrzilygb4m	170	4	G	G	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	5	EN	EN	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	6	ET	ET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	7	IC	ic	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	8	S	s	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	9	D	d	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	10	o	o	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	11	w	w	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	12	n	n	XX
work_2hfvnli6qndh3p3kqrzilygb4m	170	13	lo	lo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	14	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	170	15	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	16	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	17	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	18	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	170	19	t	t	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	20	C	c	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	21	a	a	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	22	rn	rn	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	23	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	24	g	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	25	ie	ie	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	26	M	M	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	27	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	28	llo	llo	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	29	n	n	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	30	U	u	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	31	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	170	32	iv	iv	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	33	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	34	rs	rs	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	35	ity	ity	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	36	o	o	XX
work_2hfvnli6qndh3p3kqrzilygb4m	170	37	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	170	38	A	A	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	170	39	p	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	40	ri	ri	FW
work_2hfvnli6qndh3p3kqrzilygb4m	170	41	l	l	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	42	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	170	43	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	170	44	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	170	45	0	0	CD
work_2hfvnli6qndh3p3kqrzilygb4m	170	46	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	170	47	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	170	48	displays	display	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	170	49	reduced	reduce	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	170	50	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	170	51	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	170	52	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	170	53	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	170	54	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	171	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	171	2	central	central	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	171	3	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	171	4	question	question	NN
work_2hfvnli6qndh3p3kqrzilygb4m	171	5	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	171	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	171	7	therefore	therefore	RB
work_2hfvnli6qndh3p3kqrzilygb4m	171	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	171	9	whether	whether	IN
work_2hfvnli6qndh3p3kqrzilygb4m	171	10	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	171	11	reduced	reduce	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	171	12	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	171	13	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	171	14	random	random	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	171	15	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	171	16	depen-	depen-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	171	17	dent	dent	NN
work_2hfvnli6qndh3p3kqrzilygb4m	171	18	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	171	19	environmental	environmental	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	171	20	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	171	21	stochastic	stochastic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	171	22	developmental	developmental	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	171	23	factors	factor	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	171	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	171	25	non-	non-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	171	26	random	random	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	171	27	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	171	28	dependent	dependent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	171	29	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	171	30	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	171	31	individual	individual	NN
work_2hfvnli6qndh3p3kqrzilygb4m	171	32	’s	’s	POS
work_2hfvnli6qndh3p3kqrzilygb4m	171	33	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	171	34	background	background	NN
work_2hfvnli6qndh3p3kqrzilygb4m	171	35	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	171	36	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	171	37	both	both	DT
work_2hfvnli6qndh3p3kqrzilygb4m	171	38	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	172	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	172	2	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	172	3	presented	present	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	172	4	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	172	5	evidence	evidence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	172	6	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	172	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	172	8	latter	latter	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	172	9	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	172	10	true	true	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	172	11	because	because	IN
work_2hfvnli6qndh3p3kqrzilygb4m	172	12	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	172	13	shows	show	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	172	14	multigenic	multigenic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	172	15	inheritance	inheritance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	172	16	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	172	17	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	172	18	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	172	19	mediated	mediate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	172	20	susceptibility	susceptibility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	172	21	being	be	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	172	22	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	172	23	major	major	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	172	24	theme	theme	NN
work_2hfvnli6qndh3p3kqrzilygb4m	172	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	173	1	Moreover	moreover	RB
work_2hfvnli6qndh3p3kqrzilygb4m	173	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	173	3	additional	additional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	173	4	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	173	5	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	173	6	large	large	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	173	7	effect	effect	NN
work_2hfvnli6qndh3p3kqrzilygb4m	173	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	173	9	such	such	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	173	10	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	173	11	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	173	12	one	one	NN
work_2hfvnli6qndh3p3kqrzilygb4m	173	13	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	173	14	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	173	15	mapped	map	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	173	16	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	173	17	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	173	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	173	19	must	must	MD
work_2hfvnli6qndh3p3kqrzilygb4m	173	20	also	also	RB
work_2hfvnli6qndh3p3kqrzilygb4m	173	21	exist	exist	VB
work_2hfvnli6qndh3p3kqrzilygb4m	173	22	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	174	1	Significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	174	2	evidence	evidence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	174	3	argues	argue	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	174	4	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	174	5	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	174	6	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	174	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	174	8	major	major	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	174	9	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	174	10	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	174	11	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	174	12	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	174	13	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	174	14	involved	involve	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	174	15	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	174	16	'	'	CD
work_2hfvnli6qndh3p3kqrzilygb4m	174	17	80	80	CD
work_2hfvnli6qndh3p3kqrzilygb4m	174	18	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	174	19	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	174	20	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	174	21	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	174	22	6	6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	174	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	174	24	19–21	19–21	CD
work_2hfvnli6qndh3p3kqrzilygb4m	174	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	174	26	33	33	CD
work_2hfvnli6qndh3p3kqrzilygb4m	174	27	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	174	28	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	175	1	Nevertheless	nevertheless	RB
work_2hfvnli6qndh3p3kqrzilygb4m	175	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	175	3	investigators	investigator	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	175	4	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	175	5	failed	fail	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	175	6	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	175	7	find	find	VB
work_2hfvnli6qndh3p3kqrzilygb4m	175	8	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	175	9	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	175	10	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	175	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	175	12	.50	.50	CD
work_2hfvnli6qndh3p3kqrzilygb4m	175	13	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	175	14	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	175	15	familial	familial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	175	16	cases	case	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	175	17	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	175	18	6–8	6–8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	175	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	175	20	21	21	CD
work_2hfvnli6qndh3p3kqrzilygb4m	175	21	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	175	22	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	176	1	This	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	176	2	inability	inability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	3	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	176	4	detect	detect	VB
work_2hfvnli6qndh3p3kqrzilygb4m	176	5	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	176	6	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	176	7	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	8	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	176	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	176	10	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	176	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	176	12	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	176	13	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	176	14	attributable	attributable	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	176	15	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	176	16	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	17	detection	detection	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	18	technology	technology	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	19	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	176	20	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	176	21	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	176	22	persistent	persistent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	176	23	finding	finding	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	24	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	176	25	requires	require	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	176	26	alternative	alternative	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	176	27	explanations	explanation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	176	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	176	29	such	such	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	176	30	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	176	31	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	176	32	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	176	33	i	i	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	34	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	176	35	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	36	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	37	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	176	38	spurious	spurious	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	176	39	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	176	40	small	small	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	176	41	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	176	42	;	;	,
work_2hfvnli6qndh3p3kqrzilygb4m	176	43	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	176	44	ii	ii	LS
work_2hfvnli6qndh3p3kqrzilygb4m	176	45	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	176	46	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	176	47	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	48	closely	closely	RB
work_2hfvnli6qndh3p3kqrzilygb4m	176	49	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	176	50	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	176	51	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	176	52	harbors	harbor	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	176	53	susceptibility	susceptibility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	54	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	176	55	;	;	,
work_2hfvnli6qndh3p3kqrzilygb4m	176	56	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	176	57	iii	iii	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	58	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	176	59	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	176	60	other	other	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	176	61	than	than	IN
work_2hfvnli6qndh3p3kqrzilygb4m	176	62	those	those	DT
work_2hfvnli6qndh3p3kqrzilygb4m	176	63	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	176	64	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	176	65	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	176	66	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	176	67	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	68	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	176	69	including	include	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	176	70	introns	intron	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	176	71	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	176	72	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	176	73	promoter	promoter	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	74	regions	region	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	176	75	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	176	76	compromise	compromise	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	77	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	78	function	function	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	79	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	176	80	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	176	81	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	176	82	iv	iv	LS
work_2hfvnli6qndh3p3kqrzilygb4m	176	83	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	176	84	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	176	85	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	176	86	under	under	IN
work_2hfvnli6qndh3p3kqrzilygb4m	176	87	epigenetic	epigenetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	176	88	regulation	regulation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	89	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	176	90	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	176	91	affect	affect	VB
work_2hfvnli6qndh3p3kqrzilygb4m	176	92	its	-PRON-	PRP$
work_2hfvnli6qndh3p3kqrzilygb4m	176	93	normal	normal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	176	94	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	95	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	176	96	function	function	NN
work_2hfvnli6qndh3p3kqrzilygb4m	176	97	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	177	1	Scenario	scenario	NN
work_2hfvnli6qndh3p3kqrzilygb4m	177	2	i	i	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	177	3	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	177	4	undoubtedly	undoubtedly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	177	5	true	true	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	177	6	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	177	7	some	some	DT
work_2hfvnli6qndh3p3kqrzilygb4m	177	8	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	177	9	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	177	10	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	177	11	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	177	12	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	177	13	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	177	14	major	major	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	177	15	explanation	explanation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	177	16	because	because	IN
work_2hfvnli6qndh3p3kqrzilygb4m	177	17	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	177	18	sum	sum	NN
work_2hfvnli6qndh3p3kqrzilygb4m	177	19	total	total	NN
work_2hfvnli6qndh3p3kqrzilygb4m	177	20	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	177	21	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	177	22	without	without	IN
work_2hfvnli6qndh3p3kqrzilygb4m	177	23	iden-	iden-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	177	24	tified	tifie	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	177	25	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	177	26	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	177	27	still	still	RB
work_2hfvnli6qndh3p3kqrzilygb4m	177	28	demonstrates	demonstrate	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	177	29	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	177	30	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	177	31	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	177	32	10q11	10q11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	177	33	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	177	34	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	177	35	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	177	36	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	177	37	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	178	1	Indeed	indeed	RB
work_2hfvnli6qndh3p3kqrzilygb4m	178	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	178	3	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	178	4	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	178	5	reported	report	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	178	6	here	here	RB
work_2hfvnli6qndh3p3kqrzilygb4m	178	7	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	178	8	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	178	9	first	first	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	178	10	description	description	NN
work_2hfvnli6qndh3p3kqrzilygb4m	178	11	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	178	12	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	178	13	multiplex	multiplex	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	178	14	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	178	15	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	178	16	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	178	17	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	178	18	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	178	19	mediated	mediate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	178	20	suscepti-	suscepti-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	178	21	bility	bility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	178	22	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	178	23	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	178	24	definitively	definitively	RB
work_2hfvnli6qndh3p3kqrzilygb4m	178	25	excluded	exclude	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	178	26	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	179	1	Scenario	Scenario	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	179	2	ii	ii	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	179	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	179	4	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	179	5	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	179	6	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	179	7	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	179	8	different	different	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	179	9	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	179	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	179	11	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	179	12	tightly	tightly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	179	13	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	179	14	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	179	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	179	16	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	179	17	contributes	contribute	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	179	18	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	179	19	suscepti-	suscepti-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	179	20	bility	bility	NN
work_2hfvnli6qndh3p3kqrzilygb4m	179	21	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	179	22	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	179	23	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	179	24	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	179	25	currently	currently	RB
work_2hfvnli6qndh3p3kqrzilygb4m	179	26	ruled	rule	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	179	27	out	out	RP
work_2hfvnli6qndh3p3kqrzilygb4m	179	28	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	180	1	However	however	RB
work_2hfvnli6qndh3p3kqrzilygb4m	180	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	180	3	our	-PRON-	PRP$
work_2hfvnli6qndh3p3kqrzilygb4m	180	4	preliminary	preliminary	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	180	5	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	180	6	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	180	7	'	'	CD
work_2hfvnli6qndh3p3kqrzilygb4m	180	8	500	500	CD
work_2hfvnli6qndh3p3kqrzilygb4m	180	9	kilobases	kilobase	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	180	10	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	180	11	nucleotide	nucleotide	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	180	12	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	180	13	proximal	proximal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	180	14	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	180	15	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	180	16	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	180	17	GenBank	GenBank	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	180	18	accession	accession	NN
work_2hfvnli6qndh3p3kqrzilygb4m	180	19	no	no	UH
work_2hfvnli6qndh3p3kqrzilygb4m	180	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	181	1	AL022344	AL022344	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	181	2	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	181	3	has	have	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	181	4	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	181	5	identified	identify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	181	6	any	any	DT
work_2hfvnli6qndh3p3kqrzilygb4m	181	7	specific	specific	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	181	8	transcripts	transcript	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	181	9	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	181	10	might	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	181	11	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	181	12	implicated	implicate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	181	13	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	182	1	Rigorous	rigorous	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	182	2	identification	identification	NN
work_2hfvnli6qndh3p3kqrzilygb4m	182	3	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	182	4	testing	testing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	182	5	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	182	6	all	all	DT
work_2hfvnli6qndh3p3kqrzilygb4m	182	7	genes	gene	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	182	8	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	182	9	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	182	10	region	region	NN
work_2hfvnli6qndh3p3kqrzilygb4m	182	11	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	182	12	required	require	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	182	13	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	182	14	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	182	15	currently	currently	RB
work_2hfvnli6qndh3p3kqrzilygb4m	182	16	underway	underway	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	182	17	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	183	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	183	2	conclude	conclude	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	183	3	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	183	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	183	5	related	related	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	183	6	scenarios	scenario	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	183	7	iii	iii	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	183	8	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	183	9	iv	iv	NN
work_2hfvnli6qndh3p3kqrzilygb4m	183	10	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	183	11	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	183	12	most	most	RBS
work_2hfvnli6qndh3p3kqrzilygb4m	183	13	likely	likely	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	183	14	explanations	explanation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	183	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	183	16	both	both	DT
work_2hfvnli6qndh3p3kqrzilygb4m	183	17	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	183	18	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	183	19	suggest	suggest	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	183	20	misregulation	misregulation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	183	21	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	183	22	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	183	23	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	183	24	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	183	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	184	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	184	2	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	184	3	study	study	NN
