id	sid	tid	token	lemma	pos
work_gukk34cj2ba2hfeeqnbcodfs6m	1	1	ARTICLE	ARTICLE	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	2	Worldwide	Worldwide	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	3	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	4	spectrum	spectrum	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	5	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	6	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	7	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	1	8	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	9	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	10	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	1	11	ancient	ancient	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	1	12	founder	founder	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	13	origin	origin	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	14	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	1	16	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	1	17	70A?G	70a?g	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	1	18	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	19	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	1	21	untranslated	untranslated	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	1	22	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	23	Maaret	Maaret	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	24	Ridanpää1,2	Ridanpää1,2	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	25	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	26	Pertti	Pertti	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	27	Sistonen3	Sistonen3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	28	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	29	Susanna	Susanna	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	30	Rockas1,2	rockas1,2	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	1	31	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	32	David	David	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	33	L	L	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	34	Rimoin4	Rimoin4	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	35	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	36	Outi	Outi	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	37	Mäkitie5	Mäkitie5	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	38	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	1	39	Ilkka	Ilkka	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	40	Kaitila*,2,6	Kaitila*,2,6	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	41	1Folkhälsan	1folkhälsan	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	1	42	Institute	Institute	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	43	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	44	Genetics	Genetics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	45	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	46	Biomedicum	Biomedicum	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	47	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	48	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	49	FI-00014	FI-00014	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	1	50	University	University	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	51	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	52	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	53	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	54	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	55	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	1	56	2Department	2department	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	1	57	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	58	Medical	Medical	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	59	Genetics	Genetics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	60	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	61	Biomedicum	Biomedicum	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	62	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	63	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	64	FI-00014	FI-00014	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	1	65	University	University	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	66	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	67	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	68	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	69	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	70	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	1	71	3Finnish	3Finnish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	72	Red	Red	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	73	Cross	Cross	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	74	Blood	Blood	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	75	Transfusion	Transfusion	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	76	Service	Service	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	77	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	78	FI-00310	FI-00310	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	79	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	80	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	81	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	82	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	1	83	4Cedar	4Cedar	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	84	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	1	85	Sinai	Sinai	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	86	Medical	Medical	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	87	Center	Center	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	88	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	89	Los	Los	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	90	Angeles	Angeles	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	91	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	92	California	California	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	93	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	94	CA	CA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	95	90048	90048	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	1	96	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	97	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	98	;	;	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	99	5Hospital	5hospital	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	1	100	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	101	Children	Children	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	1	102	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	1	103	Adolescents	Adolescents	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	1	104	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	105	FI-00029	FI-00029	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	106	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	107	University	University	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	108	Central	Central	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	109	Hospital	Hospital	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	110	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	111	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	112	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	1	113	6Department	6Department	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	114	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	115	Clinical	Clinical	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	116	Genetics	Genetics	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	1	117	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	118	FI-00029	FI-00029	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	119	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	120	University	University	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	121	Central	Central	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	122	Hospital	Hospital	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	123	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	124	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	125	Pleiotropic	Pleiotropic	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	126	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	1	127	recessively	recessively	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	1	128	inherited	inherit	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	1	129	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	130	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	1	131	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	132	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	133	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	1	134	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	135	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	1	136	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	1	137	due	due	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	1	138	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	139	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	1	140	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	141	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	1	142	untranslated	untranslated	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	1	143	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	144	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	145	on	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	146	chromosome	chromosome	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	147	9p13-p12	9p13-p12	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	1	148	encoding	encode	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	1	149	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	1	150	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	151	component	component	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	152	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	153	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	154	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	1	155	endoribonuclease	endoribonuclease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	1	156	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	2	1	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	2	2	describe	describe	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	2	3	36	36	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	2	4	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	2	5	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	2	6	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	2	7	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	2	8	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	2	9	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	2	10	91	91	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	2	11	Finnish	Finnish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	2	12	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	2	13	44	44	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	2	14	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	2	15	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	2	16	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	2	17	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	2	18	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	2	19	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	3	1	Based	base	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	2	on	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	3	their	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	3	4	nature	nature	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	5	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	3	6	localisation	localisation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	3	8	these	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	3	9	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	3	10	can	can	MD
work_gukk34cj2ba2hfeeqnbcodfs6m	3	11	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	3	12	classified	classify	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	13	into	into	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	14	three	three	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	3	15	categories	category	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	3	16	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	3	17	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	3	18	affecting	affect	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	3	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	3	20	promoter	promoter	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	21	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	22	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	3	23	small	small	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	3	24	changes	change	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	3	25	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	26	conserved	conserved	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	3	27	nucleotides	nucleotide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	3	28	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	29	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	3	30	transcript	transcript	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	31	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	3	32	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	3	33	insertions	insertion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	3	34	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	3	35	duplications	duplication	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	3	36	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	37	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	3	38	5	5	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	3	39	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	3	40	end	end	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	41	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	42	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	3	43	transcript	transcript	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	3	44	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	4	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	4	2	only	only	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	4	3	known	know	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	4	4	functional	functional	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	4	5	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	4	6	that	that	WDT
work_gukk34cj2ba2hfeeqnbcodfs6m	4	7	seemed	seem	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	4	8	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	4	9	avoid	avoid	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	4	10	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	4	11	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	4	12	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	4	13	nucleolar	nucleolar	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	4	14	localisation	localisation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	4	15	signal	signal	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	4	16	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	4	17	between	between	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	4	18	nucleotides	nucleotide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	4	19	23	23	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	4	20	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	4	21	62	62	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	4	22	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	5	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	5	2	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	5	3	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	5	4	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	5	5	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	5	6	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	5	7	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	5	8	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	5	9	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	5	10	base	base	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	5	11	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	5	12	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	5	13	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	5	14	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	5	15	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	5	16	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	5	17	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	5	18	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	6	1	This	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	6	2	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	6	3	contributed	contribute	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	6	4	92	92	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	6	5	%	%	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	6	6	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	6	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	6	8	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	6	9	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	6	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	6	11	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	6	12	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	6	13	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	6	14	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	7	1	Our	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	7	2	results	result	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	7	3	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	7	4	linkage	linkage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	5	disequilibrium	disequilibrium	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	6	based	base	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	7	maximum	maximum	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	7	8	likelihood	likelihood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	9	estimates	estimate	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	7	10	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	11	close	close	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	7	12	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	7	13	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	7	14	genealogical	genealogical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	7	15	studies	study	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	7	16	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	7	17	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	7	18	haplotype	haplotype	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	7	19	data	datum	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	7	20	suggested	suggest	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	7	21	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	7	23	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	24	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	7	25	introduced	introduce	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	26	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	27	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	7	28	some	some	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	7	29	3900	3900	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	7	30	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	7	31	4800	4800	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	7	32	years	year	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	7	33	ago	ago	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	7	34	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	7	35	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	7	36	before	before	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	37	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	7	38	expansion	expansion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	39	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	40	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	7	41	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	7	42	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	8	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	8	2	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	8	3	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	8	4	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	8	5	accounted	account	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	8	6	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	8	7	48	48	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	8	8	%	%	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	8	9	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	8	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	8	11	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	8	12	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	8	13	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	8	14	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	8	15	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	8	16	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	8	17	parts	part	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	8	18	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	8	19	Europe	Europe	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	8	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	8	21	North	North	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	8	22	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	8	23	South	South	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	8	24	America	America	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	8	25	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	8	26	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	8	27	Near	Near	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	8	28	East	East	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	8	29	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	8	30	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	8	31	Australia	Australia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	8	32	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	9	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	9	2	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	9	3	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	9	4	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	9	5	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	9	6	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	9	7	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	9	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	9	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	9	10	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	9	11	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	9	12	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	9	13	segregated	segregate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	9	14	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	9	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	9	16	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	9	17	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	9	18	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	9	19	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	9	20	although	although	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	9	21	shorter	short	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	9	22	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	9	23	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	9	24	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	9	25	most	most	JJS
work_gukk34cj2ba2hfeeqnbcodfs6m	9	26	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	9	27	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	9	28	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	9	29	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	9	30	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	10	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	10	2	23	23	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	10	3	out	out	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	10	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	10	5	these	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	10	6	27	27	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	10	7	chromosomes	chromosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	10	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	10	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	10	10	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	10	11	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	10	12	extended	extend	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	10	13	over	over	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	10	14	60	60	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	10	15	kb	kb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	10	16	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	10	17	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	10	18	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	10	19	therefore	therefore	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	10	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	10	21	all	all	PDT
work_gukk34cj2ba2hfeeqnbcodfs6m	10	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	10	23	chromosomes	chromosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	10	24	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	10	25	likely	likely	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	10	26	arose	arise	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	10	27	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	10	28	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	10	29	solitary	solitary	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	10	30	event	event	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	10	31	many	many	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	10	32	thousands	thousand	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	10	33	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	10	34	years	year	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	10	35	ago	ago	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	10	36	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	11	1	European	European	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	2	Journal	Journal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	3	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	4	Human	Human	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	5	Genetics	Genetics	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	11	6	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	11	7	2002	2002	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	11	8	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	11	9	10	10	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	11	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	11	11	439	439	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	11	12	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	11	13	447	447	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	11	14	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	11	15	doi:10.1038	doi:10.1038	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	16	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	11	17	sj.ejhg.5200824	sj.ejhg.5200824	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	18	Keywords	Keywords	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	11	19	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	11	20	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	21	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	11	22	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	23	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	11	24	ancestral	ancestral	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	11	25	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	26	;	;	,