work_2hfvnli6qndh3p3kqrzilygb4m	184	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	184	5	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	184	6	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	184	7	demonstrated	demonstrate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	184	8	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	184	9	diverse	diverse	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	184	10	nature	nature	NN
work_2hfvnli6qndh3p3kqrzilygb4m	184	11	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	184	12	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	184	13	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	184	14	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	184	15	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	184	16	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	184	17	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	184	18	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	184	19	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	184	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	185	1	Although	although	IN
work_2hfvnli6qndh3p3kqrzilygb4m	185	2	functional	functional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	185	3	tests	test	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	185	4	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	185	5	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	185	6	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	185	7	performed	perform	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	185	8	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	185	9	each	each	DT
work_2hfvnli6qndh3p3kqrzilygb4m	185	10	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	185	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	185	12	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	185	13	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	185	14	data	datum	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	185	15	strongly	strongly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	185	16	argue	argue	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	185	17	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	185	18	loss	loss	NN
work_2hfvnli6qndh3p3kqrzilygb4m	185	19	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	185	20	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	185	21	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	185	22	function	function	NN
work_2hfvnli6qndh3p3kqrzilygb4m	185	23	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	185	24	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	185	25	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	185	26	I	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	185	27	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	185	28	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	186	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	186	2	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	186	3	nonsense	nonsense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	186	4	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	186	5	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	186	6	observed	observe	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	186	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	186	8	E921X	E921X	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	186	9	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	186	10	W942X	W942X	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	186	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	186	12	occur	occur	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	186	13	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	186	14	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	186	15	tyrosine	tyrosine	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	186	16	kinase	kinase	NN
work_2hfvnli6qndh3p3kqrzilygb4m	186	17	domain	domain	NN
work_2hfvnli6qndh3p3kqrzilygb4m	186	18	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	186	19	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	186	20	expected	expect	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	186	21	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	186	22	abolish	abolish	VB
work_2hfvnli6qndh3p3kqrzilygb4m	186	23	kinase	kinase	NN
work_2hfvnli6qndh3p3kqrzilygb4m	186	24	activity	activity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	186	25	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	186	26	suggested	suggest	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	186	27	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	186	28	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	186	29	vitro	vitro	FW
work_2hfvnli6qndh3p3kqrzilygb4m	186	30	functional	functional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	186	31	studies	study	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	186	32	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	186	33	similar	similar	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	186	34	mutants	mutant	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	186	35	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	186	36	34	34	CD
work_2hfvnli6qndh3p3kqrzilygb4m	186	37	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	186	38	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	187	1	Additional	additional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	187	2	studies	study	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	187	3	imply	imply	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	187	4	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	187	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	187	6	four	four	CD
work_2hfvnli6qndh3p3kqrzilygb4m	187	7	missense	missense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	187	8	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	187	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	187	10	S32L	S32L	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	187	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	187	12	R77C	R77C	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	187	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	187	14	R360W	r360w	CD
work_2hfvnli6qndh3p3kqrzilygb4m	187	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	187	16	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	187	17	N394	N394	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	187	18	K	K	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	187	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	187	20	occur	occur	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	187	21	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	187	22	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	187	23	extracellular	extracellular	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	187	24	domain	domain	NN
work_2hfvnli6qndh3p3kqrzilygb4m	187	25	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	187	26	Fig	Fig	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	187	27	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	188	1	4	4	LS
work_2hfvnli6qndh3p3kqrzilygb4m	188	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	189	1	Nonparametric	nonparametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	189	2	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	189	3	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	189	4	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	189	5	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	189	6	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	189	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	189	8	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	189	9	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	189	10	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	189	11	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	189	12	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	189	13	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	189	14	subdividing	subdivide	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	189	15	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	189	16	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	189	17	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	189	18	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	189	19	status	status	NN
work_2hfvnli6qndh3p3kqrzilygb4m	189	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	190	1	Dashed	dash	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	190	2	line	line	NN
work_2hfvnli6qndh3p3kqrzilygb4m	190	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	190	4	those	those	DT
work_2hfvnli6qndh3p3kqrzilygb4m	190	5	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	190	6	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	190	7	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	190	8	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	190	9	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	190	10	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	190	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	190	12	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	190	13	–	–	SYM
work_2hfvnli6qndh3p3kqrzilygb4m	190	14	6	6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	190	15	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	190	16	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	190	17	solid	solid	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	190	18	line	line	NN
work_2hfvnli6qndh3p3kqrzilygb4m	190	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	190	20	those	those	DT
work_2hfvnli6qndh3p3kqrzilygb4m	190	21	without	without	IN
work_2hfvnli6qndh3p3kqrzilygb4m	190	22	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	190	23	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	190	24	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	190	25	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	190	26	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	190	27	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	190	28	7–12	7–12	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	190	29	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	190	30	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	191	1	Fig	fig	NN
work_2hfvnli6qndh3p3kqrzilygb4m	191	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	192	1	3	3	LS
work_2hfvnli6qndh3p3kqrzilygb4m	192	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	193	1	Functional	functional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	193	2	consequences	consequence	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	193	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	193	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	193	5	S649S	s649s	NN
work_2hfvnli6qndh3p3kqrzilygb4m	193	6	variant	variant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	193	7	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	193	8	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	193	9	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	193	10	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	194	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	194	2	a	a	LS
work_2hfvnli6qndh3p3kqrzilygb4m	194	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	194	4	Normal	normal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	194	5	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	194	6	mutant	mutant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	194	7	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	194	8	events	event	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	194	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	194	10	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	194	11	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	194	12	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	194	13	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	194	14	its	-PRON-	PRP$
work_2hfvnli6qndh3p3kqrzilygb4m	194	15	resulting	result	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	194	16	translation	translation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	194	17	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	195	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	195	2	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	195	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	195	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	195	5	G	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	195	6	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	195	7	A	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	195	8	transition	transition	NN
work_2hfvnli6qndh3p3kqrzilygb4m	195	9	observed	observe	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	195	10	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	195	11	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	195	12	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	195	13	7	7	CD
work_2hfvnli6qndh3p3kqrzilygb4m	195	14	does	do	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	195	15	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	195	16	alter	alter	VB
work_2hfvnli6qndh3p3kqrzilygb4m	195	17	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	195	18	Serine649	Serine649	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	195	19	residue	residue	NN
work_2hfvnli6qndh3p3kqrzilygb4m	195	20	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	195	21	does	do	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	195	22	create	create	VB
work_2hfvnli6qndh3p3kqrzilygb4m	195	23	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	195	24	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	195	25	closely	closely	RB
work_2hfvnli6qndh3p3kqrzilygb4m	195	26	resembling	resemble	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	195	27	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	195	28	consen-	consen-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	195	29	sus	sus	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	195	30	splice	splice	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	195	31	acceptor	acceptor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	195	32	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	195	33	[	[	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	195	34	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	195	35	ct)10ncagG	ct)10ncagg	NN
work_2hfvnli6qndh3p3kqrzilygb4m	195	36	]	]	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	195	37	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	196	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	196	2	b	b	LS
work_2hfvnli6qndh3p3kqrzilygb4m	196	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	196	4	RT	RT	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	196	5	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	196	6	PCR	PCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	196	7	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	196	8	RNA	RNA	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	196	9	isolated	isolate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	196	10	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	196	11	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	196	12	lymphoblastoid	lymphoblastoid	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	196	13	cell	cell	NN
work_2hfvnli6qndh3p3kqrzilygb4m	196	14	line	line	NN
work_2hfvnli6qndh3p3kqrzilygb4m	196	15	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	197	1	One	one	CD
work_2hfvnli6qndh3p3kqrzilygb4m	197	2	band	band	NN
work_2hfvnli6qndh3p3kqrzilygb4m	197	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	197	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	197	5	expected	expect	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	197	6	size	size	NN
work_2hfvnli6qndh3p3kqrzilygb4m	197	7	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	197	8	383	383	CD
work_2hfvnli6qndh3p3kqrzilygb4m	197	9	bp	bp	NN
work_2hfvnli6qndh3p3kqrzilygb4m	197	10	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	197	11	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	197	12	normal	normal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	197	13	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	197	14	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	197	15	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	197	16	smaller	small	JJR
work_2hfvnli6qndh3p3kqrzilygb4m	197	17	band	band	NN
work_2hfvnli6qndh3p3kqrzilygb4m	197	18	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	197	19	314	314	CD
work_2hfvnli6qndh3p3kqrzilygb4m	197	20	bp	bp	NN
work_2hfvnli6qndh3p3kqrzilygb4m	197	21	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	197	22	resulting	result	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	197	23	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	197	24	aberrant	aberrant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	197	25	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	197	26	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	197	27	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	197	28	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	197	29	amplified	amplify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	197	30	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	197	31	affected	affect	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	197	32	carriers	carrier	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	197	33	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	197	34	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	197	35	Serine	Serine	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	197	36	variant	variant	NN
work_2hfvnli6qndh3p3kqrzilygb4m	197	37	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	197	38	lanes	lane	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	197	39	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	197	40	–	–	SYM
work_2hfvnli6qndh3p3kqrzilygb4m	197	41	6	6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	197	42	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	197	43	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	198	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	198	2	unaf-	unaf-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	198	3	fected	fecte	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	198	4	grandmother	grandmother	NN
work_2hfvnli6qndh3p3kqrzilygb4m	198	5	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	198	6	lane	lane	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	198	7	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	198	8	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	198	9	who	who	WP
work_2hfvnli6qndh3p3kqrzilygb4m	198	10	does	do	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	198	11	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	198	12	carry	carry	VB
work_2hfvnli6qndh3p3kqrzilygb4m	198	13	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	198	14	S649S	s649s	CD
work_2hfvnli6qndh3p3kqrzilygb4m	198	15	variant	variant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	198	16	has	have	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	198	17	only	only	RB
work_2hfvnli6qndh3p3kqrzilygb4m	198	18	one	one	CD
work_2hfvnli6qndh3p3kqrzilygb4m	198	19	RT	RT	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	198	20	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	198	21	PCR	PCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	198	22	product	product	NN
work_2hfvnli6qndh3p3kqrzilygb4m	198	23	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	198	24	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	198	25	expected	expect	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	198	26	size	size	NN
work_2hfvnli6qndh3p3kqrzilygb4m	198	27	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	198	28	383	383	CD
work_2hfvnli6qndh3p3kqrzilygb4m	198	29	bp	bp	NN
work_2hfvnli6qndh3p3kqrzilygb4m	198	30	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	198	31	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	198	32	normal	normal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	198	33	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	198	34	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	199	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	199	2	c	c	NN
work_2hfvnli6qndh3p3kqrzilygb4m	199	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	199	4	BanI	BanI	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	199	5	restriction	restriction	NN
work_2hfvnli6qndh3p3kqrzilygb4m	199	6	digest	digest	NN
work_2hfvnli6qndh3p3kqrzilygb4m	199	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	199	8	RT	RT	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	199	9	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	199	10	PCR	PCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	199	11	products	product	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	199	12	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	200	1	An	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	200	2	expressed	express	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	200	3	polymorphism	polymorphism	NN
work_2hfvnli6qndh3p3kqrzilygb4m	200	4	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	200	5	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	200	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	200	7	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	200	8	alters	alter	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	200	9	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	200	10	BanI	BanI	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	200	11	restriction	restriction	NN
work_2hfvnli6qndh3p3kqrzilygb4m	200	12	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	200	13	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	200	14	exon	exon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	200	15	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	200	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	200	17	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	200	18	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	200	19	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	200	20	analyze	analyze	VB
work_2hfvnli6qndh3p3kqrzilygb4m	200	21	RT	RT	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	200	22	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	200	23	PCR	PCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	200	24	products	product	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	200	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	201	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	201	2	wild	wild	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	201	3	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	201	4	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	201	5	band	band	NN
work_2hfvnli6qndh3p3kqrzilygb4m	201	6	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	201	7	lane	lane	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	201	8	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	201	9	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	201	10	labeled	label	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	201	11	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	201	12	31	31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	201	13	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	201	14	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	201	15	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	201	16	mutant	mutant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	201	17	band	band	NN
work_2hfvnli6qndh3p3kqrzilygb4m	201	18	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	201	19	lane	lane	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	201	20	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	201	21	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	201	22	32	32	CD
work_2hfvnli6qndh3p3kqrzilygb4m	201	23	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	201	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	201	25	as	as	RB
work_2hfvnli6qndh3p3kqrzilygb4m	201	26	well	well	RB
work_2hfvnli6qndh3p3kqrzilygb4m	201	27	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	201	28	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	201	29	band	band	NN
work_2hfvnli6qndh3p3kqrzilygb4m	201	30	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	201	31	lane	lane	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	201	32	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	201	33	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	201	34	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	201	35	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	201	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	201	37	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	201	38	gel	gel	NN
work_2hfvnli6qndh3p3kqrzilygb4m	201	39	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	201	40	extracted	extract	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	201	41	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	202	1	Two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	202	2	bands	band	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	202	3	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	202	4	239	239	CD
work_2hfvnli6qndh3p3kqrzilygb4m	202	5	bp	bp	NN
work_2hfvnli6qndh3p3kqrzilygb4m	202	6	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	202	7	144	144	CD
work_2hfvnli6qndh3p3kqrzilygb4m	202	8	bp	bp	NN
work_2hfvnli6qndh3p3kqrzilygb4m	202	9	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	202	10	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	202	11	observed	observe	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	202	12	after	after	IN
work_2hfvnli6qndh3p3kqrzilygb4m	202	13	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	202	14	digestion	digestion	NN
work_2hfvnli6qndh3p3kqrzilygb4m	202	15	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	202	16	lane	lane	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	202	17	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	202	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	202	19	indicating	indicate	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	202	20	homozygosity	homozygosity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	202	21	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	202	22	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	202	23	BanI	BanI	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	202	24	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	202	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	203	1	Lane	Lane	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	203	2	31	31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	203	3	contains	contain	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	203	4	three	three	CD
work_2hfvnli6qndh3p3kqrzilygb4m	203	5	bands	band	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	203	6	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	203	7	one	one	CD
work_2hfvnli6qndh3p3kqrzilygb4m	203	8	undigested	undigested	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	203	9	band	band	NN
work_2hfvnli6qndh3p3kqrzilygb4m	203	10	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	203	11	383	383	CD
work_2hfvnli6qndh3p3kqrzilygb4m	203	12	bp	bp	NN
work_2hfvnli6qndh3p3kqrzilygb4m	203	13	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	203	14	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	203	15	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	203	16	bands	band	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	203	17	resulting	result	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	203	18	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	203	19	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	203	20	BanI	BanI	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	203	21	digest	digest	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	203	22	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	203	23	239	239	CD
work_2hfvnli6qndh3p3kqrzilygb4m	203	24	bp	bp	NN
work_2hfvnli6qndh3p3kqrzilygb4m	203	25	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	203	26	144	144	CD
work_2hfvnli6qndh3p3kqrzilygb4m	203	27	bp	bp	NN
work_2hfvnli6qndh3p3kqrzilygb4m	203	28	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	203	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	203	30	indicating	indicate	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	203	31	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	203	32	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	203	33	wild	wild	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	203	34	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	203	35	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	203	36	band	band	NN
work_2hfvnli6qndh3p3kqrzilygb4m	203	37	observed	observe	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	203	38	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	203	39	b	b	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	203	40	has	have	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	203	41	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	203	42	amplified	amplify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	203	43	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	203	44	both	both	CC
work_2hfvnli6qndh3p3kqrzilygb4m	203	45	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	203	46	wild	wild	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	203	47	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	203	48	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	203	49	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	203	50	mutant	mutant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	203	51	alleles	allele	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	203	52	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	204	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	204	2	novel	novel	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	204	3	acceptor	acceptor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	204	4	splice	splice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	204	5	site	site	NN
work_2hfvnli6qndh3p3kqrzilygb4m	204	6	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	204	7	thus	thus	RB
work_2hfvnli6qndh3p3kqrzilygb4m	204	8	only	only	RB
work_2hfvnli6qndh3p3kqrzilygb4m	204	9	partially	partially	RB
work_2hfvnli6qndh3p3kqrzilygb4m	204	10	used	use	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	204	11	when	when	WRB
work_2hfvnli6qndh3p3kqrzilygb4m	204	12	present	present	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	204	13	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	204	14	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	204	15	affected	affect	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	204	16	individual	individual	NN
work_2hfvnli6qndh3p3kqrzilygb4m	204	17	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	205	1	Table	table	NN
work_2hfvnli6qndh3p3kqrzilygb4m	205	2	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	205	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	206	1	Linkage	linkage	VB
work_2hfvnli6qndh3p3kqrzilygb4m	206	2	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	206	4	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	5	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	6	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	206	7	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	8	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	206	9	markers	marker	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	206	10	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	206	11	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	12	classification	classification	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	13	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	206	14	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	206	15	mutational	mutational	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	206	16	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	17	Family	Family	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	206	18	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	19	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	206	20	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	21	locus	locus	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	22	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	206	23	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	24	P	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	25	value	value	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	26	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	27	lod	lod	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	206	28	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	29	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	30	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	206	31	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	32	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	206	33	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	34	P	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	35	value	value	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	36	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	37	lod	lod	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	206	38	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	39	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	40	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	206	41	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	42	Missenseynonsense	missenseynonsense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	43	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	206	44	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	206	45	9.1	9.1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	46	7.7	7.7	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	47	0.4	0.4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	48	0.0	0.0	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	49	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	206	50	1–6	1–6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	51	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	52	6.2	6.2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	53	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	54	1025	1025	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	55	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	56	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	57	1.00	1.00	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	58	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	59	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	60	0.5	0.5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	61	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	62	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	63	0	0	NFP
work_2hfvnli6qndh3p3kqrzilygb4m	206	64	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	65	Splice	splice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	66	variantsyno	variantsyno	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	67	detected	detect	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	206	68	5.3	5.3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	69	3.9	3.9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	70	5.3	5.3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	71	4.8	4.8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	72	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	206	73	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	206	74	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	206	75	7–12	7–12	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	206	76	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	77	4.5	4.5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	78	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	79	1025	1025	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	80	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	81	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	82	0.86	0.86	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	83	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	84	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	85	6.8	6.8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	86	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	87	1025	1025	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	88	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	89	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	90	1.0	1.0	LS
work_2hfvnli6qndh3p3kqrzilygb4m	206	91	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	92	All	all	DT
work_2hfvnli6qndh3p3kqrzilygb4m	206	93	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	206	94	11.3	11.3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	95	10.5	10.5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	96	3.8	3.8	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	97	2.3	2.3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	98	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	99	7.7	7.7	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	100	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	101	1028	1028	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	102	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	103	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	104	0.91	0.91	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	105	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	106	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	107	0.002	0.002	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	108	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	109	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	110	0.46	0.46	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	111	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	112	Families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	206	113	were	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	206	114	classified	classify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	206	115	according	accord	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	206	116	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	206	117	presence	presence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	118	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	119	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	206	120	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	121	–	–	SYM
work_2hfvnli6qndh3p3kqrzilygb4m	206	122	6	6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	206	123	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	124	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	206	125	absence	absence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	126	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	127	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	206	128	7–12	7–12	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	206	129	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	206	130	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	206	131	missense	missense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	132	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	206	133	nonsense	nonsense	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	134	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	206	135	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	207	1	Nonparametric	nonparametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	207	2	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	207	3	provided	provide	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	207	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	207	5	NPL	NPL	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	207	6	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	207	7	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	207	8	P	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	207	9	value	value	NN
work_2hfvnli6qndh3p3kqrzilygb4m	207	10	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	207	11	parametric	parametric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	207	12	analysis	analysis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	207	13	provided	provide	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	207	14	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	207	15	heter-	heter-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	207	16	ogeneity	ogeneity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	207	17	lod	lod	VB
work_2hfvnli6qndh3p3kqrzilygb4m	207	18	score	score	NN
work_2hfvnli6qndh3p3kqrzilygb4m	207	19	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	207	20	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	207	21	estimated	estimate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	207	22	proportion	proportion	NN
work_2hfvnli6qndh3p3kqrzilygb4m	207	23	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	207	24	linked	link	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	207	25	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	207	26	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	207	27	a	a	LS
work_2hfvnli6qndh3p3kqrzilygb4m	207	28	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	207	29	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	207	30	see	see	VB
work_2hfvnli6qndh3p3kqrzilygb4m	207	31	Materials	material	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	207	32	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	207	33	Methods	Methods	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	207	34	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	207	35	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	208	1	272	272	CD
work_2hfvnli6qndh3p3kqrzilygb4m	208	2	u	u	CD
work_2hfvnli6qndh3p3kqrzilygb4m	208	3	www.pnas.org	www.pnas.org	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	208	4	Bolk	Bolk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	208	5	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	208	6	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	208	7	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	209	1	D	D	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	2	o	o	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	3	w	w	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	4	n	n	XX
work_2hfvnli6qndh3p3kqrzilygb4m	209	5	lo	lo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	6	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	209	7	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	8	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	9	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	10	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	209	11	t	t	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	12	C	c	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	13	a	a	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	14	rn	rn	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	15	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	16	g	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	17	ie	ie	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	18	M	M	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	19	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	20	llo	llo	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	21	n	n	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	22	U	u	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	23	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	209	24	iv	iv	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	25	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	26	rs	rs	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	27	ity	ity	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	28	o	o	XX
work_2hfvnli6qndh3p3kqrzilygb4m	209	29	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	209	30	A	A	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	31	p	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	32	ri	ri	FW
work_2hfvnli6qndh3p3kqrzilygb4m	209	33	l	l	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	34	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	209	35	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	209	36	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	209	37	0	0	CD
work_2hfvnli6qndh3p3kqrzilygb4m	209	38	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	209	39	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	209	40	residues	residue	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	209	41	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	209	42	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	209	43	either	either	CC
work_2hfvnli6qndh3p3kqrzilygb4m	209	44	highly	highly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	209	45	conserved	conserve	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	209	46	andyor	andyor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	47	lead	lead	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	48	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	209	49	radical	radical	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	209	50	substitutions	substitution	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	209	51	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	209	52	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	209	53	expected	expect	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	209	54	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	209	55	alter	alter	VB
work_2hfvnli6qndh3p3kqrzilygb4m	209	56	protein	protein	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	57	folding	folding	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	58	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	209	59	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	209	60	inhibit	inhibit	VB
work_2hfvnli6qndh3p3kqrzilygb4m	209	61	transport	transport	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	62	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	209	63	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	209	64	protein	protein	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	65	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	209	66	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	209	67	cell	cell	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	68	surface	surface	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	69	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	209	70	35–37	35–37	NN
work_2hfvnli6qndh3p3kqrzilygb4m	209	71	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	209	72	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	210	1	These	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	210	2	obser-	obser-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	210	3	vations	vation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	210	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	210	5	together	together	RB
work_2hfvnli6qndh3p3kqrzilygb4m	210	6	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	210	7	microdeletions	microdeletion	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	210	8	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	210	9	chromosome	chromosome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	210	10	10q11.1	10q11.1	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	210	11	including	include	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	210	12	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	210	13	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	210	14	rare	rare	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	210	15	patients	patient	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	210	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	210	17	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	210	18	supported	support	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	210	19	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	210	20	view	view	NN
work_2hfvnli6qndh3p3kqrzilygb4m	210	21	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	210	22	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	210	23	results	result	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	210	24	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	210	25	haplo	haplo	NN
work_2hfvnli6qndh3p3kqrzilygb4m	210	26	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	210	27	insufficiency	insufficiency	NN
work_2hfvnli6qndh3p3kqrzilygb4m	210	28	because	because	IN
work_2hfvnli6qndh3p3kqrzilygb4m	210	29	50	50	CD
work_2hfvnli6qndh3p3kqrzilygb4m	210	30	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	210	31	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	210	32	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	210	33	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	210	34	support	support	VB
work_2hfvnli6qndh3p3kqrzilygb4m	210	35	normal	normal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	210	36	enteric	enteric	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	210	37	development	development	NN
work_2hfvnli6qndh3p3kqrzilygb4m	210	38	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	210	39	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	210	40	human	human	NN
work_2hfvnli6qndh3p3kqrzilygb4m	210	41	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	211	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	211	2	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	211	3	I	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	211	4	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	211	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	211	6	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	211	7	severe	severe	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	211	8	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	211	9	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	211	10	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	211	11	sufficient	sufficient	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	211	12	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	211	13	lead	lead	VB
work_2hfvnli6qndh3p3kqrzilygb4m	211	14	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	211	15	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	211	16	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	212	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	212	2	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	212	3	II	ii	CD
work_2hfvnli6qndh3p3kqrzilygb4m	212	4	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	212	5	hold	hold	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	212	6	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	212	7	key	key	NN
work_2hfvnli6qndh3p3kqrzilygb4m	212	8	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	212	9	further	further	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	212	10	understanding	understanding	NN
work_2hfvnli6qndh3p3kqrzilygb4m	212	11	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	212	12	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	212	13	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	213	1	Although	although	IN
work_2hfvnli6qndh3p3kqrzilygb4m	213	2	these	these	DT
work_2hfvnli6qndh3p3kqrzilygb4m	213	3	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	213	4	show	show	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	213	5	significant	significant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	213	6	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	213	7	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	213	8	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	213	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	213	10	only	only	RB
work_2hfvnli6qndh3p3kqrzilygb4m	213	11	two	two	CD
work_2hfvnli6qndh3p3kqrzilygb4m	213	12	splice	splice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	213	13	variants	variant	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	213	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	213	15	IVS17	IVS17	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	213	16	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	213	17	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	213	18	G	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	213	19	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	213	20	A	a	NN
work_2hfvnli6qndh3p3kqrzilygb4m	213	21	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	213	22	S649S	s649s	CD
work_2hfvnli6qndh3p3kqrzilygb4m	213	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	213	24	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	213	25	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	213	26	S649S	s649s	NN
work_2hfvnli6qndh3p3kqrzilygb4m	213	27	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	213	28	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	213	29	weak	weak	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	213	30	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	213	31	allele	allele	FW
work_2hfvnli6qndh3p3kqrzilygb4m	213	32	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	213	33	Fig	fig	NN
work_2hfvnli6qndh3p3kqrzilygb4m	213	34	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	214	1	3	3	LS
work_2hfvnli6qndh3p3kqrzilygb4m	214	2	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	214	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	214	4	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	214	5	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	214	6	identified	identify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	214	7	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	215	1	Such	such	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	215	2	weak	weak	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	215	3	alleles	allele	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	215	4	compromise	compromise	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	215	5	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	215	6	do	do	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	215	7	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	215	8	abrogate	abrogate	VB
work_2hfvnli6qndh3p3kqrzilygb4m	215	9	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	215	10	activity	activity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	215	11	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	215	12	thus	thus	RB
work_2hfvnli6qndh3p3kqrzilygb4m	215	13	require	require	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	215	14	additional	additional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	215	15	genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	215	16	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	215	17	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	215	18	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	215	19	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	215	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	216	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	216	2	segregation	segregation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	216	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	216	4	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	216	5	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	216	6	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	216	7	II	II	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	216	8	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	216	9	adds	add	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	216	10	weight	weight	NN
work_2hfvnli6qndh3p3kqrzilygb4m	216	11	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	216	12	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	216	13	conclusion	conclusion	NN
work_2hfvnli6qndh3p3kqrzilygb4m	216	14	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	217	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	217	2	three	three	CD
work_2hfvnli6qndh3p3kqrzilygb4m	217	3	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	217	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	217	5	remaining	remain	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	217	6	five	five	CD