work_gukk34cj2ba2hfeeqnbcodfs6m	11	27	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	28	estimation	estimation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	29	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	11	30	untranslated	untranslated	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	11	31	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	32	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	11	33	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	34	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	11	35	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	36	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	37	Introduction	Introduction	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	38	Cartilage	Cartilage	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	39	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	11	40	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	41	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	42	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	11	43	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	44	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	11	45	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	11	46	McKusick	McKusick	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	47	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	11	48	type	type	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	49	meta-	meta-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	50	physeal	physeal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	51	chondrodysplasia	chondrodysplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	52	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	11	53	MIM	MIM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	11	54	250250	250250	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	11	55	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	11	56	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	11	57	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	11	58	pleiotropic	pleiotropic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	11	59	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	60	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	11	61	characterised	characterise	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	62	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	63	disproportionate	disproportionate	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	11	64	short	short	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	11	65	stature	stature	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	11	66	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	12	1	Other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	12	2	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	12	3	features	feature	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	12	4	include	include	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	12	5	hypoplastic	hypoplastic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	12	6	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	12	8	defective	defective	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	12	9	immunity	immunity	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	10	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	12	11	risk	risk	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	12	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	13	malignancies	malignancy	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	12	14	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	12	15	Hirschsprung	Hirschsprung	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	12	16	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	17	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	12	18	hypoplastic	hypoplastic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	12	19	anaemia	anaemia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	12	21	impaired	impair	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	22	spermatogenesis	spermatogenesis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	23	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	12	24	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	12	25	increased	increase	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	12	26	mortality.1	mortality.1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	12	27	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	12	28	6	6	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	12	29	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	12	30	variation	variation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	31	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	32	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	12	33	clinical	clinical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	12	34	severity	severity	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	35	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	12	36	remarkable	remarkable	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	12	37	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	12	38	even	even	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	12	39	within	within	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	40	affected	affect	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	12	41	siblings	sibling	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	12	42	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	13	1	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	2	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	13	3	espe-	espe-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	4	cially	cially	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	13	5	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	13	6	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	13	8	Old	Old	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	9	Order	Order	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	10	Amish	Amish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	11	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	12	North	North	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	13	America	America	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	14	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	13	15	Finns.1,2	Finns.1,2	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	16	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	13	17	carrier	carrier	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	18	frequencies	frequencie	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	13	19	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	13	21	Amish	Amish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	22	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	13	23	Finns	Finns	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	13	24	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	25	calculated	calculate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	26	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	13	27	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	13	28	as	as	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	13	29	high	high	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	13	30	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	31	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	32	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	13	33	19	19	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	34	Received	receive	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	35	11	11	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	36	February	February	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	37	2002	2002	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	38	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	39	revised	revise	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	40	25	25	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	41	March	March	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	42	2002	2002	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	43	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	44	accepted	accept	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	45	17	17	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	46	April	April	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	47	2002	2002	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	48	*	*	NFP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	49	Correspondence	correspondence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	50	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	51	I	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	52	Kaitila	kaitila	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	53	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	54	Department	Department	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	55	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	56	Clinical	Clinical	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	57	Genetics	Genetics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	58	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	13	59	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	60	University	University	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	61	Central	Central	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	62	Hospital	Hospital	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	63	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	13	64	F1	F1	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	65	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	13	66	00029	00029	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	67	HUS	HUS	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	68	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	13	69	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	70	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	71	Tel	tel	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	72	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	73	+358	+358	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	74	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	13	75	9	9	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	76	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	13	77	47172186	47172186	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	78	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	79	Fax	fax	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	80	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	81	+358	+358	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	82	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	13	83	9	9	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	84	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	13	85	47176089	47176089	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	86	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	87	E	e	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	88	-	-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	89	mail	mail	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	90	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	91	ilkka.kaitila@hus.fi	ilkka.kaitila@hus.fi	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	92	European	European	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	93	Journal	Journal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	94	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	95	Human	Human	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	96	Genetics	Genetics	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	13	97	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	13	98	2002	2002	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	99	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	13	100	10	10	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	101	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	13	102	439	439	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	103	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	104	447	447	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	105	ª	ª	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	106	2002	2002	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	107	Nature	Nature	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	108	Publishing	Publishing	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	109	Group	Group	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	110	All	All	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	111	rights	right	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	13	112	reserved	reserve	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	113	1018	1018	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	114	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	13	115	4813/02	4813/02	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	116	$	$	$
work_gukk34cj2ba2hfeeqnbcodfs6m	13	117	25.00	25.00	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	118	www.nature.com/ejhg	www.nature.com/ejhg	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	119	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	13	120	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	121	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	13	122	76	76	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	13	123	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	13	124	respectively.2,7	respectively.2,7	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	13	125	There	there	EX
work_gukk34cj2ba2hfeeqnbcodfs6m	13	126	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	13	127	no	no	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	13	128	precise	precise	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	13	129	measure	measure	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	130	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	131	worldwide	worldwide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	13	132	incidence	incidence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	133	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	13	134	although	although	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	135	cases	case	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	13	136	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	137	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	138	observed	observe	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	139	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	13	140	numerous	numerous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	13	141	populations	population	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	13	142	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	13	143	International	International	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	144	Skeletal	Skeletal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	145	Dysplasia	Dysplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	146	Registry	Registry	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	13	147	;	;	,
work_gukk34cj2ba2hfeeqnbcodfs6m	13	148	personal	personal	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	13	149	observations	observation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	13	150	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	13	151	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	14	1	After	after	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	2	initial	initial	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	3	mapping	mapping	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	6	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	7	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	8	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	9	9p13,8	9p13,8	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	14	10	linkage	linkage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	11	disequilibrium	disequilibrium	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	12	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	14	13	detected	detect	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	14	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	15	Amish	Amish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	16	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	14	17	Finns.7,9	Finns.7,9	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	18	Based	base	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	19	on	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	21	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	22	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	23	history	history	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	24	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	14	25	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	26	data	datum	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	14	27	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	14	28	only	only	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	14	29	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	14	30	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	31	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	14	32	suggested	suggest	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	33	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	14	34	account	account	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	14	35	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	36	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	37	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	38	cases,1,7	cases,1,7	UH
work_gukk34cj2ba2hfeeqnbcodfs6m	14	39	but	but	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	14	40	recently	recently	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	14	41	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	14	42	multiple	multiple	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	43	allelic	allelic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	44	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	14	45	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	46	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	47	accepted	accept	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	48	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	49	being	be	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	14	50	possible.10	possible.10	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	51	Among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	52	Finns	Finns	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	53	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	14	54	85	85	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	14	55	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	14	56	95	95	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	14	57	%	%	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	58	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	59	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	60	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	61	chromosomes	chromosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	14	62	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	14	63	estimated	estimate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	64	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	14	65	originate	originate	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	14	66	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	67	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	68	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	69	ancestor	ancestor	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	70	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	14	71	contain	contain	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	14	72	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	73	identical	identical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	74	mutation.9	mutation.9	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	14	75	As	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	76	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	77	result	result	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	78	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	79	several	several	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	80	years	year	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	14	81	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	82	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	83	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	14	84	physical	physical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	85	mapping,11	mapping,11	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	86	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	87	first	first	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	88	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	89	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	14	90	causing	cause	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	14	91	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	14	92	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	93	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	94	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	14	95	described.12	described.12	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	96	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	97	untranslated	untranslated	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	98	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	99	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	100	encodes	encode	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	14	101	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	102	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	103	component	component	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	104	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	105	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	14	106	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	107	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	14	108	complex	complex	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	14	109	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	15	1	Normally	normally	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	15	2	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	15	3	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	15	4	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	15	5	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	15	6	complex	complex	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	7	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	8	involved	involve	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	9	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	10	multiple	multiple	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	11	cellular	cellular	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	12	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	15	13	mitochondrial	mitochondrial	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	14	functions	function	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	15	15	though	though	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	15	17	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	18	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	15	19	causing	cause	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	15	20	func-	func-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	21	tional	tional	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	22	impairment	impairment	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	23	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	24	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	15	25	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	15	26	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	27	product	product	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	28	remains	remain	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	29	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	15	30	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	15	31	characterised.12,13	characterised.12,13	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	15	32	Cartilage	Cartilage	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	15	33	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	15	34	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	35	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	15	36	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	37	counted	count	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	38	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	39	being	be	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	15	40	part	part	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	41	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	42	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	15	43	so	so	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	15	44	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	15	45	called	call	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	46	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	47	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	48	heritage	heritage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	49	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	15	50	which	which	WDT
work_gukk34cj2ba2hfeeqnbcodfs6m	15	51	consists	consist	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	52	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	53	some	some	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	15	54	thirty	thirty	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	15	55	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	56	diseases	disease	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	15	57	enriched	enrich	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	58	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	59	Finland14	Finland14	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	15	60	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	15	61	has	have	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	62	its	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	15	63	origin	origin	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	64	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	65	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	15	66	special	special	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	15	67	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	68	history	history	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	69	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	15	70	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	15	71	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	16	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	16	2	current	current	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	16	3	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	4	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	16	5	thought	think	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	6	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	16	7	have	have	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	16	8	originated	originate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	9	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	10	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	16	11	relatively	relatively	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	16	12	small	small	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	16	13	founding	found	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	16	14	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	15	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	16	16	very	very	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	16	17	little	little	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	16	18	immi-	immi-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	19	gration	gration	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	20	has	have	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	16	21	occurred	occur	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	22	during	during	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	23	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	16	24	last	last	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	16	25	80	80	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	16	26	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	16	27	100	100	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	16	28	generations	generation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	16	29	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	30	expansion.15	expansion.15	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	16	31	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	16	32	17	17	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	16	33	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	16	34	early	early	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	16	35	settlement	settlement	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	36	up	up	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	37	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	38	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	16	39	1500s	1500	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	16	40	covered	cover	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	41	only	only	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	16	42	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	16	43	southwest	southwest	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	44	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	16	45	southeast	southeast	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	16	46	regions	region	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	16	47	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	16	48	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	16	49	coastal	coastal	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	16	50	areas	area	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	16	51	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	52	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	16	53	country	country	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	16	54	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	17	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	17	2	northern	northern	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	17	3	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	17	4	eastern	eastern	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	17	5	area	area	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	17	6	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	17	7	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	17	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	17	9	late	late	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	17	10	settlement	settlement	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	17	11	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	17	12	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	17	13	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	17	14	inhabited	inhabit	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	17	15	only	only	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	17	16	15	15	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	17	17	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	17	18	25	25	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	17	19	generations	generation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	17	20	ago	ago	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	17	21	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	18	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	18	2	archaeological	archaeological	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	18	3	findings	finding	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	18	4	confirm	confirm	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	18	5	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	18	6	there	there	EX
work_gukk34cj2ba2hfeeqnbcodfs6m	18	7	has	have	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	18	8	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	18	9	sparse	sparse	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	18	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	18	11	although	although	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	18	12	continuous	continuous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	18	13	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	18	14	inhabitation	inhabitation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	18	15	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	18	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	18	17	southern	southern	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	18	18	coastal	coastal	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	18	19	areas	area	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	18	20	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	18	21	about	about	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	18	22	10	10	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	18	23	000	000	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	18	24	years	year	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	18	25	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	18	26	http://virtual.finland.fi/finfo/english/prehistory.html	http://virtual.finland.fi/finfo/english/prehistory.html	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	18	27	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	18	28	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	19	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	19	2	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	19	3	study	study	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	19	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	19	5	we	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	19	6	describe	describe	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	19	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	19	8	results	result	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	19	9	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	19	10	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	19	11	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	19	12	muta-	muta-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	19	13	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	19	14	analyses	analysis	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	19	15	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	19	16	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	19	17	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	19	18	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	19	19	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	19	20	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	19	21	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	19	22	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	19	23	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	19	24	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	19	25	44	44	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	19	26	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	19	27	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	19	28	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	19	29	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	19	30	nationalities	nationality	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	19	31	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	20	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	20	2	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	20	3	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	20	4	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	20	5	introduced	introduce	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	20	6	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	20	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	20	8	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	20	9	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	20	10	3900	3900	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	20	11	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	20	12	4800	4800	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	20	13	years	year	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	20	14	ago	ago	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	20	15	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	20	16	obviously	obviously	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	20	17	well	well	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	20	18	before	before	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	20	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	20	20	expan-	expan-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	20	21	sion	sion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	20	22	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	20	23	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	20	24	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	20	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	21	1	Currently	currently	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	21	2	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	21	3	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	21	4	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	21	5	contributes	contribute	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	21	6	92	92	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	21	7	%	%	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	21	8	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	21	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	21	10	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	21	11	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	21	12	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	21	13	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	21	14	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	21	15	48	48	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	21	16	%	%	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	21	17	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	21	18	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	21	19	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	21	20	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	21	21	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	21	22	collection	collection	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	21	23	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	21	24	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	21	25	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	21	26	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	21	27	several	several	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	21	28	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	21	29	populations	population	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	21	30	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	22	1	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	22	2	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	22	3	demonstrated	demonstrate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	22	4	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	22	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	22	6	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	22	7	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	22	8	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	22	9	segregating	segregate	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	22	10	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	22	11	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	22	12	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	22	13	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	22	14	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	22	15	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	22	16	abroad	abroad	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	22	17	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	22	18	thus	thus	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	22	19	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	22	20	suggesting	suggest	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	22	21	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	22	22	single	single	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	22	23	ancient	ancient	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	22	24	occurrence	occurrence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	22	25	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	22	26	worldwide	worldwide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	22	27	distribution	distribution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	22	28	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	23	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	2	total	total	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	23	3	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	23	4	eight	eight	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	23	5	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	23	6	muta-	muta-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	23	7	tions	tion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	23	8	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	23	10	promoter	promoter	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	11	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	12	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	23	13	28	28	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	23	14	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	23	15	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	23	17	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	23	18	coding	code	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	23	19	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	20	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	21	267	267	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	23	22	nucleotides	nucleotide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	23	23	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	23	24	now	now	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	23	25	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	26	reported	report	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	27	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	23	28	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	23	29	study).12	study).12	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	23	30	Materials	material	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	23	31	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	23	32	methods	method	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	23	33	Subjects	subject	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	23	34	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	23	35	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	23	36	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	23	37	molecular	molecular	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	23	38	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	23	39	study	study	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	40	on	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	41	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	23	42	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	23	43	approved	approve	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	44	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	45	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	23	46	ethical	ethical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	23	47	committee	committee	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	23	48	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	49	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	23	50	Department	Department	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	23	51	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	52	Medical	Medical	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	23	53	Genetics	Genetics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	23	54	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	55	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	23	56	University	University	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	23	57	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	23	58	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	23	59	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	24	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	24	2	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	24	3	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	24	4	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	24	5	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	24	6	referred	refer	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	7	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	8	diagnostic	diagnostic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	24	9	workup	workup	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	10	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	24	11	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	24	12	counselling	counselling	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	13	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	14	all	all	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	24	15	over	over	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	24	17	country	country	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	18	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	24	20	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	24	21	University	University	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	24	22	Central	Central	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	24	23	Hospital	Hospital	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	24	24	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	24	25	where	where	WRB
work_gukk34cj2ba2hfeeqnbcodfs6m	24	26	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	24	27	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	24	28	registry	registry	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	29	has	have	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	24	30	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	31	maintained	maintain	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	32	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	33	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	24	34	epidemiological	epidemiological	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	24	35	surveys	survey	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	24	36	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	37	1974	1974	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	24	38	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	24	39	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	40	1986.2	1986.2	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	24	41	Since	since	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	42	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	24	43	surveys	survey	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	24	44	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	24	45	additional	additional	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	24	46	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	24	47	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	24	48	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	49	studied	study	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	50	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	24	51	evaluated	evaluate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	52	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	24	53	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	24	54	current	current	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	24	55	number	number	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	56	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	57	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	24	58	being	be	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	24	59	158	158	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	24	60	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	24	61	127	127	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	24	62	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	24	63	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	25	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	25	2	clinical	clinical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	25	3	diagnostic	diagnostic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	25	4	features	feature	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	25	5	include	include	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	25	6	disproportionate	disproportionate	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	25	7	short	short	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	25	8	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	25	9	limbed	limbed	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	25	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	25	11	short	short	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	25	12	stature	stature	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	25	13	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	25	14	increased	increase	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	25	15	lumbar	lumbar	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	25	16	lordosis	lordosis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	25	17	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	25	18	joint	joint	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	25	19	laxity	laxity	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	25	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	25	21	extension	extension	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	25	22	limitation	limitation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	25	23	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	25	24	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	25	25	elbows	elbow	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	25	26	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	25	27	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	25	28	bowed	bow	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	25	29	legs	leg	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	25	30	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	26	1	Usually	usually	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	26	2	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	26	3	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	26	4	presented	present	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	26	5	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	26	6	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	26	7	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	26	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	26	9	but	but	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	26	10	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	26	11	inclusion	inclusion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	26	12	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	26	13	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	26	14	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	26	15	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	26	16	accepted	accept	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	26	17	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	26	18	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	26	19	confirmatory	confirmatory	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	26	20	feature	feature	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	26	21	only	only	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	26	22	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	27	1	Radiological	radiological	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	27	2	find-	find-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	27	3	ings	ing	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	27	4	included	include	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	27	5	generalised	generalise	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	27	6	metaphyseal	metaphyseal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	27	7	dysplasia	dysplasia	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	27	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	27	9	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	27	10	normal	normal	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	27	11	skull	skull	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	27	12	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	27	13	spine	spine	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	27	14	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	27	15	childhood	childhood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	27	16	films	film	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	27	17	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	28	1	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	28	2	total	total	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	28	3	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	28	4	115	115	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	28	5	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	28	6	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	28	7	91	91	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	28	8	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	28	9	agreed	agree	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	28	10	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	28	11	participate	participate	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	28	12	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	28	13	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	28	14	study	study	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	28	15	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	28	16	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	28	17	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	28	18	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	28	19	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	28	20	their	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	28	21	custodians	custodian	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	28	22	signed	sign	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	28	23	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	28	24	informed	informed	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	28	25	consent	consent	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	28	26	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	29	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	29	2	birthplaces	birthplace	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	29	3	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	29	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	29	5	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	29	6	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	29	7	’	’	POS