work_2hfvnli6qndh3p3kqrzilygb4m	217	7	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	217	8	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	217	9	II	II	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	217	10	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	217	11	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	217	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	217	13	despite	despite	IN
work_2hfvnli6qndh3p3kqrzilygb4m	217	14	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	217	15	.97	.97	CD
work_2hfvnli6qndh3p3kqrzilygb4m	217	16	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	217	17	probability	probability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	217	18	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	217	19	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	217	20	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	217	21	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	217	22	we	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	217	23	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	217	24	failed	fail	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	217	25	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	217	26	identify	identify	VB
work_2hfvnli6qndh3p3kqrzilygb4m	217	27	any	any	DT
work_2hfvnli6qndh3p3kqrzilygb4m	217	28	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	217	29	sequence	sequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	217	30	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	217	31	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	217	32	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	218	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	218	2	conclude	conclude	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	218	3	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	218	4	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	218	5	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	218	6	group	group	NN
work_2hfvnli6qndh3p3kqrzilygb4m	218	7	II	II	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	218	8	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	218	9	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	218	10	hypomorphs	hypomorphs	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	218	11	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	218	12	harbor	harbor	VB
work_2hfvnli6qndh3p3kqrzilygb4m	218	13	muta-	muta-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	218	14	tions	tion	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	218	15	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	218	16	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	218	17	noncoding	noncode	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	218	18	regulatory	regulatory	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	218	19	regions	region	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	218	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	219	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	219	2	addition	addition	NN
work_2hfvnli6qndh3p3kqrzilygb4m	219	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	219	4	polymor-	polymor-	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	219	5	phisms	phism	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	219	6	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	219	7	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	219	8	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	219	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	219	10	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	219	11	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	219	12	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	219	13	excluded	exclude	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	219	14	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	219	15	disease-	disease-	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	219	16	causing	causing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	219	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	219	18	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	219	19	contribute	contribute	VB
work_2hfvnli6qndh3p3kqrzilygb4m	219	20	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	219	21	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	219	22	risk	risk	NN
work_2hfvnli6qndh3p3kqrzilygb4m	219	23	as	as	RB
work_2hfvnli6qndh3p3kqrzilygb4m	219	24	well	well	RB
work_2hfvnli6qndh3p3kqrzilygb4m	219	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	220	1	Genetic	genetic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	220	2	disorders	disorder	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	220	3	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	220	4	variable	variable	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	220	5	expressivity	expressivity	NN
work_2hfvnli6qndh3p3kqrzilygb4m	220	6	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	220	7	incomplete	incomplete	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	220	8	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	220	9	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	220	10	arise	arise	VB
work_2hfvnli6qndh3p3kqrzilygb4m	220	11	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	220	12	either	either	DT
work_2hfvnli6qndh3p3kqrzilygb4m	220	13	structural	structural	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	220	14	or	or	CC
work_2hfvnli6qndh3p3kqrzilygb4m	220	15	regulatory	regulatory	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	220	16	hypomor-	hypomor-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	220	17	phic	phic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	220	18	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	220	19	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	221	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	221	2	familial	familial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	221	3	retinoblastoma	retinoblastoma	NN
work_2hfvnli6qndh3p3kqrzilygb4m	221	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	221	5	structural	structural	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	221	6	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	221	7	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	221	8	result	result	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	221	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	221	10	only	only	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	221	11	partial	partial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	221	12	loss	loss	NN
work_2hfvnli6qndh3p3kqrzilygb4m	221	13	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	221	14	protein	protein	NN
work_2hfvnli6qndh3p3kqrzilygb4m	221	15	function	function	NN
work_2hfvnli6qndh3p3kqrzilygb4m	221	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	221	17	rather	rather	RB
work_2hfvnli6qndh3p3kqrzilygb4m	221	18	than	than	IN
work_2hfvnli6qndh3p3kqrzilygb4m	221	19	complete	complete	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	221	20	abrogation	abrogation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	221	21	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	221	22	normal	normal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	221	23	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	221	24	function	function	NN
work_2hfvnli6qndh3p3kqrzilygb4m	221	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	221	26	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	221	27	associated	associate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	221	28	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	221	29	incompletely	incompletely	RB
work_2hfvnli6qndh3p3kqrzilygb4m	221	30	penetrant	penetrant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	221	31	forms	form	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	221	32	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	221	33	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	221	34	disease	disease	NN
work_2hfvnli6qndh3p3kqrzilygb4m	221	35	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	221	36	38	38	CD
work_2hfvnli6qndh3p3kqrzilygb4m	221	37	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	221	38	39	39	CD
work_2hfvnli6qndh3p3kqrzilygb4m	221	39	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	221	40	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	222	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	222	2	addition	addition	NN
work_2hfvnli6qndh3p3kqrzilygb4m	222	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	222	4	splicing	splicing	NN
work_2hfvnli6qndh3p3kqrzilygb4m	222	5	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	222	6	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	222	7	variable	variable	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	222	8	efficiency	efficiency	NN
work_2hfvnli6qndh3p3kqrzilygb4m	222	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	222	10	usage	usage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	222	11	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	222	12	novel	novel	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	222	13	splice	splice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	222	14	sites	site	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	222	15	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	222	16	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	222	17	proposed	propose	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	222	18	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	222	19	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	222	20	molecular	molecular	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	222	21	basis	basis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	222	22	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	222	23	reduced	reduce	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	222	24	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	222	25	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	222	26	cystic	cystic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	222	27	fibrosis	fibrosis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	222	28	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	222	29	40	40	CD
work_2hfvnli6qndh3p3kqrzilygb4m	222	30	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	222	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	223	1	Epigenetic	Epigenetic	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	223	2	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	223	3	regulatory	regulatory	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	223	4	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	223	5	modifi-	modifi-	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	223	6	cation	cation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	223	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	223	8	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	223	9	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	223	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	223	11	such	such	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	223	12	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	223	13	through	through	IN
work_2hfvnli6qndh3p3kqrzilygb4m	223	14	position	position	NN
work_2hfvnli6qndh3p3kqrzilygb4m	223	15	effects	effect	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	223	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	223	17	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	223	18	another	another	DT
work_2hfvnli6qndh3p3kqrzilygb4m	223	19	type	type	NN
work_2hfvnli6qndh3p3kqrzilygb4m	223	20	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	223	21	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	223	22	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	223	23	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	223	24	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	223	25	responsible	responsible	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	223	26	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	223	27	reduced	reduce	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	223	28	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	223	29	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	224	1	First	first	RB
work_2hfvnli6qndh3p3kqrzilygb4m	224	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	224	3	position	position	NN
work_2hfvnli6qndh3p3kqrzilygb4m	224	4	effect	effect	NN
work_2hfvnli6qndh3p3kqrzilygb4m	224	5	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	224	6	can	can	MD
work_2hfvnli6qndh3p3kqrzilygb4m	224	7	occur	occur	VB
work_2hfvnli6qndh3p3kqrzilygb4m	224	8	hundreds	hundred	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	224	9	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	224	10	kilobases	kilobase	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	224	11	away	away	RB
work_2hfvnli6qndh3p3kqrzilygb4m	224	12	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	224	13	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	224	14	target	target	NN
work_2hfvnli6qndh3p3kqrzilygb4m	224	15	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	224	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	224	17	explaining	explain	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	224	18	both	both	DT
work_2hfvnli6qndh3p3kqrzilygb4m	224	19	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	224	20	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	224	21	failure	failure	NN
work_2hfvnli6qndh3p3kqrzilygb4m	224	22	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	224	23	observe	observe	VB
work_2hfvnli6qndh3p3kqrzilygb4m	224	24	coding	code	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	224	25	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	224	26	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	224	27	41	41	CD
work_2hfvnli6qndh3p3kqrzilygb4m	224	28	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	224	29	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	225	1	Second	second	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	225	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	225	3	position	position	NN
work_2hfvnli6qndh3p3kqrzilygb4m	225	4	effect	effect	NN
work_2hfvnli6qndh3p3kqrzilygb4m	225	5	changes	change	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	225	6	have	have	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	225	7	phe-	phe-	RB
work_2hfvnli6qndh3p3kqrzilygb4m	225	8	notypes	notype	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	225	9	similar	similar	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	225	10	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	225	11	loss	loss	NN
work_2hfvnli6qndh3p3kqrzilygb4m	225	12	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	225	13	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	225	14	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	225	15	function	function	NN
work_2hfvnli6qndh3p3kqrzilygb4m	225	16	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	225	17	;	;	,
work_2hfvnli6qndh3p3kqrzilygb4m	225	18	several	several	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	225	19	examples	example	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	225	20	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	225	21	known	know	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	225	22	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	225	23	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	225	24	human	human	NN
work_2hfvnli6qndh3p3kqrzilygb4m	225	25	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	225	26	mouse	mouse	NN
work_2hfvnli6qndh3p3kqrzilygb4m	225	27	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	225	28	41	41	CD
work_2hfvnli6qndh3p3kqrzilygb4m	225	29	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	225	30	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	226	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	226	2	best	well	RBS
work_2hfvnli6qndh3p3kqrzilygb4m	226	3	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	226	4	studied	study	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	226	5	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	226	6	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	226	7	receptor	receptor	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	8	tyrosine	tyrosine	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	9	kinase	kinase	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	226	10	c	c	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	226	11	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	226	12	kit	kit	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	226	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	226	14	known	know	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	226	15	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	226	16	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	226	17	subject	subject	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	226	18	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	226	19	position	position	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	20	effect	effect	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	21	variegation	variegation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	22	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	226	23	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	226	24	result	result	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	25	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	226	26	specific	specific	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	226	27	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	226	28	affecting	affect	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	226	29	chromosomal	chromosomal	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	30	rearrangement	rearrangement	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	31	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	226	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	226	33	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	226	34	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	226	35	consequence	consequence	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	226	37	control	control	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	38	elements	element	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	226	39	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	226	40	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	226	41	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	226	42	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	227	1	In	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	227	2	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	227	3	case	case	NN
work_2hfvnli6qndh3p3kqrzilygb4m	227	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	227	5	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	227	6	function	function	NN
work_2hfvnli6qndh3p3kqrzilygb4m	227	7	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	227	8	not	not	RB
work_2hfvnli6qndh3p3kqrzilygb4m	227	9	completely	completely	RB
work_2hfvnli6qndh3p3kqrzilygb4m	227	10	abolished	abolish	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	227	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	227	12	but	but	CC
work_2hfvnli6qndh3p3kqrzilygb4m	227	13	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	227	14	effect	effect	NN
work_2hfvnli6qndh3p3kqrzilygb4m	227	15	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	227	16	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	227	17	mutation	mutation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	227	18	represses	represse	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	227	19	transcription	transcription	NN
work_2hfvnli6qndh3p3kqrzilygb4m	227	20	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	227	21	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	227	22	tissue	tissue	NN
work_2hfvnli6qndh3p3kqrzilygb4m	227	23	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	227	24	specific	specific	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	227	25	manner	manner	NN
work_2hfvnli6qndh3p3kqrzilygb4m	227	26	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	227	27	42	42	CD
work_2hfvnli6qndh3p3kqrzilygb4m	227	28	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	227	29	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	228	1	Similar	similar	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	228	2	factors	factor	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	228	3	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	228	4	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	228	5	operating	operate	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	228	6	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	228	7	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	228	8	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	229	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	229	2	postulate	postulate	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	229	3	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	229	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	229	5	degree	degree	NN
work_2hfvnli6qndh3p3kqrzilygb4m	229	6	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	229	7	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	229	8	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	229	9	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	229	10	critical	critical	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	229	11	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	229	12	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	229	13	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	229	14	:	:	:
work_2hfvnli6qndh3p3kqrzilygb4m	229	15	severe	severe	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	229	16	alleles	allele	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	229	17	lead	lead	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	229	18	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	229	19	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	229	20	directly	directly	RB
work_2hfvnli6qndh3p3kqrzilygb4m	229	21	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	229	22	weak	weak	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	229	23	alleles	allele	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	229	24	also	also	RB
work_2hfvnli6qndh3p3kqrzilygb4m	229	25	require	require	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	229	26	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	229	27	effects	effect	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	229	28	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	229	29	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	229	30	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	229	31	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	229	32	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	230	1	A	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	230	2	corollary	corollary	NN
work_2hfvnli6qndh3p3kqrzilygb4m	230	3	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	230	4	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	230	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	230	6	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	230	7	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	230	8	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	230	9	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	230	10	modifier	modifier	NN
work_2hfvnli6qndh3p3kqrzilygb4m	230	11	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	230	12	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	230	13	penetrance	penetrance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	230	14	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	231	1	Consequently	consequently	RB
work_2hfvnli6qndh3p3kqrzilygb4m	231	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	231	3	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	231	4	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	231	5	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	231	6	could	could	MD
work_2hfvnli6qndh3p3kqrzilygb4m	231	7	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	231	8	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	231	9	member	member	NN
work_2hfvnli6qndh3p3kqrzilygb4m	231	10	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	231	11	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	231	12	signaling	signal	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	231	13	pathway	pathway	NN
work_2hfvnli6qndh3p3kqrzilygb4m	231	14	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	231	15	affects	affect	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	231	16	RET	RET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	231	17	expression	expression	NN
work_2hfvnli6qndh3p3kqrzilygb4m	231	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	231	19	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	231	20	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	231	21	‘	'	``
work_2hfvnli6qndh3p3kqrzilygb4m	231	22	‘	'	``
work_2hfvnli6qndh3p3kqrzilygb4m	231	23	hit	hit	NN
work_2hfvnli6qndh3p3kqrzilygb4m	231	24	’	'	''
work_2hfvnli6qndh3p3kqrzilygb4m	231	25	’	'	''
work_2hfvnli6qndh3p3kqrzilygb4m	231	26	at	at	IN
work_2hfvnli6qndh3p3kqrzilygb4m	231	27	multiple	multiple	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	231	28	locations	location	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	231	29	within	within	IN
work_2hfvnli6qndh3p3kqrzilygb4m	231	30	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	231	31	pathway	pathway	NN
work_2hfvnli6qndh3p3kqrzilygb4m	231	32	may	may	MD
work_2hfvnli6qndh3p3kqrzilygb4m	231	33	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	231	34	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	231	35	cause	cause	NN
work_2hfvnli6qndh3p3kqrzilygb4m	231	36	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	231	37	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	231	38	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	231	39	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	231	40	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	231	41	weak	weak	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	231	42	RET	ret	NN
work_2hfvnli6qndh3p3kqrzilygb4m	231	43	mutations	mutation	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	231	44	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	232	1	Proving	prove	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	232	2	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	232	3	hypothesis	hypothesis	NN
work_2hfvnli6qndh3p3kqrzilygb4m	232	4	will	will	MD
work_2hfvnli6qndh3p3kqrzilygb4m	232	5	require	require	VB
work_2hfvnli6qndh3p3kqrzilygb4m	232	6	identification	identification	NN
work_2hfvnli6qndh3p3kqrzilygb4m	232	7	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	232	8	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	232	9	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	232	10	;	;	:
work_2hfvnli6qndh3p3kqrzilygb4m	232	11	unfortunately	unfortunately	RB
work_2hfvnli6qndh3p3kqrzilygb4m	232	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	232	13	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	232	14	current	current	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	232	15	linkage	linkage	NN
work_2hfvnli6qndh3p3kqrzilygb4m	232	16	location	location	NN
work_2hfvnli6qndh3p3kqrzilygb4m	232	17	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	232	18	still	still	RB
work_2hfvnli6qndh3p3kqrzilygb4m	232	19	too	too	RB
work_2hfvnli6qndh3p3kqrzilygb4m	232	20	broad	broad	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	232	21	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	232	22	95	95	CD
work_2hfvnli6qndh3p3kqrzilygb4m	232	23	%	%	NN
work_2hfvnli6qndh3p3kqrzilygb4m	232	24	support	support	NN
work_2hfvnli6qndh3p3kqrzilygb4m	232	25	limits	limit	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	232	26	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	232	27	'	'	''
work_2hfvnli6qndh3p3kqrzilygb4m	232	28	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	232	29	cM	cM	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	232	30	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	232	31	to	to	TO
work_2hfvnli6qndh3p3kqrzilygb4m	232	32	allow	allow	VB
work_2hfvnli6qndh3p3kqrzilygb4m	232	33	positional	positional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	232	34	cloning	cloning	NN
work_2hfvnli6qndh3p3kqrzilygb4m	232	35	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	233	1	It	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	233	2	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	233	3	possible	possible	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	233	4	that	that	IN
work_2hfvnli6qndh3p3kqrzilygb4m	233	5	this	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	233	6	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	233	7	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	233	8	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	233	9	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	233	10	same	same	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	233	11	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	233	12	that	that	DT
work_2hfvnli6qndh3p3kqrzilygb4m	233	13	which	which	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	233	14	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	233	15	mutant	mutant	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	233	16	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	233	17	Riley	Riley	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	233	18	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	233	19	Day	Day	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	233	20	syndrome	syndrome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	233	21	[	[	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	233	22	Mendelian	Mendelian	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	233	23	Inheritance	Inheritance	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	233	24	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	233	25	Man	Man	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	233	26	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	233	27	MIM	MIM	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	233	28	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	233	29	223900	223900	CD
work_2hfvnli6qndh3p3kqrzilygb4m	233	30	]	]	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	233	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	234	1	The	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	234	2	latter	latter	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	234	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	234	4	also	also	RB
work_2hfvnli6qndh3p3kqrzilygb4m	234	5	known	know	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	234	6	as	as	IN
work_2hfvnli6qndh3p3kqrzilygb4m	234	7	familial	familial	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	234	8	dysautonomia	dysautonomia	NN
work_2hfvnli6qndh3p3kqrzilygb4m	234	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	234	10	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	234	11	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	234	12	hereditary	hereditary	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	234	13	neu-	neu-	NN
work_2hfvnli6qndh3p3kqrzilygb4m	234	14	ropathy	ropathy	NN
work_2hfvnli6qndh3p3kqrzilygb4m	234	15	that	that	WDT
work_2hfvnli6qndh3p3kqrzilygb4m	234	16	results	result	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	234	17	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	234	18	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	234	19	loss	loss	NN
work_2hfvnli6qndh3p3kqrzilygb4m	234	20	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	234	21	subsets	subset	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	234	22	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	234	23	autonomic	autonomic	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	234	24	neurons	neuron	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	234	25	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	234	26	is	be	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	234	27	associated	associate	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	234	28	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	234	29	lack	lack	NN
work_2hfvnli6qndh3p3kqrzilygb4m	234	30	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	234	31	tearing	tearing	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	234	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	234	33	emotional	emotional	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	234	34	lability	lability	NN
work_2hfvnli6qndh3p3kqrzilygb4m	234	35	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	234	36	paroxysmal	paroxysmal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	234	37	hypertension	hypertension	NN
work_2hfvnli6qndh3p3kqrzilygb4m	234	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	234	39	increased	increase	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	234	40	sweating	sweat	VBG
work_2hfvnli6qndh3p3kqrzilygb4m	234	41	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	234	42	cold	cold	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	234	43	hands	hand	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	234	44	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	234	45	feet	foot	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	234	46	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	234	47	corneal	corneal	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	234	48	anesthesia	anesthesia	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	234	49	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	234	50	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	234	51	blotching	blotching	NN
work_2hfvnli6qndh3p3kqrzilygb4m	234	52	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	234	53	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	234	54	skin	skin	NN
work_2hfvnli6qndh3p3kqrzilygb4m	234	55	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	235	1	Riley	Riley	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	235	2	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	235	3	Day	Day	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	235	4	syndrome	syndrome	NN
work_2hfvnli6qndh3p3kqrzilygb4m	235	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	235	6	common	common	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	235	7	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	235	8	Ashkenazi	Ashkenazi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	235	9	Jews	Jews	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	235	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	235	11	has	have	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	235	12	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	235	13	shown	show	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	235	14	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	235	15	co	co	NN
work_2hfvnli6qndh3p3kqrzilygb4m	235	16	-	-	VB
work_2hfvnli6qndh3p3kqrzilygb4m	235	17	occur	occur	VB
work_2hfvnli6qndh3p3kqrzilygb4m	235	18	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	235	19	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	235	20	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	235	21	has	have	VBZ
work_2hfvnli6qndh3p3kqrzilygb4m	235	22	been	be	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	235	23	mapped	map	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	235	24	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	235	25	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	235	26	'	'	``
work_2hfvnli6qndh3p3kqrzilygb4m	235	27	150-kilobase	150-kilobase	CD
work_2hfvnli6qndh3p3kqrzilygb4m	235	28	segment	segment	NN
work_2hfvnli6qndh3p3kqrzilygb4m	235	29	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	235	30	9q31	9q31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	235	31	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	235	32	43	43	CD
work_2hfvnli6qndh3p3kqrzilygb4m	235	33	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	235	34	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	236	1	This	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	236	2	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	236	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	236	4	when	when	WRB
work_2hfvnli6qndh3p3kqrzilygb4m	236	5	identified	identify	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	236	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	236	7	will	will	MD
work_2hfvnli6qndh3p3kqrzilygb4m	236	8	be	be	VB
work_2hfvnli6qndh3p3kqrzilygb4m	236	9	an	an	DT
work_2hfvnli6qndh3p3kqrzilygb4m	236	10	excellent	excellent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	236	11	candidate	candidate	NN
work_2hfvnli6qndh3p3kqrzilygb4m	236	12	gene	gene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	236	13	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	236	14	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	236	15	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	237	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	237	2	are	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	237	3	indebted	indebted	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	237	4	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	237	5	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	237	6	HSCR	HSCR	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	237	7	families	family	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	237	8	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	237	9	participation	participation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	237	10	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	237	11	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	237	12	American	American	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	237	13	Pseudo	Pseudo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	237	14	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	237	15	obstruction	obstruction	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	237	16	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	237	17	Hirschsprung	Hirschsprung	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	237	18	Disease	Disease	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	237	19	Society	Society	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	237	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	237	21	Inc.	Inc.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	237	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	237	23	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	237	24	cooperation	cooperation	NN
work_2hfvnli6qndh3p3kqrzilygb4m	237	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	238	1	We	-PRON-	PRP
work_2hfvnli6qndh3p3kqrzilygb4m	238	2	gratefully	gratefully	RB
work_2hfvnli6qndh3p3kqrzilygb4m	238	3	acknowledge	acknowledge	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	238	4	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	238	5	work	work	NN
work_2hfvnli6qndh3p3kqrzilygb4m	238	6	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	238	7	Jennifer	Jennifer	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	238	8	Scott	Scott	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	238	9	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	238	10	family	family	NN
work_2hfvnli6qndh3p3kqrzilygb4m	238	11	studies	study	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	238	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	238	13	James	James	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	238	14	Gabriel	Gabriel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	238	15	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	238	16	advice	advice	NN
work_2hfvnli6qndh3p3kqrzilygb4m	238	17	with	with	IN
work_2hfvnli6qndh3p3kqrzilygb4m	238	18	RNA	RNA	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	238	19	studies	study	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	238	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	238	21	Kimberly	Kimberly	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	238	22	Bentley	Bentley	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	238	23	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	238	24	Carl	Carl	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	238	25	Kashuk	Kashuk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	238	26	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	238	27	excellent	excellent	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	238	28	technical	technical	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	238	29	assistance	assistance	NN
work_2hfvnli6qndh3p3kqrzilygb4m	238	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	238	31	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	238	32	Drs	Drs	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	238	33	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	239	1	Hunt	Hunt	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	239	2	Willard	Willard	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	239	3	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	239	4	Evan	Evan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	239	5	Eichler	Eichler	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	239	6	for	for	IN
work_2hfvnli6qndh3p3kqrzilygb4m	239	7	comments	comment	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	239	8	on	on	IN
work_2hfvnli6qndh3p3kqrzilygb4m	239	9	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	239	10	manuscript	manuscript	NN
work_2hfvnli6qndh3p3kqrzilygb4m	239	11	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	240	1	This	this	DT
work_2hfvnli6qndh3p3kqrzilygb4m	240	2	work	work	NN
work_2hfvnli6qndh3p3kqrzilygb4m	240	3	was	be	VBD
work_2hfvnli6qndh3p3kqrzilygb4m	240	4	supported	support	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	240	5	by	by	IN
work_2hfvnli6qndh3p3kqrzilygb4m	240	6	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	240	7	grant	grant	NN
work_2hfvnli6qndh3p3kqrzilygb4m	240	8	from	from	IN
work_2hfvnli6qndh3p3kqrzilygb4m	240	9	the	the	DT
work_2hfvnli6qndh3p3kqrzilygb4m	240	10	National	National	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	240	11	Institutes	Institutes	NNPS
work_2hfvnli6qndh3p3kqrzilygb4m	240	12	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	240	13	Health	Health	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	240	14	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	240	15	HD28088	HD28088	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	240	16	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	240	17	to	to	IN
work_2hfvnli6qndh3p3kqrzilygb4m	240	18	A.C.	A.C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	240	19	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	240	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	241	1	Chakravarti	Chakravarti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	241	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	241	3	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	242	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	242	2	Lander	Lander	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	242	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	242	4	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	242	5	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	242	6	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	242	7	1990	1990	CD
work_2hfvnli6qndh3p3kqrzilygb4m	242	8	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	242	9	in	in	IN
work_2hfvnli6qndh3p3kqrzilygb4m	242	10	Genetics	Genetics	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	242	11	and	and	CC
work_2hfvnli6qndh3p3kqrzilygb4m	242	12	Biology	Biology	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	242	13	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	242	14	Alcoholism	Alcoholism	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	242	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	242	16	ed	ed	NN
work_2hfvnli6qndh3p3kqrzilygb4m	242	17	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	243	1	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	243	2	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	243	3	Cloninger	Cloninger	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	243	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	243	5	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	243	6	Begleiter	Begleiter	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	243	7	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	243	8	Cold	Cold	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	243	9	Spring	Spring	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	243	10	Harbor	Harbor	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	243	11	Lab	Lab	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	243	12	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	244	1	Press	Press	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	244	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	244	3	Plainview	Plainview	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	244	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	244	5	NY	NY	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	244	6	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	244	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	244	8	pp	pp	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	244	9	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	245	1	307–315	307–315	CD
work_2hfvnli6qndh3p3kqrzilygb4m	245	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	246	1	2	2	LS
work_2hfvnli6qndh3p3kqrzilygb4m	246	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	247	1	Kajiwara	Kajiwara	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	247	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	247	3	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	247	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	247	5	Berson	Berson	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	247	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	247	7	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	247	8	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	247	9	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	247	10	Dryja	Dryja	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	247	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	247	12	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	247	13	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	247	14	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	247	15	1994	1994	CD
work_2hfvnli6qndh3p3kqrzilygb4m	247	16	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	247	17	Science	Science	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	247	18	264	264	CD
work_2hfvnli6qndh3p3kqrzilygb4m	247	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	247	20	1604	1604	CD
work_2hfvnli6qndh3p3kqrzilygb4m	247	21	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	247	22	1608	1608	CD
work_2hfvnli6qndh3p3kqrzilygb4m	247	23	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	248	1	3	3	LS
work_2hfvnli6qndh3p3kqrzilygb4m	248	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	249	1	Cucca	Cucca	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	3	F.	F.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	5	Goy	Goy	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	7	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	8	V.	V.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	10	Kawaguchi	Kawaguchi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	12	Y.	Y.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	14	Esposito	Esposito	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	16	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	18	Merriman	Merriman	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	20	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	21	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	23	Wilson	Wilson	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	25	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	26	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	28	Cordell	Cordell	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	30	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	31	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	33	Bain	Bain	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	35	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	36	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	37	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	249	38	Todd	Todd	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	249	39	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	249	40	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	250	1	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	251	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	251	2	1998	1998	CD
work_2hfvnli6qndh3p3kqrzilygb4m	251	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	251	4	Nat	Nat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	251	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	252	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	252	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	253	1	19	19	CD
work_2hfvnli6qndh3p3kqrzilygb4m	253	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	253	3	301–302	301–302	CD
work_2hfvnli6qndh3p3kqrzilygb4m	253	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	254	1	4	4	LS
work_2hfvnli6qndh3p3kqrzilygb4m	254	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	255	1	Badner	Badner	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	255	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	255	3	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	256	1	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	256	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	256	3	Sieber	Sieber	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	256	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	256	5	W.	W.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	256	6	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	256	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	256	8	Garver	Garver	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	256	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	256	10	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	256	11	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	256	12	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	256	13	Chakravarti	Chakravarti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	256	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	256	15	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	257	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	257	2	1990	1990	CD
work_2hfvnli6qndh3p3kqrzilygb4m	257	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	257	4	Am	Am	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	257	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	258	1	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	258	2	Hum	Hum	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	258	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	259	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	259	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	260	1	46	46	CD
work_2hfvnli6qndh3p3kqrzilygb4m	260	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	260	3	568	568	CD
work_2hfvnli6qndh3p3kqrzilygb4m	260	4	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	260	5	580	580	CD
work_2hfvnli6qndh3p3kqrzilygb4m	260	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	261	1	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	261	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	262	1	Edery	edery	NN
work_2hfvnli6qndh3p3kqrzilygb4m	262	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	3	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	5	Pelet	Pelet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	7	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	9	Mulligan	Mulligan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	11	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	12	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	14	Abel	Abel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	16	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	18	Attie	Attie	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	20	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	21	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	22	Dow	Dow	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	24	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	26	Bonneau	Bonneau	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	28	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	30	David	David	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	31	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	32	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	33	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	34	Flintoff	Flintoff	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	35	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	36	W.	W.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	37	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	38	Jan	Jan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	39	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	262	40	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	41	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	42	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	262	43	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	263	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	263	2	1994	1994	CD
work_2hfvnli6qndh3p3kqrzilygb4m	263	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	263	4	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	263	5	Med	Med	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	263	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	264	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	264	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	265	1	31	31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	265	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	265	3	602	602	CD
work_2hfvnli6qndh3p3kqrzilygb4m	265	4	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	265	5	606	606	CD
work_2hfvnli6qndh3p3kqrzilygb4m	265	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	266	1	6	6	CD
work_2hfvnli6qndh3p3kqrzilygb4m	266	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	267	1	Angrist	Angrist	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	3	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	5	Bolk	Bolk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	7	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	9	Thiel	Thiel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	11	B.	B.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	13	Puffenberger	Puffenberger	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	15	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	16	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	18	Hofstra	Hofstra	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	20	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	21	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	23	Buys	Buys	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	25	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	26	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	27	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	28	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	30	Cass	Cass	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	31	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	32	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	33	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	34	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	267	35	Chakravarti	Chakravarti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	267	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	267	37	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	268	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	268	2	1995	1995	CD
work_2hfvnli6qndh3p3kqrzilygb4m	268	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	268	4	Hum	hum	UH
work_2hfvnli6qndh3p3kqrzilygb4m	268	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	269	1	Mol	Mol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	269	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	270	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	270	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	271	1	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	271	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	271	3	821	821	CD