work_gukk34cj2ba2hfeeqnbcodfs6m	29	8	great-	great-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	29	9	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	29	10	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	29	11	inspected	inspect	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	29	12	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	29	13	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	29	14	church	church	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	29	15	parish	parish	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	29	16	regis-	regis-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	29	17	ters	ter	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	29	18	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	30	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	30	2	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	30	3	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	30	4	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	30	5	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	30	6	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	30	7	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	30	8	number	number	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	30	9	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	30	10	countries	country	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	30	11	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	30	12	collected	collect	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	30	13	through	through	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	30	14	diagnostic	diagnostic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	30	15	consultations	consultation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	30	16	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	30	17	clini-	clini-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	30	18	cians	cian	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	30	19	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	30	20	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	30	21	counsellors	counsellor	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	30	22	named	name	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	30	23	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	30	24	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	30	25	acknowledgments	acknowledgment	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	30	26	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	31	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	31	2	essential	essential	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	31	3	diagnostic	diagnostic	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	31	4	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	31	5	demo-	demo-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	31	6	graphic	graphic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	31	7	data	datum	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	31	8	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	31	9	obtained	obtain	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	31	10	through	through	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	31	11	clinical	clinical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	31	12	descriptions	description	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	31	13	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	31	14	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	31	15	’	’	POS
work_gukk34cj2ba2hfeeqnbcodfs6m	31	16	photographs	photograph	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	31	17	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	31	18	laboratory	laboratory	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	31	19	results	result	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	31	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	31	21	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	31	22	copies	copy	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	31	23	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	31	24	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	31	25	skeletal	skeletal	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	31	26	radiographs	radiograph	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	31	27	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	31	28	most	most	JJS
work_gukk34cj2ba2hfeeqnbcodfs6m	31	29	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	31	30	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	32	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	32	2	addition	addition	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	32	3	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	32	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	32	5	consultants	consultant	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	32	6	filled	fill	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	32	7	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	32	8	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	32	9	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	32	10	data	data	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	32	11	form	form	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	32	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	33	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	33	2	ethnic	ethnic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	33	3	back-	back-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	33	4	ground	ground	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	33	5	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	33	6	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	33	7	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	33	8	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	33	9	America	America	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	33	10	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	33	11	Australia	Australia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	33	12	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	33	13	often	often	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	33	14	European	european	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	33	15	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	34	1	Data	datum	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	34	2	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	34	3	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	34	4	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	34	5	obtained	obtain	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	34	6	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	34	7	63	63	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	34	8	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	34	9	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	34	10	53	53	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	34	11	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	34	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	35	1	Seven	seven	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	35	2	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	35	3	these	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	35	4	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	35	5	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	35	6	obtained	obtain	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	35	7	through	through	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	35	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	35	9	International	International	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	10	Skeletal	Skeletal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	11	Dysplasia	Dysplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	12	Regis-	Regis-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	13	try	try	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	35	14	maintained	maintain	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	35	15	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	35	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	35	17	Cedars	Cedars	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	18	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	35	19	Sinai	Sinai	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	20	Medical	Medical	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	21	Center	Center	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	22	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	35	23	Los	Los	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	24	Angeles	Angeles	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	25	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	35	26	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	35	27	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	36	1	DNA	dna	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	36	2	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	36	3	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	36	4	845	845	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	36	5	regular	regular	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	36	6	blood	blood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	36	7	donors	donor	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	36	8	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	36	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	36	10	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	36	11	Red	Red	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	36	12	Cross	Cross	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	36	13	Blood	Blood	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	36	14	Transfusion	Transfusion	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	36	15	Service	Service	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	36	16	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	36	17	studied	study	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	36	18	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	36	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	36	20	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	36	21	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	36	22	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	36	23	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	36	24	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	36	25	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	36	26	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	36	27	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	37	1	Smaller	small	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	37	2	sets	set	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	37	3	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	37	4	control	control	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	37	5	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	37	6	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	37	7	studied	study	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	37	8	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	37	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	37	10	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	37	11	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	37	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	38	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	38	2	control	control	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	3	sample	sample	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	4	registry	registry	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	5	consists	consist	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	38	6	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	7	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	38	8	total	total	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	9	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	10	971	971	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	38	11	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	38	12	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	13	35	35	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	38	14	–	–	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	38	15	55	55	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	38	16	year	year	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	17	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	38	18	old	old	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	38	19	male	male	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	38	20	donors	donor	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	38	21	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	38	22	all	all	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	38	23	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	24	whose	whose	WP$
work_gukk34cj2ba2hfeeqnbcodfs6m	38	25	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	38	26	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	38	27	born	bear	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	28	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	29	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	38	30	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	38	31	geographic	geographic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	38	32	area	area	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	33	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	34	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	38	35	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	38	36	who	who	WP
work_gukk34cj2ba2hfeeqnbcodfs6m	38	37	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	38	38	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	38	39	aware	aware	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	38	40	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	41	any	any	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	38	42	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	43	their	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	38	44	relatives	relative	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	38	45	participating	participate	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	38	46	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	47	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	38	48	study	study	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	49	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	38	50	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	38	51	had	have	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	38	52	no	no	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	38	53	knowledge	knowledge	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	54	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	55	any	any	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	38	56	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	57	their	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	38	58	more	more	RBR
work_gukk34cj2ba2hfeeqnbcodfs6m	38	59	distant	distant	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	38	60	ancestors	ancestor	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	38	61	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	38	62	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	38	63	abroad	abroad	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	38	64	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	39	1	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	39	2	sample	sample	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	39	3	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	39	4	accepted	accept	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	39	5	after	after	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	39	6	obtaining	obtain	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	39	7	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	39	8	written	write	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	39	9	informed	informed	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	39	10	consent	consent	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	39	11	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	39	12	fulfilling	fulfil	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	39	13	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	39	14	criteria	criterion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	39	15	above	above	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	39	16	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	40	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	40	2	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	40	3	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	40	4	collected	collect	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	40	5	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	40	6	eight	eight	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	40	7	regional	regional	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	40	8	centres	centre	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	40	9	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	40	10	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	40	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	40	12	sampling	sampling	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	40	13	density	density	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	40	14	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	40	15	representative	representative	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	40	16	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	40	17	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	40	18	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	40	19	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	40	20	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	40	21	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	40	22	start	start	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	40	23	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	40	24	1900	1900	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	40	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	41	1	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	41	2	sample	sample	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	3	consisted	consist	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	41	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	41	6	buffy	buffy	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	7	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	41	8	coat	coat	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	9	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	41	11	whole	whole	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	41	12	donation	donation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	13	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	41	14	about	about	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	41	15	450	450	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	41	16	ml	ml	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	41	17	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	41	18	generated	generate	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	41	19	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	20	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	41	21	side	side	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	41	22	product	product	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	23	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	24	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	41	25	routine	routine	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	41	26	preparation	preparation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	27	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	28	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	41	29	leukocyte	leukocyte	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	30	depleted	deplete	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	31	red	red	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	41	32	cell	cell	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	33	unit	unit	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	41	34	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	42	1	DNA	DNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	42	2	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	42	3	extracted	extract	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	42	4	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	42	5	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	42	6	modified	modify	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	42	7	salting	salt	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	42	8	out	out	RP
work_gukk34cj2ba2hfeeqnbcodfs6m	42	9	protocol.18	protocol.18	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	42	10	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	42	11	ethical	ethical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	42	12	committee	committee	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	42	13	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	42	14	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	42	15	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	42	16	Red	Red	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	42	17	Cross	Cross	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	42	18	Blood	Blood	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	42	19	Transfusion	Transfusion	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	42	20	Service	Service	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	42	21	approved	approve	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	42	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	42	23	sample	sample	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	42	24	registry	registry	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	42	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	43	1	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	2	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	43	3	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	4	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	5	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	43	6	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	7	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	8	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	9	Ridanpää	Ridanpää	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	12	440	440	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	43	13	European	European	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	14	Journal	Journal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	15	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	16	Human	Human	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	17	Genetics	Genetics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	18	Mutation	Mutation	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	19	detection	detection	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	20	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	21	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	22	DNA	DNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	23	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	43	24	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	43	25	screened	screen	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	26	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	27	insertions	insertion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	43	28	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	43	29	deletions	deletion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	43	30	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	31	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	43	32	promoter	promoter	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	33	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	34	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	43	35	PCR	PCR	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	36	primers	primer	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	43	37	RM3IF	RM3IF	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	38	5’-CTTA-	5’-ctta-	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	43	39	GAAAGTTATGCCCGAAAAC-3	GAAAGTTATGCCCGAAAAC-3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	40	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	43	41	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	43	42	RM3IR	RM3IR	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	43	5’-GAAAGG-	5’-gaaagg-	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	43	44	GGAGGAACAGAGTC-3	ggaggaacagagtc-3	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	45	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	43	46	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	47	amplification	amplification	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	48	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	43	49	5	5	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	43	50	%	%	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	51	Sequagel	Sequagel	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	52	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	43	53	National	National	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	43	54	Diagnostics	Diagnostics	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	43	55	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	43	56	gels	gel	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	43	57	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	58	separation	separation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	43	59	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	44	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	44	2	case	case	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	44	3	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	44	4	changes	change	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	44	5	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	44	6	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	44	7	length	length	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	44	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	44	9	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	44	10	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	44	11	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	44	12	amplified	amplify	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	44	13	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	44	14	RM3F	RM3F	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	44	15	5’-GGCCAGACCATATTTGCATAAG-3	5’-GGCCAGACCATATTTGCATAAG-3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	44	16	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	44	17	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	44	18	RM3R	rm3r	UH
work_gukk34cj2ba2hfeeqnbcodfs6m	44	19	5’-	5’-	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	44	20	CGGACTTTGGAGTGGGAAG-3	CGGACTTTGGAGTGGGAAG-3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	44	21	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	44	22	primers	primer	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	44	23	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	44	24	sequenced	sequence	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	44	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	45	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	45	2	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	45	3	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	45	4	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	45	5	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	45	6	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	45	7	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	45	8	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	45	9	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	45	10	amplified	amplify	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	45	11	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	45	12	PCR	PCR	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	45	13	primers	primer	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	45	14	RM70F	RM70F	.