work_2hfvnli6qndh3p3kqrzilygb4m	271	4	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	271	5	830	830	CD
work_2hfvnli6qndh3p3kqrzilygb4m	271	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	272	1	7	7	LS
work_2hfvnli6qndh3p3kqrzilygb4m	272	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	273	1	Attie	Attie	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	3	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	5	Till	Till	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	7	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	9	Pelet	Pelet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	11	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	13	Amiel	Amiel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	15	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	17	Edery	Edery	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	19	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	21	Boutrand	Boutrand	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	23	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	25	Munnich	Munnich	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	273	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	273	27	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	274	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	274	2	Lyonnet	Lyonnet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	274	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	274	4	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	274	5	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	274	6	1995	1995	CD
work_2hfvnli6qndh3p3kqrzilygb4m	274	7	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	274	8	Hum	hum	UH
work_2hfvnli6qndh3p3kqrzilygb4m	274	9	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	275	1	Mol	Mol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	275	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	276	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	276	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	277	1	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	277	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	277	3	2407–2409	2407–2409	CD
work_2hfvnli6qndh3p3kqrzilygb4m	277	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	278	1	8	8	LS
work_2hfvnli6qndh3p3kqrzilygb4m	278	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	279	1	Treanor	Treanor	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	3	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	4	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	5	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	7	Goodman	Goodman	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	9	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	11	De	De	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	12	Sauvage	Sauvage	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	14	F.	F.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	16	Stone	Stone	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	18	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	19	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	21	Poulsen	Poulsen	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	23	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	24	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	26	Beck	Beck	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	28	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	29	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	31	Gray	Gray	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	33	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	35	Armanini	Armanini	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	37	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	38	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	39	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	40	Pollock	Pollock	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	41	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	42	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	43	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	44	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	45	Hefti	Hefti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	46	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	47	F.	F.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	48	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	279	49	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	50	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	279	51	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	280	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	280	2	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	280	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	280	4	Nature	Nature	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	280	5	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	280	6	London	London	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	280	7	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	280	8	382	382	CD
work_2hfvnli6qndh3p3kqrzilygb4m	280	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	280	10	80–83	80–83	CD
work_2hfvnli6qndh3p3kqrzilygb4m	280	11	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	281	1	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	281	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	282	1	Trupp	Trupp	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	3	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	5	Arenas	Arenas	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	7	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	9	Fainzilber	Fainzilber	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	11	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	13	Nilsson	Nilsson	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	15	A.-S.	A.-S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	17	Sieber	Sieber	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	19	B.-A.	B.-A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	21	Grigoriou	Grigoriou	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	23	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	25	Kilkenny	Kilkenny	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	27	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	29	Salazar	Salazar	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	30	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	282	31	Grueso	Grueso	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	33	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	35	Pachnis	Pachnis	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	37	V.	V.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	39	Arumae	Arumae	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	40	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	41	U.	U.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	42	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	282	43	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	44	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	282	45	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	283	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	283	2	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	283	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	283	4	Nature	Nature	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	283	5	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	283	6	London	London	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	283	7	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	283	8	381	381	CD
work_2hfvnli6qndh3p3kqrzilygb4m	283	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	283	10	785–789	785–789	CD
work_2hfvnli6qndh3p3kqrzilygb4m	283	11	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	284	1	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	284	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	285	1	Angrist	Angrist	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	285	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	285	3	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	285	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	285	5	Bolk	Bolk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	285	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	285	7	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	285	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	285	9	Halushka	Halushka	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	285	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	285	11	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	285	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	285	13	Lapchak	Lapchak	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	285	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	285	15	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	285	16	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	285	17	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	285	18	Chakravarti	Chakravarti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	285	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	285	20	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	286	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	286	2	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	286	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	286	4	Nat	Nat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	286	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	287	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	287	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	288	1	14	14	CD
work_2hfvnli6qndh3p3kqrzilygb4m	288	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	288	3	341–344	341–344	CD
work_2hfvnli6qndh3p3kqrzilygb4m	288	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	289	1	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	289	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	290	1	Salomon	Salomon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	3	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	5	Attie	Attie	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	7	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	9	Pelet	Pelet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	11	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	290	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	13	Bidaud	Bidaud	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	15	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	17	Eng	Eng	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	19	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	21	Amiel	Amiel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	23	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	25	Sarnacki	Sarnacki	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	27	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	29	Goulet	Goulet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	31	O.	O.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	33	Ricour	Ricour	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	35	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	37	Nihoul	Nihoul	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	38	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	290	39	Fekete	Fekete	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	40	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	41	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	42	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	290	43	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	44	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	290	45	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	291	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	291	2	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	291	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	291	4	Nat	Nat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	291	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	292	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	292	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	293	1	14	14	CD
work_2hfvnli6qndh3p3kqrzilygb4m	293	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	293	3	345–347	345–347	CD
work_2hfvnli6qndh3p3kqrzilygb4m	293	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	294	1	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	294	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	295	1	Hofstra	Hofstra	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	295	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	295	3	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	295	4	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	295	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	295	6	Osinga	Osinga	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	295	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	295	8	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	296	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	296	2	Buys	Buys	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	296	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	296	4	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	296	5	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	296	6	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	296	7	1997	1997	CD
work_2hfvnli6qndh3p3kqrzilygb4m	296	8	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	296	9	Eur	Eur	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	296	10	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	297	1	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	297	2	Hum	Hum	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	297	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	298	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	298	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	299	1	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	299	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	299	3	180	180	CD
work_2hfvnli6qndh3p3kqrzilygb4m	299	4	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	299	5	185	185	CD
work_2hfvnli6qndh3p3kqrzilygb4m	299	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	300	1	13	13	CD
work_2hfvnli6qndh3p3kqrzilygb4m	300	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	301	1	Ivanchuk	Ivanchuk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	301	3	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	4	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	301	6	Myers	Myers	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	301	8	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	9	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	301	11	Eng	Eng	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	301	13	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	14	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	301	15	Mulligan	Mulligan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	301	17	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	18	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	301	19	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	301	20	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	301	21	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	301	22	Hum	hum	UH
work_2hfvnli6qndh3p3kqrzilygb4m	301	23	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	302	1	Mol	Mol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	302	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	303	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	303	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	304	1	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	304	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	304	3	2023–2026	2023–2026	CD
work_2hfvnli6qndh3p3kqrzilygb4m	304	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	305	1	14	14	CD
work_2hfvnli6qndh3p3kqrzilygb4m	305	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	306	1	Angrist	Angrist	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	3	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	5	Jing	Jing	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	7	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	9	Bolk	Bolk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	11	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	13	Bentley	Bentley	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	15	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	17	Nallasamy	Nallasamy	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	19	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	21	Halushka	Halushka	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	23	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	25	Fox	Fox	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	27	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	28	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	306	29	Chakravarti	Chakravarti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	306	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	306	31	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	307	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	307	2	1998	1998	CD
work_2hfvnli6qndh3p3kqrzilygb4m	307	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	307	4	Genomics	Genomics	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	307	5	48	48	CD
work_2hfvnli6qndh3p3kqrzilygb4m	307	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	307	7	354	354	CD
work_2hfvnli6qndh3p3kqrzilygb4m	307	8	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	307	9	362	362	CD
work_2hfvnli6qndh3p3kqrzilygb4m	307	10	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	308	1	15	15	CD
work_2hfvnli6qndh3p3kqrzilygb4m	308	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	309	1	Puffenberger	Puffenberger	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	3	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	4	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	6	Hosoda	Hosoda	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	8	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	10	Washington	Washington	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	12	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	13	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	15	Nakao	Nakao	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	17	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	19	deWitt	deWitt	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	21	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	23	Yanagisawa	Yanagisawa	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	25	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	26	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	309	27	Chakravarti	Chakravarti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	309	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	309	29	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	310	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	310	2	1994	1994	CD
work_2hfvnli6qndh3p3kqrzilygb4m	310	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	310	4	Cell	Cell	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	310	5	79	79	CD
work_2hfvnli6qndh3p3kqrzilygb4m	310	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	310	7	1257–1266	1257–1266	CD
work_2hfvnli6qndh3p3kqrzilygb4m	310	8	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	311	1	16	16	CD
work_2hfvnli6qndh3p3kqrzilygb4m	311	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	312	1	Chakravarti	Chakravarti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	312	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	312	3	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	313	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	313	2	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	313	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	313	4	Hum	hum	UH
work_2hfvnli6qndh3p3kqrzilygb4m	313	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	314	1	Mol	Mol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	314	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	315	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	315	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	316	1	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	316	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	316	3	303–307	303–307	CD
work_2hfvnli6qndh3p3kqrzilygb4m	316	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	317	1	17	17	CD
work_2hfvnli6qndh3p3kqrzilygb4m	317	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	318	1	Southard	Southard	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	2	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	318	3	Smith	Smith	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	5	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	6	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	8	Angrist	Angrist	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	10	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	12	Ellison	Ellison	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	14	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	16	Agarwala	Agarwala	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	18	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	20	Baxevanis	Baxevanis	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	21	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	22	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	24	Chakravarti	Chakravarti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	318	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	318	26	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	319	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	319	2	Pavan	Pavan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	319	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	319	4	W.	W.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	319	5	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	320	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	320	2	1999	1999	CD
work_2hfvnli6qndh3p3kqrzilygb4m	320	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	320	4	Genome	Genome	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	320	5	Res	Res	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	320	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	321	1	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	321	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	321	3	215–225	215–225	CD
work_2hfvnli6qndh3p3kqrzilygb4m	321	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	322	1	18	18	CD
work_2hfvnli6qndh3p3kqrzilygb4m	322	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	323	1	Pingault	Pingault	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	323	3	V.	V.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	323	5	Bondurnad	Bondurnad	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	323	7	N.	N.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	323	9	Kuhlbrodt	Kuhlbrodt	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	323	11	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	323	13	Goerish	Goerish	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	323	15	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	16	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	323	18	Prehu	Prehu	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	323	20	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	21	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	323	22	Puliti	Puliti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	323	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	323	24	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	324	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	324	2	1998	1998	CD
work_2hfvnli6qndh3p3kqrzilygb4m	324	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	324	4	Nat	Nat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	324	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	325	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	325	2	18	18	CD
work_2hfvnli6qndh3p3kqrzilygb4m	325	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	325	4	171–173	171–173	CD
work_2hfvnli6qndh3p3kqrzilygb4m	325	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	326	1	19	19	CD
work_2hfvnli6qndh3p3kqrzilygb4m	326	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	327	1	Romeo	Romeo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	3	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	5	Ronchetto	Ronchetto	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	7	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	9	Luo	Luo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	11	Y.	Y.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	13	Barone	Barone	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	15	V.	V.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	17	Seri	Seri	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	19	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	21	Ceccherini	Ceccherini	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	23	I.	I.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	25	Pasini	Pasini	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	27	B.	B.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	29	Bocciardi	Bocciardi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	31	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	33	Lerone	Lerone	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	35	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	37	Kaarianen	Kaarianen	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	39	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	40	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	327	41	Martucciello	Martucciello	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	42	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	43	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	44	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	327	45	1994	1994	CD
work_2hfvnli6qndh3p3kqrzilygb4m	327	46	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	327	47	Nature	Nature	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	48	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	327	49	London	London	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	327	50	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	327	51	367	367	CD
work_2hfvnli6qndh3p3kqrzilygb4m	327	52	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	327	53	377–378	377–378	CD
work_2hfvnli6qndh3p3kqrzilygb4m	327	54	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	328	1	20	20	CD
work_2hfvnli6qndh3p3kqrzilygb4m	328	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	329	1	Edery	edery	NN
work_2hfvnli6qndh3p3kqrzilygb4m	329	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	3	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	5	Lyonnet	Lyonnet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	7	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	9	Mulligan	Mulligan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	11	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	12	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	14	Pelet	Pelet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	16	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	18	Dow	Dow	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	20	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	21	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	22	Abel	Abel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	24	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	26	Holder	Holder	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	28	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	30	Nihoul	Nihoul	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	31	Fekete	Fekete	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	33	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	35	Ponder	Ponder	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	329	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	329	37	B.	B.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	330	1	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	331	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	331	2	Munnich	Munnich	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	331	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	331	4	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	332	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	332	2	1994	1994	CD