work_gukk34cj2ba2hfeeqnbcodfs6m	45	15	5’-GTGCTGAAGGCCTGTATCCT-3	5’-gtgctgaaggcctgtatcct-3	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	45	16	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	45	17	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	45	18	RM70R	rm70r	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	45	19	5’-CTAGGGGAGCTGACGGATG-3	5’-CTAGGGGAGCTGACGGATG-3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	45	20	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	45	21	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	46	1	SSCP	SSCP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	46	2	analyses	analysis	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	46	3	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	46	4	performed	perform	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	46	5	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	46	6	0.7xMDE	0.7xmde	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	46	7	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	46	8	FMC	FMC	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	46	9	BioProducts	BioProducts	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	46	10	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	46	11	gels	gel	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	46	12	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	46	13	room	room	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	46	14	temperature	temperature	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	46	15	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	46	16	5W	5W	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	46	17	overnight	overnight	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	46	18	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	47	1	For	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	47	2	sequen-	sequen-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	47	3	cing	cing	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	47	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	47	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	47	6	whole	whole	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	47	7	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	47	8	coding	code	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	47	9	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	47	10	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	47	11	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	47	12	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	47	13	PCR	PCR	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	47	14	primers	primer	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	47	15	RMF	RMF	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	47	16	5’-CCAACTTTCTCACCCTAACCA-3	5’-CCAACTTTCTCACCCTAACCA-3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	47	17	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	47	18	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	47	19	RMR	RMR	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	47	20	5’-AAGGCCAAGAACAGCGTAAA-3	5’-AAGGCCAAGAACAGCGTAAA-3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	47	21	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	47	22	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	47	23	used	use	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	47	24	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	48	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	48	2	some	some	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	48	3	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	48	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	48	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	48	6	3	3	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	48	7	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	48	8	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	48	9	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	48	10	separately	separately	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	48	11	amplified	amplify	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	48	12	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	48	13	sequen-	sequen-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	48	14	cing	ce	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	48	15	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	48	16	RM4F	RM4F	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	48	17	5’-AGAGAGTGCCACGTGCATAC-3	5’-AGAGAGTGCCACGTGCATAC-3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	48	18	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	48	19	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	48	20	RM4R	RM4R	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	48	21	5’-CTTCATAGCAAGGCCAAGAAC-3	5’-CTTCATAGCAAGGCCAAGAAC-3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	48	22	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	48	23	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	49	1	All	all	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	49	2	PAGE	PAGE	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	3	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	49	4	SSCP	SSCP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	5	gels	gel	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	49	6	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	49	7	detected	detect	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	8	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	49	9	silver	silver	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	10	staining.19	staining.19	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	11	Analysis	Analysis	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	12	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	13	polymorphic	polymorphic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	49	14	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	49	15	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	49	16	reconstruction	reconstruction	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	17	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	18	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	49	19	Primers	Primers	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	49	20	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	49	21	separation	separation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	22	conditions	condition	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	49	23	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	24	D9S163	d9s163	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	25	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	26	99AC	99ac	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	49	27	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	28	TESK1	tesk1	ADD
work_gukk34cj2ba2hfeeqnbcodfs6m	49	29	A	a	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	30	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	49	31	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	32	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	33	MN	MN	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	34	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	49	35	CA9	CA9	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	36	C	C	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	37	/	/	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	38	A	A	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	39	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	40	D9S1804	D9S1804	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	41	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	42	89AC	89ac	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	49	43	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	44	47K16T7	47k16t7	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	49	45	SSCP,11	SSCP,11	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	46	16P1	16p1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	49	47	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	48	AB12GS	ab12gs	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	49	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	50	Del13	Del13	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	51	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	52	SIT45S	sit45s	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	49	53	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	54	TP2A	TP2A	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	55	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	56	TA13S	TA13S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	57	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	58	D4S	D4S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	59	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	60	D6S	D6S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	61	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	62	AC1	AC1	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	63	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	64	XL1S	XL1S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	65	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	66	CCS	CCS	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	67	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	49	68	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	49	69	TG2S12	TG2S12	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	70	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	49	71	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	72	described	describe	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	49	73	previously	previously	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	49	74	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	50	1	Marker	marker	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	50	2	delG	delG	,
work_gukk34cj2ba2hfeeqnbcodfs6m	50	3	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	50	4	amplified	amplify	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	50	5	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	50	6	primers	primer	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	50	7	5’-TGCATGCTG-	5’-tgcatgctg-	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	50	8	CTTACTGGTTC-3	cttactggttc-3	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	50	9	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	50	10	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	50	11	5’-CCAATATCATGGGGGATGAC-3	5’-CCAATATCATGGGGGATGAC-3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	50	12	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	50	13	followed	follow	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	50	14	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	50	15	separation	separation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	50	16	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	50	17	0.7xMDE	0.7xmde	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	50	18	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	50	19	FMC	FMC	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	50	20	BioProducts	BioProducts	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	50	21	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	50	22	SSCP	SSCP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	50	23	gels	gel	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	50	24	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	50	25	5W	5W	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	50	26	overnight	overnight	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	50	27	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	51	1	Primers	primer	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	51	2	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	51	3	D9S165	d9s165	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	51	4	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	51	5	D9S1878	D9S1878	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	51	6	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	51	7	as	as	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	51	8	described	describe	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	51	9	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	51	10	http://www.cephb.fr	http://www.cephb.fr	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	51	11	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	51	12	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	51	13	frag-	frag-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	51	14	ments	ment	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	51	15	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	51	16	separated	separate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	51	17	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	51	18	6	6	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	51	19	%	%	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	51	20	Sequagel	Sequagel	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	51	21	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	51	22	National	National	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	51	23	Diagnostics	Diagnostics	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	51	24	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	51	25	gels	gel	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	51	26	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	51	27	508C.	508c.	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	52	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	52	2	four	four	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	52	3	frequently	frequently	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	52	4	polymorphic	polymorphic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	52	5	SNPs	snp	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	52	6	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	7	nucleotides	nucleotide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	52	8	7149T	7149T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	9	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	52	10	A	A	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	11	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	52	12	758T	758T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	13	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	52	14	C	C	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	15	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	52	16	748C	748C	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	17	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	52	18	A	a	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	19	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	52	20	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	52	21	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	22	274T	274t	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	52	23	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	52	24	C	C	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	25	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	52	26	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	27	during	during	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	28	sequencing	sequencing	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	29	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	30	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	52	31	promoter	promoter	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	32	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	52	33	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	52	34	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	35	coding	code	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	52	36	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	37	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	38	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	52	39	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	40	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	41	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	52	42	fragments	fragment	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	52	43	RM3	RM3	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	44	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	52	45	RM4	RM4	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	46	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	52	47	RM	RM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	52	48	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	49	described	describe	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	52	50	above	above	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	52	51	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	52	52	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	53	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	53	2	distance	distance	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	3	between	between	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	53	5	transcription	transcription	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	6	initiation	initiation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	7	site	site	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	8	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	9	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	53	10	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	53	11	each	each	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	53	12	marker	marker	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	13	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	53	14	determined	determine	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	15	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	53	16	our	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	53	17	genomic	genomic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	53	18	contigs12	contigs12	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	53	19	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	53	20	sequences	sequence	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	53	21	AL133410	AL133410	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	53	22	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	53	23	AL135841	al135841	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	24	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	25	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	53	26	NCBI	NCBI	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	53	27	data-	data-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	53	28	base	base	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	29	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	53	30	http://www.ncbi.nlm.nih.gov/entrez	http://www.ncbi.nlm.nih.gov/entrez	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	53	31	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	54	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	2	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	54	3	case	case	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	5	AB12GS	AB12GS	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	54	6	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	54	7	16P1	16p1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	54	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	54	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	54	10	length	length	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	11	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	12	BAC	BAC	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	54	13	clone	clone	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	14	341J2	341J2	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	54	15	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	54	16	160	160	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	54	17	kb	kb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	18	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	54	19	determined	determine	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	20	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	21	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	54	22	pulsed	pulse	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	23	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	54	24	field	field	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	25	gel	gel	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	26	electrophoresis	electrophoresis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	27	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	54	28	also	also	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	54	29	needed.11	needed.11	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	54	30	Haplotypes	Haplotypes	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	54	31	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	32	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	54	33	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	54	34	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	54	35	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	54	36	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	54	37	recon-	recon-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	54	38	structed	structe	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	54	39	assuming	assume	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	54	40	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	54	41	minimum	minimum	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	54	42	number	number	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	43	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	44	recombinations	recombination	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	54	45	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	46	each	each	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	54	47	family	family	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	48	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	54	49	grouped	group	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	54	50	according	accord	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	54	51	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	52	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	54	53	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	54	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	54	55	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	54	56	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	55	1	Haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	55	2	segregating	segregate	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	55	3	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	55	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	55	5	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	55	6	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	55	7	muta-	muta-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	55	8	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	55	9	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	55	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	55	11	healthy	healthy	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	55	12	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	55	13	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	55	14	used	use	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	55	15	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	55	16	calculate	calculate	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	55	17	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	55	18	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	55	19	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	55	20	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	55	21	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	55	22	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	55	23	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	55	24	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	55	25	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	55	26	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	56	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	56	2	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	56	3	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	56	4	showing	show	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	56	5	UPD20	upd20	WRB
work_gukk34cj2ba2hfeeqnbcodfs6m	56	6	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	56	7	excluded	exclude	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	56	8	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	56	9	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	56	10	analysis	analysis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	56	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	57	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	2	order	order	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	3	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	57	4	find	find	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	57	5	out	out	RP
work_gukk34cj2ba2hfeeqnbcodfs6m	57	6	if	if	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	57	8	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	57	9	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	10	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	11	had	have	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	57	12	arisen	arise	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	13	once	once	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	57	14	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	57	15	several	several	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	57	16	times	time	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	57	17	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	18	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	57	19	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	57	20	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	57	21	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	57	22	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	57	23	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	57	24	homozygous	homozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	57	25	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	57	26	heterozygous	heterozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	57	27	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	28	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	57	29	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	57	30	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	31	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	32	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	57	33	17	17	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	57	34	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	57	35	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	57	36	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	57	37	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	57	38	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	57	39	CEPH	CEPH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	57	40	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	57	41	Centre	Centre	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	57	42	d’Etude	d’Etude	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	57	43	Poly-	Poly-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	57	44	morphisme	morphisme	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	45	Humain	Humain	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	57	46	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	57	47	controls	control	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	57	48	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	57	49	genotyped	genotype	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	57	50	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	58	1	These	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	58	2	controls	control	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	58	3	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	58	4	previously	previously	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	58	5	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	58	6	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	58	7	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	58	8	nucleotide	nucleotide	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	58	9	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	58	10	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	58	11	carriers.12	carriers.12	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	58	12	Haplotypes	Haplotypes	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	58	13	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	58	14	reconstructed	reconstruct	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	58	15	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	58	16	15	15	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	58	17	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	58	18	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	58	19	assuming	assume	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	58	20	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	58	21	minimum	minimum	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	58	22	number	number	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	58	23	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	58	24	recombinations	recombination	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	58	25	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	58	26	each	each	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	58	27	family	family	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	58	28	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	59	1	Methods	method	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	59	2	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	3	computing	compute	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	59	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	5	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	6	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	8	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	59	9	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	10	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	12	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	59	13	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	14	To	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	59	15	estimate	estimate	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	59	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	17	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	18	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	20	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	59	21	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	59	22	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	23	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	24	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	59	25	we	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	59	26	used	use	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	59	27	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	28	DMLE	dmle	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	29	programme21	programme21	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	30	which	which	WDT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	31	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	59	32	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	33	its	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	59	34	original	original	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	59	35	form	form	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	36	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	59	37	designed	design	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	38	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	59	39	estimate	estimate	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	59	40	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	41	recombination	recombination	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	42	distance	distance	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	43	between	between	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	44	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	45	biallelic	biallelic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	59	46	marker	marker	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	47	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	59	48	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	49	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	50	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	51	based	base	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	52	on	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	53	observed	observed	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	59	54	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	59	55	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	59	56	supposed	suppose	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	57	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	59	58	historical	historical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	59	59	recombinations	recombination	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	59	60	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	61	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	62	data	datum	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	59	63	rather	rather	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	59	64	than	than	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	65	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	59	66	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	67	estimation	estimation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	59	68	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	60	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	2	possibility	possibility	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	3	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	4	estimating	estimate	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	60	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	6	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	7	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	8	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	9	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	10	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	60	11	implemented	implement	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	12	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	13	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	14	more	more	RBR