work_2hfvnli6qndh3p3kqrzilygb4m	332	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	332	4	Nature	Nature	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	332	5	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	332	6	London	London	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	332	7	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	332	8	367	367	CD
work_2hfvnli6qndh3p3kqrzilygb4m	332	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	332	10	378–380	378–380	CD
work_2hfvnli6qndh3p3kqrzilygb4m	332	11	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	333	1	21	21	CD
work_2hfvnli6qndh3p3kqrzilygb4m	333	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	334	1	Attie	Attie	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	3	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	5	Pelet	Pelet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	7	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	9	Edery	Edery	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	11	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	13	Eng	Eng	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	15	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	17	Mulligan	Mulligan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	19	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	20	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	21	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	22	Amiel	Amiel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	24	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	26	Boutrand	Boutrand	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	28	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	30	Beldjord	Beldjord	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	31	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	32	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	33	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	34	Nihoul	Nihoul	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	35	Fekete	Fekete	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	37	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	39	Munnich	Munnich	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	40	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	41	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	42	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	334	43	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	44	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	334	45	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	335	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	335	2	1995	1995	CD
work_2hfvnli6qndh3p3kqrzilygb4m	335	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	335	4	Hum	hum	UH
work_2hfvnli6qndh3p3kqrzilygb4m	335	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	336	1	Mol	Mol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	336	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	337	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	337	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	338	1	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	338	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	338	3	1381–1386	1381–1386	CD
work_2hfvnli6qndh3p3kqrzilygb4m	338	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	339	1	22	22	CD
work_2hfvnli6qndh3p3kqrzilygb4m	339	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	340	1	Angrist	Angrist	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	3	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	5	Kauffman	Kauffman	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	7	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	9	Slaugenhaupt	Slaugenhaupt	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	11	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	12	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	14	Matise	Matise	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	16	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	17	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	19	Puffenberger	Puffenberger	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	21	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	22	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	24	Bolk	Bolk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	26	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	28	Washington	Washington	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	30	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	31	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	33	Lipson	Lipson	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	35	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	37	Cass	Cass	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	39	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	40	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	41	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	42	Reyna	Reyna	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	43	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	44	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	45	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	340	46	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	47	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	340	48	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	341	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	341	2	1993	1993	CD
work_2hfvnli6qndh3p3kqrzilygb4m	341	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	341	4	Nat	Nat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	341	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	342	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	342	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	343	1	4	4	LS
work_2hfvnli6qndh3p3kqrzilygb4m	343	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	343	3	351–356	351–356	CD
work_2hfvnli6qndh3p3kqrzilygb4m	343	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	344	1	23	23	CD
work_2hfvnli6qndh3p3kqrzilygb4m	344	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	345	1	Ott	ott	UH
work_2hfvnli6qndh3p3kqrzilygb4m	345	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	345	3	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	346	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	346	2	1991	1991	CD
work_2hfvnli6qndh3p3kqrzilygb4m	346	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	346	4	Analysis	Analysis	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	346	5	of	of	IN
work_2hfvnli6qndh3p3kqrzilygb4m	346	6	Human	Human	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	346	7	Genetic	Genetic	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	346	8	Linkage	Linkage	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	346	9	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	346	10	Johns	Johns	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	346	11	Hopkins	Hopkins	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	346	12	Univ	Univ	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	346	13	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	347	1	Press	Press	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	347	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	347	3	Baltimore	Baltimore	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	347	4	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	347	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	348	1	24	24	CD
work_2hfvnli6qndh3p3kqrzilygb4m	348	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	349	1	Kruglyak	Kruglyak	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	349	3	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	349	5	Daly	Daly	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	349	7	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	8	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	349	10	Reeve	Reeve	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	11	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	349	12	Daly	Daly	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	349	14	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	15	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	16	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	349	17	Lander	Lander	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	349	19	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	20	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	349	21	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	349	22	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	349	23	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	349	24	Am	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	349	25	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	350	1	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	350	2	Hum	Hum	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	350	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	351	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	351	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	352	1	58	58	CD
work_2hfvnli6qndh3p3kqrzilygb4m	352	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	352	3	1347–1363	1347–1363	CD
work_2hfvnli6qndh3p3kqrzilygb4m	352	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	353	1	25	25	CD
work_2hfvnli6qndh3p3kqrzilygb4m	353	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	354	1	Dib	Dib	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	3	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	5	Faure	Faure	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	7	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	9	Fizames	Fizames	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	11	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	13	Samson	Samson	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	15	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	17	Drouot	Drouot	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	19	N.	N.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	21	Vignal	Vignal	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	23	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	25	Millasseau	Millasseau	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	27	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	29	Marc	Marc	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	31	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	33	Hazan	Hazan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	35	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	37	Seboun	Seboun	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	39	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	40	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	354	41	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	42	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	354	43	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	355	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	355	2	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	355	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	355	4	Nature	Nature	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	355	5	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	355	6	London	London	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	355	7	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	355	8	380	380	CD
work_2hfvnli6qndh3p3kqrzilygb4m	355	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	355	10	152–154	152–154	CD
work_2hfvnli6qndh3p3kqrzilygb4m	355	11	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	356	1	26	26	CD
work_2hfvnli6qndh3p3kqrzilygb4m	356	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	357	1	Ceccherini	Ceccherini	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	3	I.	I.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	5	Bocciardi	Bocciardi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	7	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	9	Luo	Luo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	11	Y.	Y.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	13	Pasini	Pasini	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	15	B.	B.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	17	Hofstra	Hofstra	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	19	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	21	Takahashi	Takahashi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	23	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	24	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	357	25	Romeo	Romeo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	357	27	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	28	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	357	29	1993	1993	CD
work_2hfvnli6qndh3p3kqrzilygb4m	357	30	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	357	31	Biochem	Biochem	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	357	32	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	358	1	Biophys	Biophys	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	358	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	359	1	Res	Res	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	359	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	360	1	Commun	Commun	VBN
work_2hfvnli6qndh3p3kqrzilygb4m	360	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	361	1	196	196	CD
work_2hfvnli6qndh3p3kqrzilygb4m	361	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	361	3	1288	1288	CD
work_2hfvnli6qndh3p3kqrzilygb4m	361	4	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	361	5	1295	1295	CD
work_2hfvnli6qndh3p3kqrzilygb4m	361	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	362	1	27	27	CD
work_2hfvnli6qndh3p3kqrzilygb4m	362	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	363	1	Takahashi	Takahashi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	3	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	5	Buma	Buma	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	7	Y.	Y.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	9	Iwamoto	Iwamoto	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	11	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	13	Inaguma	Inaguma	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	15	Y.	Y.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	17	Ikeda	Ikeda	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	19	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	20	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	363	21	Hiai	Hiai	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	23	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	363	24	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	363	25	1988	1988	CD
work_2hfvnli6qndh3p3kqrzilygb4m	363	26	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	363	27	Oncogene	oncogene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	363	28	3	3	CD
work_2hfvnli6qndh3p3kqrzilygb4m	363	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	363	30	571–578	571–578	CD
work_2hfvnli6qndh3p3kqrzilygb4m	363	31	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	364	1	28	28	CD
work_2hfvnli6qndh3p3kqrzilygb4m	364	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	365	1	Takahashi	Takahashi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	365	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	365	3	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	365	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	365	5	Buma	Buma	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	365	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	365	7	Y.	Y.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	366	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	366	2	Hiai	Hiai	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	366	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	366	4	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	366	5	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	366	6	1989	1989	CD
work_2hfvnli6qndh3p3kqrzilygb4m	366	7	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	366	8	Oncogene	oncogene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	366	9	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	366	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	366	11	805	805	CD
work_2hfvnli6qndh3p3kqrzilygb4m	366	12	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	366	13	806	806	CD
work_2hfvnli6qndh3p3kqrzilygb4m	366	14	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	367	1	29	29	CD
work_2hfvnli6qndh3p3kqrzilygb4m	367	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	368	1	Myers	Myers	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	368	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	368	3	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	368	4	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	368	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	368	6	Eng	Eng	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	368	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	368	8	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	368	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	368	10	Ponder	Ponder	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	368	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	368	12	B.	B.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	369	1	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	370	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	370	2	Mulligan	Mulligan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	370	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	370	4	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	370	5	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	370	6	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	370	7	1995	1995	CD
work_2hfvnli6qndh3p3kqrzilygb4m	370	8	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	370	9	Oncogene	oncogene	NN
work_2hfvnli6qndh3p3kqrzilygb4m	370	10	11	11	CD
work_2hfvnli6qndh3p3kqrzilygb4m	370	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	370	12	2039	2039	CD
work_2hfvnli6qndh3p3kqrzilygb4m	370	13	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	370	14	2045	2045	CD
work_2hfvnli6qndh3p3kqrzilygb4m	370	15	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	371	1	30	30	CD
work_2hfvnli6qndh3p3kqrzilygb4m	371	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	372	1	Kusafuka	Kusafuka	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	372	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	372	3	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	372	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	372	5	Wang	Wang	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	372	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	372	7	Y.	Y.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	373	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	373	2	Puri	Puri	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	373	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	373	4	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	373	5	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	373	6	1997	1997	CD
work_2hfvnli6qndh3p3kqrzilygb4m	373	7	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	373	8	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	373	9	Pediatr	Pediatr	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	373	10	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	374	1	Surg	Surg	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	374	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	375	1	32	32	CD
work_2hfvnli6qndh3p3kqrzilygb4m	375	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	375	3	501–504	501–504	CD
work_2hfvnli6qndh3p3kqrzilygb4m	375	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	376	1	31	31	CD
work_2hfvnli6qndh3p3kqrzilygb4m	376	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	377	1	Hofstra	Hofstra	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	3	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	4	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	5	W.	W.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	7	Osinga	Osinga	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	9	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	11	Tan	Tan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	12	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	377	13	Sindhunata	Sindhunata	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	15	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	17	Wu	Wu	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	19	Y.	Y.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	21	Kamsteeg	Kamsteeg	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	23	E.-J.	E.-J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	25	Stulp	Stulp	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	27	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	28	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	30	van	van	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	31	Ravenswaaij	Ravenswaaij	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	32	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	377	33	Arts	Arts	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	35	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	37	Majoor	Majoor	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	38	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	377	39	Krakauer	Krakauer	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	40	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	41	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	42	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	43	Angrist	Angrist	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	44	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	45	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	46	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	377	47	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	48	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	377	49	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	378	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	378	2	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	378	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	378	4	Nat	Nat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	378	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	379	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	379	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	380	1	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	380	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	380	3	445	445	CD
work_2hfvnli6qndh3p3kqrzilygb4m	380	4	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	380	5	447	447	CD
work_2hfvnli6qndh3p3kqrzilygb4m	380	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	381	1	32	32	CD
work_2hfvnli6qndh3p3kqrzilygb4m	381	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	382	1	Edery	edery	NN
work_2hfvnli6qndh3p3kqrzilygb4m	382	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	3	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	5	Attie	Attie	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	7	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	9	Amiel	Amiel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	11	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	13	Pelet	Pelet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	15	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	382	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	17	Eng	Eng	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	19	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	21	Hofstra	Hofstra	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	23	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	24	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	26	Martelli	Martelli	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	28	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	30	Bidaud	Bidaud	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	31	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	32	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	33	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	34	Munnich	Munnich	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	382	35	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	382	36	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	383	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	383	2	Lyonnet	Lyonnet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	383	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	383	4	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	383	5	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	383	6	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	383	7	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	383	8	Nat	Nat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	383	9	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	384	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	384	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	385	1	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	385	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	385	3	442	442	CD
work_2hfvnli6qndh3p3kqrzilygb4m	385	4	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	385	5	444	444	CD
work_2hfvnli6qndh3p3kqrzilygb4m	385	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	386	1	33	33	CD
work_2hfvnli6qndh3p3kqrzilygb4m	386	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	387	1	Seri	Seri	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	3	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	5	Yin	Yin	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	7	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	9	Barone	Barone	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	11	V.	V.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	13	Bolino	Bolino	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	15	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	17	Celli	Celli	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	19	I.	I.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	21	Bocciardi	Bocciardi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	23	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	25	Pasini	Pasini	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	27	B.	B.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	29	Ceccherini	Ceccherini	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	31	I.	I.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	33	Lerone	Lerone	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	35	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	37	Kristoffersson	Kristoffersson	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	39	U.	U.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	40	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	387	41	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	42	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	387	43	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	388	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	388	2	1997	1997	CD
work_2hfvnli6qndh3p3kqrzilygb4m	388	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	388	4	Hum	hum	UH
work_2hfvnli6qndh3p3kqrzilygb4m	388	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	389	1	Mutat	Mutat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	389	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	390	1	9	9	CD
work_2hfvnli6qndh3p3kqrzilygb4m	390	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	390	3	243–249	243–249	CD
work_2hfvnli6qndh3p3kqrzilygb4m	390	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	391	1	34	34	CD
work_2hfvnli6qndh3p3kqrzilygb4m	391	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	392	1	Pasini	Pasini	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	3	B.	B.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	5	Borrello	Borrello	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	7	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	8	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	10	Greco	Greco	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	12	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	392	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	14	Bongarzone	Bongarzone	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	16	I.	I.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	18	Luo	Luo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	20	Y.	Y.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	21	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	22	Mondellini	Mondellini	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	24	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	26	Alberti	Alberti	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	28	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	30	Miranda	Miranda	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	31	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	32	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	33	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	34	Arighi	Arighi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	35	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	36	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	37	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	38	Bocciardi	Bocciardi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	39	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	40	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	41	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	392	42	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	43	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	392	44	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	393	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	393	2	1995	1995	CD
work_2hfvnli6qndh3p3kqrzilygb4m	393	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	393	4	Nat	Nat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	393	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	394	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	394	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	395	1	10	10	CD
work_2hfvnli6qndh3p3kqrzilygb4m	395	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	395	3	35	35	CD
work_2hfvnli6qndh3p3kqrzilygb4m	395	4	–	–	SYM
work_2hfvnli6qndh3p3kqrzilygb4m	395	5	40	40	CD
work_2hfvnli6qndh3p3kqrzilygb4m	395	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	396	1	35	35	CD
work_2hfvnli6qndh3p3kqrzilygb4m	396	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	397	1	Iwashita	Iwashita	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	397	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	397	3	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	397	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	397	5	Murakami	Murakami	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	397	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	397	7	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	397	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	397	9	Asai	Asai	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	397	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	397	11	N.	N.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	397	12	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	397	13	Takahashi	Takahashi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	397	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	397	15	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	397	16	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	397	17	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	397	18	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	397	19	Hum	hum	UH
work_2hfvnli6qndh3p3kqrzilygb4m	397	20	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	398	1	Mol	Mol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	398	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	399	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	399	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	400	1	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	400	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	400	3	1577–1580	1577–1580	CD
work_2hfvnli6qndh3p3kqrzilygb4m	400	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	401	1	36	36	CD
work_2hfvnli6qndh3p3kqrzilygb4m	401	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	402	1	Carlomagno	Carlomagno	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	3	F.	F.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	5	De	De	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	6	Vita	Vita	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	8	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	10	Berlingieri	Berlingieri	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	12	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	13	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	15	de	de	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	16	Franciscis	Franciscis	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	18	V.	V.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	20	Melillo	Melillo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	21	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	22	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	23	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	25	Colantuoni	Colantuoni	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	27	V.	V.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	29	Kraus	Kraus	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	31	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	32	H.	H.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	33	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	34	Di	Di	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	35	Fiore	Fiore	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	37	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	38	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	39	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	40	Fusco	Fusco	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	402	41	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	402	42	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	403	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	403	2	Santoro	Santoro	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	403	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	403	4	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	403	5	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	403	6	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	403	7	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	403	8	EMBO	EMBO	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	403	9	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	404	1	15	15	CD
work_2hfvnli6qndh3p3kqrzilygb4m	404	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	404	3	2717–2725	2717–2725	CD
work_2hfvnli6qndh3p3kqrzilygb4m	404	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	405	1	37	37	CD
work_2hfvnli6qndh3p3kqrzilygb4m	405	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	406	1	Pelet	Pelet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	3	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	5	Geneste	Geneste	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	7	O.	O.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	9	Edery	Edery	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	11	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	12	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	13	Pasini	Pasini	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	15	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	406	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	17	Chappuls	Chappuls	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	19	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	21	Attie	Attie	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	23	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	25	Munnich	Munnich	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	27	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	406	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	29	Lenoir	Lenoir	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	31	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	33	Lyonnet	Lyonnet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	35	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	36	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	406	37	Billaud	Billaud	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	406	39	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	40	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	406	41	1998	1998	CD
work_2hfvnli6qndh3p3kqrzilygb4m	406	42	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	406	43	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	44	Clin	Clin	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	406	45	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	407	1	Invest	invest	VB
work_2hfvnli6qndh3p3kqrzilygb4m	407	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	408	1	101	101	CD
work_2hfvnli6qndh3p3kqrzilygb4m	408	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	408	3	1415–1423	1415–1423	CD
work_2hfvnli6qndh3p3kqrzilygb4m	408	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	409	1	38	38	CD
work_2hfvnli6qndh3p3kqrzilygb4m	409	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	410	1	Sakai	Sakai	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	410	3	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	410	5	Ohtani	Ohtani	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	410	7	N.	N.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	410	9	McGee	McGee	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	410	11	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	12	L.	L.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	410	14	Robbins	Robbins	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	410	16	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	17	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	18	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	410	19	Dryja	Dryja	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	410	21	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	22	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	23	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	410	24	1991	1991	CD
work_2hfvnli6qndh3p3kqrzilygb4m	410	25	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	410	26	Nature	Nature	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	27	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	410	28	London	London	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	410	29	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	410	30	353	353	CD
work_2hfvnli6qndh3p3kqrzilygb4m	410	31	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	410	32	83	83	CD
work_2hfvnli6qndh3p3kqrzilygb4m	410	33	–	–	SYM
work_2hfvnli6qndh3p3kqrzilygb4m	410	34	86	86	CD
work_2hfvnli6qndh3p3kqrzilygb4m	410	35	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	411	1	39	39	CD
work_2hfvnli6qndh3p3kqrzilygb4m	411	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	412	1	Otterson	Otterson	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	412	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	412	3	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	412	4	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	412	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	412	6	Chen	Chen	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	412	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	412	8	W.	W.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	412	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	412	10	Coxon	Coxon	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	412	11	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	412	12	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	413	1	B.	B.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	413	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	413	3	Khleif	Khleif	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	413	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	413	5	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	413	6	N.	N.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	413	7	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	413	8	Kaye	Kaye	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	413	9	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	413	10	F.	F.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	413	11	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	414	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	414	2	1997	1997	CD
work_2hfvnli6qndh3p3kqrzilygb4m	414	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	414	4	Proc	Proc	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	414	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	415	1	Natl	Natl	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	415	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	416	1	Acad	Acad	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	416	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	417	1	Sci	Sci	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	417	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	418	1	USA	USA	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	418	2	94	94	CD
work_2hfvnli6qndh3p3kqrzilygb4m	418	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	418	4	12036	12036	CD
work_2hfvnli6qndh3p3kqrzilygb4m	418	5	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	418	6	12040	12040	CD
work_2hfvnli6qndh3p3kqrzilygb4m	418	7	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	419	1	40	40	CD
work_2hfvnli6qndh3p3kqrzilygb4m	419	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	420	1	Rarve	rarve	JJ
work_2hfvnli6qndh3p3kqrzilygb4m	420	2	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	420	3	Harel	Harel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	5	N.	N.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	7	Kerem	Kerem	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	9	E.	E.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	11	Nissim	Nissim	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	12	-	-	HYPH
work_2hfvnli6qndh3p3kqrzilygb4m	420	13	Rafinia	Rafinia	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	14	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	15	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	16	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	17	Madjar	Madjar	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	18	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	19	I.	I.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	20	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	21	Goshen	Goshen	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	23	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	25	Augarten	Augarten	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	26	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	27	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	420	28	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	29	Rahat	Rahat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	30	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	31	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	420	32	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	33	Hurwitz	Hurwitz	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	35	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	420	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	37	Darvasi	Darvasi	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	420	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	420	39	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	421	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	421	2	Kerem	Kerem	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	421	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	421	4	B.	B.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	422	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	422	2	1997	1997	CD
work_2hfvnli6qndh3p3kqrzilygb4m	422	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	422	4	Am	Am	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	422	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	423	1	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	423	2	Hum	Hum	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	423	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	424	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	424	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	425	1	60	60	CD
work_2hfvnli6qndh3p3kqrzilygb4m	425	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	425	3	87–94	87–94	CD
work_2hfvnli6qndh3p3kqrzilygb4m	425	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	426	1	41	41	CD
work_2hfvnli6qndh3p3kqrzilygb4m	426	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	427	1	Bedell	Bedell	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	427	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	427	3	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	427	4	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	427	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	427	6	Jenkins	Jenkins	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	427	7	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	427	8	N.	N.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	427	9	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	428	1	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	428	2	Copeland	Copeland	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	428	3	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	428	4	N.	N.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	428	5	G.	G.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	428	6	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	428	7	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	428	8	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	428	9	Nat	Nat	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	428	10	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	429	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	429	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	430	1	12	12	CD
work_2hfvnli6qndh3p3kqrzilygb4m	430	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	430	3	229	229	CD
work_2hfvnli6qndh3p3kqrzilygb4m	430	4	–	–	:
work_2hfvnli6qndh3p3kqrzilygb4m	430	5	232	232	CD
work_2hfvnli6qndh3p3kqrzilygb4m	430	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	431	1	42	42	CD
work_2hfvnli6qndh3p3kqrzilygb4m	431	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	432	1	Duttlinger	Duttlinger	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	3	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	5	Manova	Manova	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	7	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	9	Chu	Chu	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	11	T.	T.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	12	Y.	Y.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	14	Gyssler	Gyssler	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	16	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	18	Zelenetz	Zelenetz	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	20	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	21	D.	D.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	22	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	23	Bachvarova	Bachvarova	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	24	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	25	R.	R.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	26	F.	F.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	27	&	&	CC
work_2hfvnli6qndh3p3kqrzilygb4m	432	28	Besmer	Besmer	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	30	P.	P.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	31	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	432	32	1993	1993	CD
work_2hfvnli6qndh3p3kqrzilygb4m	432	33	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	432	34	Development	development	NN
work_2hfvnli6qndh3p3kqrzilygb4m	432	35	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	432	36	Cambridge	Cambridge	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	37	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	38	U.K.	U.K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	432	39	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	432	40	118	118	CD
work_2hfvnli6qndh3p3kqrzilygb4m	432	41	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	432	42	705–717	705–717	CD
work_2hfvnli6qndh3p3kqrzilygb4m	432	43	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	433	1	43	43	CD
work_2hfvnli6qndh3p3kqrzilygb4m	433	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	434	1	Slaugenhaupt	Slaugenhaupt	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	3	S.	S.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	4	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	5	Blumenfeld	Blumenfeld	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	6	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	7	A.	A.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	8	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	9	Liebert	Liebert	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	10	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	11	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	12	B.	B.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	13	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	14	Mull	Mull	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	15	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	16	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	17	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	18	MacCormack	MacCormack	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	19	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	20	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	21	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	22	LeBel	LeBel	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	23	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	24	A.	a.	NN
work_2hfvnli6qndh3p3kqrzilygb4m	434	25	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	26	O’Leary	O’Leary	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	27	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	28	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	29	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	30	Breakefield	Breakefield	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	31	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	32	X.	X.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	33	O.	O.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	34	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	35	Maayan	Maayan	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	36	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	37	C.	C.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	38	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	39	McCormick	McCormick	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	40	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	41	M.	M.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	42	K.	K.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	43	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	434	44	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	45	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	434	46	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	435	1	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	435	2	1996	1996	CD
work_2hfvnli6qndh3p3kqrzilygb4m	435	3	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	435	4	Am	be	VBP
work_2hfvnli6qndh3p3kqrzilygb4m	435	5	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	436	1	J.	J.	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	436	2	Hum	Hum	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	436	3	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	437	1	Genet	Genet	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	437	2	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	438	1	59	59	CD
work_2hfvnli6qndh3p3kqrzilygb4m	438	2	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	438	3	55	55	CD
work_2hfvnli6qndh3p3kqrzilygb4m	438	4	(	(	-LRB-
work_2hfvnli6qndh3p3kqrzilygb4m	438	5	abstr	abstr	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	438	6	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	438	7	)	)	-RRB-
work_2hfvnli6qndh3p3kqrzilygb4m	438	8	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	439	1	Bolk	Bolk	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	439	2	et	et	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	439	3	al	al	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	439	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	440	1	PNAS	PNAS	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	440	2	u	u	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	440	3	January	January	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	440	4	4	4	CD
work_2hfvnli6qndh3p3kqrzilygb4m	440	5	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	440	6	2000	2000	CD
work_2hfvnli6qndh3p3kqrzilygb4m	440	7	u	u	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	440	8	vol	vol	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	440	9	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	441	1	97	97	CD
work_2hfvnli6qndh3p3kqrzilygb4m	441	2	u	u	NNS
work_2hfvnli6qndh3p3kqrzilygb4m	441	3	no	no	UH
work_2hfvnli6qndh3p3kqrzilygb4m	441	4	.	.	.
work_2hfvnli6qndh3p3kqrzilygb4m	442	1	1	1	CD
work_2hfvnli6qndh3p3kqrzilygb4m	442	2	u	u	CD
work_2hfvnli6qndh3p3kqrzilygb4m	442	3	273	273	CD
work_2hfvnli6qndh3p3kqrzilygb4m	442	4	G	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	5	EN	EN	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	6	ET	ET	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	7	IC	ic	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	8	S	s	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	9	D	d	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	10	o	o	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	11	w	w	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	12	n	n	XX
work_2hfvnli6qndh3p3kqrzilygb4m	442	13	lo	lo	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	14	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	442	15	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	16	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	17	d	d	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	18	a	a	DT
work_2hfvnli6qndh3p3kqrzilygb4m	442	19	t	t	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	20	C	c	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	21	a	a	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	22	rn	rn	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	23	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	24	g	g	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	25	ie	ie	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	26	M	M	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	27	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	28	llo	llo	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	29	n	n	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	30	U	u	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	31	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	442	32	iv	iv	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	33	e	e	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	34	rs	rs	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	35	ity	ity	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	36	o	o	XX
work_2hfvnli6qndh3p3kqrzilygb4m	442	37	n	n	CC
work_2hfvnli6qndh3p3kqrzilygb4m	442	38	A	A	NNP
work_2hfvnli6qndh3p3kqrzilygb4m	442	39	p	p	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	40	ri	ri	FW
work_2hfvnli6qndh3p3kqrzilygb4m	442	41	l	l	NN
work_2hfvnli6qndh3p3kqrzilygb4m	442	42	5	5	CD
work_2hfvnli6qndh3p3kqrzilygb4m	442	43	,	,	,
work_2hfvnli6qndh3p3kqrzilygb4m	442	44	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	442	45	0	0	CD
work_2hfvnli6qndh3p3kqrzilygb4m	442	46	2	2	CD
work_2hfvnli6qndh3p3kqrzilygb4m	442	47	1	1	CD