work_gukk34cj2ba2hfeeqnbcodfs6m	60	15	recent	recent	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	60	16	version	version	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	17	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	60	18	beta	beta	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	19	0.25	0.25	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	60	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	60	21	released	release	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	22	April	April	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	60	23	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	60	24	1999	1999	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	60	25	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	60	26	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	27	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	28	programme	programme	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	29	given	give	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	30	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	31	parameters	parameter	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	60	32	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	33	‘	'	``
work_gukk34cj2ba2hfeeqnbcodfs6m	60	34	known	know	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	35	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	60	36	recombination	recombination	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	37	rate	rate	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	38	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	60	39	popu-	popu-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	60	40	lation	lation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	41	growth	growth	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	42	rate	rate	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	43	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	60	44	frequencies	frequency	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	60	45	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	46	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	47	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	48	associated	associate	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	60	49	marker	marker	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	50	alleles	alleles	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	60	51	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	60	52	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	60	53	ie	ie	FW
work_gukk34cj2ba2hfeeqnbcodfs6m	60	54	identical	identical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	60	55	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	56	state	state	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	57	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	60	58	IBS)21	IBS)21	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	60	59	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	60	sampled	sample	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	61	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	62	chromosomes	chromosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	60	63	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	60	64	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	65	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	66	general	general	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	60	67	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	68	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	60	69	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	60	70	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	71	proportion	proportion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	72	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	73	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	74	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	75	chromosomes	chromosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	60	76	sampled	sample	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	77	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	78	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	60	79	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	80	under	under	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	81	study	study	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	60	82	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	61	1	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	61	2	chose	choose	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	61	3	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	61	4	following	follow	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	61	5	para-	para-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	61	6	meters	meter	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	61	7	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	61	9	estimate	estimate	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	10	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	61	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	61	12	recombination	recombination	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	13	rate	rate	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	14	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	61	15	based	base	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	16	on	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	17	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	61	18	estimated	estimate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	19	physical	physical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	61	20	distance	distance	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	21	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	22	630	630	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	61	23	kb	kb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	24	between	between	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	25	D9S163	d9s163	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	26	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	61	27	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	61	28	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	61	29	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	30	calculated	calculate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	31	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	61	32	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	61	33	genomic	genomic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	61	34	sequence	sequence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	35	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	61	36	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	61	37	BAC	BAC	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	61	38	contig11	contig11	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	39	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	61	40	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	61	41	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	61	42	distance	distance	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	43	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	44	0.3	0.3	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	61	45	cM	cM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	61	46	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	47	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	61	48	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	61	49	interval.9	interval.9	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	61	50	These	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	61	51	numbers	number	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	61	52	led	lead	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	61	53	us	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	61	54	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	61	55	assume	assume	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	61	56	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	57	2.1	2.1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	61	58	Mb	Mb	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	61	59	correspond	correspond	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	61	60	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	61	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	61	62	cM	cm	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	63	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	64	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	61	65	chromosomal	chromosomal	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	61	66	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	61	67	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	62	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	62	2	general	general	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	62	3	approximation	approximation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	62	4	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	62	5	Mb	mb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	62	6	corresponding	correspond	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	62	7	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	62	8	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	62	9	cM	cM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	62	10	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	62	11	used	use	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	62	12	as	as	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	62	13	well	well	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	62	14	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	63	1	Population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	2	growth	growth	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	3	rate	rate	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	4	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	63	5	exponential	exponential	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	6	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	63	7	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	63	8	estimated	estimate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	9	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	63	10	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	63	11	0.070	0.070	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	63	12	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	13	actual	actual	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	63	14	later	later	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	63	15	historical	historical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	63	16	census	census	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	17	data	datum	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	63	18	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	63	20	18th	18th	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	63	21	century	century	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	22	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	63	23	assuming	assume	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	63	24	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	25	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	63	26	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	27	reaches	reach	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	63	28	far	far	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	63	29	beyond	beyond	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	30	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	63	31	start	start	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	32	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	63	33	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	63	34	Common	Common	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	63	35	Era	Era	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	63	36	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	64	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	64	2	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	64	3	chromosome	chromosome	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	64	4	associated	associate	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	64	5	allele	allele	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	64	6	frequencies	frequency	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	64	7	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	64	8	directly	directly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	64	9	calculated	calculate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	64	10	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	64	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	64	12	data	datum	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	64	13	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	64	14	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	64	15	their	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	64	16	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	64	17	frequencies	frequencie	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	64	18	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	64	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	64	20	healthy	healthy	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	64	21	parental	parental	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	64	22	chromosomes	chromosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	64	23	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	65	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	65	2	proportion	proportion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	3	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	4	sampled	sample	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	5	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	6	chromosomes	chromosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	65	7	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	65	8	calculated	calculate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	9	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	65	11	frequency	frequency	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	65	12	study	study	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	13	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	14	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	65	15	blood	blood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	16	donors	donor	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	65	17	’	’	POS
work_gukk34cj2ba2hfeeqnbcodfs6m	65	18	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	65	19	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	65	20	10/	10/	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	65	21	845	845	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	65	22	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	65	23	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	65	24	taking	take	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	65	25	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	65	26	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	65	27	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	28	size	size	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	29	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	65	30	5	5	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	65	31	million	million	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	65	32	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	66	1	Two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	66	2	million	million	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	66	3	Monte	Monte	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	66	4	Carlo	Carlo	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	66	5	replicates	replicate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	66	6	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	66	7	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	66	8	seeds	seed	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	66	9	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	66	10	computed	compute	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	11	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	12	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	66	13	2.1	2.1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	66	14	Mb	Mb	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	66	15	correspondence	correspondence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	16	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	66	17	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	66	18	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	66	19	average	average	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	66	20	likelihoods	likelihood	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	66	21	taken	take	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	22	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	66	23	represent	represent	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	66	24	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	66	25	final	final	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	66	26	values	value	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	66	27	because	because	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	28	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	29	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	66	30	poorer	poor	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	66	31	convergence	convergence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	32	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	33	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	66	34	definite	definite	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	66	35	maximum	maximum	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	36	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	37	compared	compare	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	38	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	39	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	66	40	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	66	41	Mb	mb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	42	correspondence	correspondence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	43	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	44	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	66	45	length	length	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	46	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	47	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	66	48	cM	cM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	66	49	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	66	50	where	where	WRB
work_gukk34cj2ba2hfeeqnbcodfs6m	66	51	only	only	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	66	52	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	66	53	million	million	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	66	54	replicates	replicate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	66	55	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	66	56	used	use	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	66	57	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	67	1	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	67	2	also	also	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	67	3	computed	compute	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	67	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	67	5	means	mean	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	67	6	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	67	7	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	67	8	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	67	9	moments	moment	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	67	10	estimator	estimator	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	67	11	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	67	12	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	67	13	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	67	14	recent	recent	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	67	15	ancestor	ancestor	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	67	16	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	67	17	TMRCA)22	TMRCA)22	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	67	18	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	67	19	evaluate	evaluate	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	67	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	67	21	agreement	agreement	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	67	22	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	67	23	DMLE	dmle	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	67	24	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	67	25	estimates	estimate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	67	26	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	68	1	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	2	did	do	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	68	3	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	68	4	apply	apply	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	68	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	68	6	correction	correction	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	7	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	8	suggested	suggest	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	9	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	10	Labuda	Labuda	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	11	et	et	FW
work_gukk34cj2ba2hfeeqnbcodfs6m	68	12	al.23	al.23	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	13	Markers	Markers	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	68	14	TESK1	tesk1	FW
work_gukk34cj2ba2hfeeqnbcodfs6m	68	15	A	a	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	16	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	68	17	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	18	SSCP	SSCP	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	68	19	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	68	20	delG	delg	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	21	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	68	22	D4S	D4S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	23	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	68	24	AC1	AC1	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	25	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	68	26	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	68	27	XL1S	XL1S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	28	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	68	29	selected	select	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	30	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	31	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	68	32	estimation	estimation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	33	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	68	34	since	since	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	35	they	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	36	had	have	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	68	37	more	more	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	68	38	than	than	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	39	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	68	40	instance	instance	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	41	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	42	presumably	presumably	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	68	43	non-	non-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	44	ancestral	ancestral	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	45	allele	allele	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	46	presented	present	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	47	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	48	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	68	49	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	50	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	68	51	disease	disease	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	52	chro-	chro-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	68	53	mosomes	mosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	68	54	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	69	1	However	however	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	69	2	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	69	3	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	69	4	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	69	5	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	69	6	centromeric	centromeric	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	69	7	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	69	8	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	9	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	69	10	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	11	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	12	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	69	13	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	14	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	15	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	16	Ridanpää	Ridanpää	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	17	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	18	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	19	441	441	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	69	20	European	European	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	21	Journal	Journal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	22	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	23	Human	Human	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	24	Genetics	Genetics	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	69	25	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	69	26	CCS	CCS	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	27	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	69	28	TG2S	TG2S	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	69	29	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	69	30	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	69	31	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	69	32	included	include	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	33	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	34	any	any	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	69	35	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	36	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	69	37	calcula-	calcula-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	69	38	tions	tion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	69	39	because	because	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	40	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	41	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	69	42	obvious	obvious	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	69	43	recombination	recombination	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	44	hotspot	hotspot	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	45	separating	separate	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	69	46	them	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	69	47	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	48	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	69	49	rest	rest	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	50	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	51	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	69	52	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	69	53	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	70	1	Results	result	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	70	2	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	70	3	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	70	4	segregate	segregate	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	70	5	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	6	specific	specific	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	70	7	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	70	8	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	70	10	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	70	11	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	12	Approximately	approximately	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	70	13	160	160	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	70	14	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	70	15	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	16	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	17	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	70	18	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	19	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	70	20	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	70	21	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	22	diagnosed	diagnose	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	23	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	24	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	70	25	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	70	26	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	70	27	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	70	28	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	70	29	patient	patient	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	30	registry).2	registry).2	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	70	31	After	after	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	32	finding	find	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	70	33	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	70	34	first	first	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	70	35	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	70	36	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	70	37	causing	cause	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	70	38	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	70	39	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	40	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	70	41	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	70	42	we	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	70	43	continued	continue	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	70	44	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	70	45	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	46	search	search	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	47	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	48	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	70	49	rest	rest	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	50	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	51	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	70	52	115	115	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	70	53	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	70	54	patient	patient	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	55	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	70	56	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	57	19	19	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	70	58	multiplex	multiplex	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	70	59	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	70	60	72	72	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	70	61	uniplex	uniplex	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	70	62	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	70	63	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	71	1	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	71	2	found	find	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	71	3	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	71	4	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	71	5	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	71	6	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	71	7	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	71	8	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	71	9	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	71	10	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	71	11	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	71	12	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	71	13	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	71	14	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	71	15	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	71	16	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	71	17	homozygous	homozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	71	18	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	71	19	74	74	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	71	20	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	71	21	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	71	22	Table	table	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	71	23	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	71	24	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	71	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	72	1	All	all	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	72	2	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	72	3	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	72	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	72	5	remaining	remain	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	72	6	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	72	7	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	72	8	compound	compound	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	72	9	heterozygotes	heterozygote	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	72	10	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	72	11	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	72	12	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	72	13	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	72	14	represented	represent	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	72	15	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	72	16	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	72	17	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	72	18	four	four	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	72	19	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	72	20	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	72	21	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	72	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	72	23	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	72	24	allele	allele	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	72	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	73	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	73	2	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	73	3	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	73	4	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	73	5	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	73	6	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	73	7	also	also	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	73	8	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	73	9	base	base	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	73	10	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	73	11	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	73	12	G262	G262	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	73	13	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	73	14	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	73	15	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	73	16	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	73	17	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	73	18	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	73	19	13	13	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	73	20	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	73	21	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	74	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	74	2	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	74	3	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	74	4	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	74	5	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	74	6	detected	detect	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	74	7	only	only	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	74	8	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	74	9	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	74	10	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	74	11	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	74	12	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	74	13	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	74	14	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	74	15	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	74	16	shown	show	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	74	17	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	74	18	Table	table	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	74	19	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	74	20	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	75	1	All	all	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	75	2	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	75	3	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	4	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	75	6	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	75	7	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	75	8	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	75	9	resided	reside	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	75	10	either	either	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	75	11	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	12	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	75	13	evolutionally	evolutionally	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	75	14	conserved	conserve	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	15	nucleotides	nucleotide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	75	16	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	17	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	75	18	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	75	19	transcript24,25	transcript24,25	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	75	20	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	75	21	disrupted	disrupt	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	75	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	75	23	function	function	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	24	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	25	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	75	26	promoter	promoter	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	27	region.12	region.12	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	75	28	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	75	29	G262	G262	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	75	30	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	31	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	32	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	75	33	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	75	34	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	35	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	36	173	173	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	75	37	anonymous	anonymous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	75	38	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	75	39	blood	blood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	40	donors	donor	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	75	41	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	75	42	nor	nor	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	75	43	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	75	44	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	75	45	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	75	46	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	75	47	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	75	48	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	49	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	50	120	120	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	75	51	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	75	52	these	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	75	53	controls	control	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	75	54	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	75	55	160	160	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	75	56	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	75	57	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	75	58	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	75	59	controls	control	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	75	60	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	76	1	Ten	ten	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	76	2	heterozygous	heterozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	76	3	carriers	carrier	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	76	4	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	76	6	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	7	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	8	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	9	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	76	10	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	76	11	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	76	12	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	13	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	14	845	845	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	76	15	anonymous	anonymous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	76	16	blood	blood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	17	donors	donor	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	76	18	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	76	20	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	76	21	Red	Red	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	76	22	Cross	Cross	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	76	23	Blood	Blood	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	76	24	Transfusion	Transfusion	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	76	25	Service	Service	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	76	26	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	76	27	representing	represent	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	76	28	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	76	29	geographic	geographic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	76	30	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	31	distribution	distribution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	32	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	33	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	76	34	beginning	beginning	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	35	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	36	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	76	37	20th	20th	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	76	38	century	century	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	76	39	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	77	1	When	when	WRB
work_gukk34cj2ba2hfeeqnbcodfs6m	77	2	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	77	3	DNA	dna	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	4	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	5	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	6	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	77	7	parents	parent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	8	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	9	available	available	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	77	11	we	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	12	genotyped	genotype	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	13	them	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	14	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	77	15	reconstructed	reconstruct	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	16	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	17	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	77	18	segregating	segregate	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	77	19	Table	table	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	20	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	21	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	22	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	23	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	24	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	25	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	77	26	foreign	foreign	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	27	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	28	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	29	Number	number	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	30	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	31	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	32	Mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	33	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	34	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	35	Nationality	Nationality	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	36	Uniplex	Uniplex	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	37	Multiplex	Multiplex	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	38	70G	70G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	39	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	40	Ga	Ga	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	41	Finnish	Finnish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	42	59d	59d	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	43	15	15	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	44	70G/262Tb	70g/262tb	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	45	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	46	9	9	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	47	4	4	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	48	70G/211	70g/211	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	49	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	50	Finnish	Finnish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	51	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	52	70G/154	70g/154	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	53	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	54	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	55	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	56	70G	70g	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	57	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	58	dupTACTCTGTGA	dupTACTCTGTGA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	59	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	60	713c	713c	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	61	Finnish	Finnish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	62	2	2	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	63	70G	70g	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	64	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	65	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	66	US	US	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	67	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	77	68	Canadian	canadian	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	69	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	77	70	Dutch	dutch	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	71	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	77	72	Turkish	turkish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	73	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	77	74	English	English	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	75	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	77	76	US	US	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	77	Amish	Amish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	78	12	12	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	79	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	80	70G/63	70g/63	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	81	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	82	Australian	Australian	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	83	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	84	70G/79A	70g/79a	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	85	US	US	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	86	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	87	70G/180A	70g/180a	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	88	Mexican	Mexican	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	89	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	90	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	91	70G/182C	70g/182c	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	92	Dutch	Dutch	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	93	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	77	94	English	English	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	95	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	96	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	97	70G/211	70g/211	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	98	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	99	US	US	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	100	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	101	70G	70g	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	102	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	103	dup	dup	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	104	TCTGTGA	TCTGTGA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	105	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	106	713	713	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	107	US	US	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	108	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	109	70G	70g	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	110	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	111	dup	dup	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	112	AAGCTGAG	AAGCTGAG	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	113	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	114	76	76	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	115	Mexican	Mexican	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	116	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	117	70G	70g	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	118	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	119	dup	dup	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	120	TGAAGCTGAG	TGAAGCTGAG	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	121	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	122	76	76	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	123	French	French	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	124	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	125	70G	70g	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	126	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	127	ins	in	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	128	CCTGAG	CCTGAG	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	129	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	130	76c	76c	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	131	German	german	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	132	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	133	70G	70g	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	134	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	135	dup	dup	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	136	AAGCTGAGGACGTG	AAGCTGAGGACGTG	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	137	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	138	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	139	US	US	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	140	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	141	70G	70g	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	142	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	143	dup	dup	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	144	GGACGTGGTT	GGACGTGGTT	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	145	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	146	4	4	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	147	Brazilian	Brazilian	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	148	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	149	70G	70G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	150	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	151	ins	in	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	152	TTCCGCCT	TTCCGCCT	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	153	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	154	57	57	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	155	French	french	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	156	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	157	70G	70g	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	158	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	159	dup	dup	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	160	TG	TG	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	161	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	162	98c	98c	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	163	Canadian	Canadian	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	164	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	165	118G/214	118g/214	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	166	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	167	German	german	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	168	126T	126T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	169	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	170	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	171	Arabian	Arabian	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	172	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	173	146A	146a	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	174	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	175	A	a	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	176	Chinese	chinese	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	177	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	178	152G/243	152g/243	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	179	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	180	Canadian	canadian	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	181	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	182	193A/242	193a/242	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	183	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	184	Canadian	Canadian	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	185	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	186	195T/238	195t/238	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	187	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	188	Israelis	Israelis	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	189	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	190	195T/242	195t/242	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	191	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	192	Brazilian	Brazilian	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	193	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	194	211G/230	211g/230	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	195	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	196	Polish	Polish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	197	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	198	236G/238	236g/238	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	199	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	200	US	US	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	201	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	202	261T	261t	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	203	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	204	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	205	Israelis	Israelis	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	206	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	207	264A	264a	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	208	/	/	,
work_gukk34cj2ba2hfeeqnbcodfs6m	77	209	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	77	210	Austrian	Austrian	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	211	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	212	4T	4t	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	213	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	214	del	del	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	215	AG	AG	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	216	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	217	94	94	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	218	English	English	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	219	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	220	193A	193a	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	221	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	222	dup	dup	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	223	English	English	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	224	TCTGTGAAGCTGAGGAC	TCTGTGAAGCTGAGGAC	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	225	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	226	73c	73c	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	227	195T	195t	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	228	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	229	ins	in	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	230	GGACGTGGTT	GGACGTGGTT	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	231	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	232	74	74	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	233	US	US	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	234	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	235	dup	dup	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	236	TG	TG	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	237	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	238	98	98	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	239	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	77	240	dup	dup	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	241	TG	TG	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	242	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	243	98	98	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	244	Turkish	turkish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	245	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	246	dup	dup	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	247	TG	tg	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	248	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	249	98/2	98/2	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	250	times	time	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	251	dup	dup	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	252	Swiss	Swiss	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	253	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	77	254	ACTACTCTGTGAAGC	ACTACTCTGTGAAGC	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	255	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	256	710c	710c	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	257	Many	many	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	258	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	259	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	77	260	US	US	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	261	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	77	262	represent	represent	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	77	263	evidence	evidence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	264	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	265	Caucasian	caucasian	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	77	266	family	family	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	267	history	history	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	77	268	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	78	1	aincluding	ainclude	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	78	2	42	42	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	78	3	previously	previously	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	78	4	reported	report	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	5	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	78	6	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	78	7	30	30	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	78	8	uniplex	uniplex	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	78	9	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	78	10	12	12	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	78	11	multiplex	multiplex	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	12	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	78	13	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	78	14	bincluding	binclude	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	78	15	six	six	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	78	16	previously	previously	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	78	17	reported	report	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	18	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	78	19	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	78	20	five	five	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	78	21	uniplex	uniplex	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	22	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	78	23	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	78	24	multiplex	multiplex	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	25	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	78	26	;	;	,
work_gukk34cj2ba2hfeeqnbcodfs6m	78	27	cpreviously	cpreviously	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	78	28	reported	report	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	78	29	family	family	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	30	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	78	31	families;12	families;12	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	32	dincluding	dinclude	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	78	33	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	78	34	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	78	35	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	36	uniparental	uniparental	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	78	37	disomy	disomy	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	38	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	39	chromosome	chromosome	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	40	9	9	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	78	41	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	78	42	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	78	43	A	a	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	78	44	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	78	45	B	B	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	78	46	in20	in20	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	78	47	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	78	48	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	79	1	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	2	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	79	3	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	79	4	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	79	5	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	79	6	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	79	7	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	8	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	9	Ridanpää	Ridanpää	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	12	442	442	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	79	13	European	European	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	14	Journal	Journal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	15	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	79	16	Human	Human	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	17	Genetics	Genetics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	18	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	79	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	79	20	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	79	21	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	79	22	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	79	23	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	80	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	80	2	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	80	3	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	4	always	always	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	80	5	segregated	segregate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	6	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	80	8	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	80	9	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	80	10	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	11	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	80	12	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	13	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	80	14	study),12	study),12	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	80	16	shortest	short	JJS
work_gukk34cj2ba2hfeeqnbcodfs6m	80	17	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	18	being	be	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	80	19	less	less	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	80	20	than	than	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	21	29	29	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	80	22	kb	kb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	23	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	24	length	length	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	25	between	between	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	26	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	80	27	D13	D13	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	80	28	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	80	29	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	80	30	base	base	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	31	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	32	poly-	poly-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	33	morphism	morphism	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	80	34	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	35	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	80	36	first	first	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	80	37	exon	exon	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	38	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	39	MN	MN	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	80	40	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	80	41	CA9	CA9	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	80	42	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	80	43	data	datum	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	80	44	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	80	45	shown	show	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	80	46	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	80	47	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	81	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	81	2	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	81	3	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	81	4	G262	G262	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	81	5	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	81	6	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	81	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	81	8	10	10	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	81	9	bp	bp	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	81	10	duplication	duplication	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	81	11	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	81	12	713	713	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	81	13	segregated	segregated	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	81	14	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	81	15	their	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	81	16	own	own	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	81	17	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	81	18	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	81	19	depicted	depict	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	81	20	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	81	21	Figure	Figure	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	81	22	1A.	1a.	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	82	1	All	all	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	82	2	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	82	3	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	82	4	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	82	5	more	more	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	82	6	than	than	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	82	7	200	200	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	82	8	kb	kb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	82	9	Figure	Figure	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	82	10	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	82	11	Haplotype	Haplotype	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	82	12	analyses	analysis	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	82	13	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	82	14	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	82	15	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	82	16	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	82	17	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	82	18	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	82	19	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	82	20	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	82	21	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	82	22	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	83	1	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	83	2	A	a	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	83	3	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	83	4	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	83	5	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	83	6	segregating	segregate	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	83	7	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	83	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	83	9	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	83	10	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	83	11	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	83	12	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	83	13	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	83	14	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	83	15	that	that	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	83	16	segregating	segregating	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	83	17	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	83	18	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	83	19	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	83	20	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	83	21	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	83	22	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	83	23	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	83	24	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	83	25	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	83	26	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	83	27	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	83	28	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	83	29	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	83	30	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	84	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	84	2	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	84	3	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	84	4	determined	determine	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	84	5	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	84	6	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	84	7	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	84	8	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	84	9	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	84	10	depicted	depict	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	84	11	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	84	12	blue	blue	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	84	13	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	85	1	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	85	2	B	b	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	85	3	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	85	4	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	85	5	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	85	6	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	85	7	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	85	8	chromosomes	chromosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	85	9	segregating	segregate	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	85	10	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	85	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	85	12	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	85	13	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	85	14	show	show	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	85	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	85	16	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	85	17	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	85	18	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	85	19	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	86	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	86	2	four	four	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	86	3	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	86	4	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	86	5	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	86	6	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	86	7	reconstructed	reconstruct	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	86	8	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	86	9	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	86	10	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	86	11	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	86	12	family	family	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	86	13	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	86	14	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	86	15	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	86	16	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	86	17	CEPH	CEPH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	86	18	controls	control	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	86	19	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	87	1	On	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	87	2	top	top	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	87	3	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	87	4	shown	show	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	87	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	87	6	distances	distance	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	87	7	between	between	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	87	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	87	9	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	87	10	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	87	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	87	12	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	87	13	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	87	14	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	87	15	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	87	16	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	88	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	88	2	telomere	telomere	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	88	3	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	88	4	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	88	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	88	6	left	left	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	88	7	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	89	1	N	n	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	89	2	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	89	3	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	89	4	undetermined	undetermined	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	89	5	allele	allele	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	89	6	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	90	1	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	90	2	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	90	3	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	4	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	5	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	90	6	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	7	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	90	8	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	90	9	Ridanpää	Ridanpää	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	90	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	90	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	90	12	443	443	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	90	13	European	European	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	90	14	Journal	Journal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	90	15	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	16	Human	Human	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	90	17	Genetics	Genetics	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	90	18	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	19	length	length	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	20	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	90	21	longer	long	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	90	22	than	than	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	23	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	90	24	large	large	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	90	25	proportion	proportion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	26	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	27	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	90	28	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	90	29	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	90	30	suggesting	suggest	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	90	31	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	90	32	more	more	RBR
work_gukk34cj2ba2hfeeqnbcodfs6m	90	33	recent	recent	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	90	34	occurrence	occurrence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	35	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	90	36	these	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	90	37	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	90	38	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	91	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	91	2	birthplaces	birthplace	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	91	3	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	91	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	91	5	great	great	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	91	6	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	91	7	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	91	8	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	91	9	107	107	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	91	10	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	91	11	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	91	12	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	91	13	reported2	reported2	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	91	14	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	91	15	reside	reside	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	91	16	relatively	relatively	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	91	17	evenly	evenly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	91	18	both	both	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	91	19	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	91	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	91	21	early	early	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	91	22	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	91	23	late	late	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	91	24	settlement	settlement	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	91	25	regions	region	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	91	26	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	91	27	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	91	28	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	91	29	Figure	Figure	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	91	30	2A	2a	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	91	31	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	91	32	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	92	1	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	92	2	separately	separately	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	92	3	collected	collect	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	92	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	92	5	information	information	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	92	6	about	about	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	92	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	92	8	great	great	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	92	9	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	92	10	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	92	11	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	92	12	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	92	13	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	92	14	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	92	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	92	16	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	92	17	muta-	muta-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	92	18	tions	tion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	92	19	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	92	20	plotted	plot	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	92	21	their	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	92	22	birthplaces	birthplace	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	92	23	on	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	92	24	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	92	25	map	map	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	92	26	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	92	27	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	92	28	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	93	1	Grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	93	2	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	3	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	93	4	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	93	5	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	6	carriers	carrier	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	93	7	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	93	8	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	9	more	more	RBR
work_gukk34cj2ba2hfeeqnbcodfs6m	93	10	often	often	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	93	11	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	12	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	93	13	late	late	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	93	14	settlement	settlement	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	15	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	16	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	93	17	Figure	figure	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	18	2B	2B	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	93	19	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	93	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	93	21	whereas	whereas	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	93	23	birthplaces	birthplace	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	93	24	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	25	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	93	26	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	27	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	93	28	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	93	29	muta-	muta-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	30	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	31	carriers	carrier	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	93	32	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	93	33	distributed	distribute	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	34	more	more	RBR
work_gukk34cj2ba2hfeeqnbcodfs6m	93	35	evenly	evenly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	93	36	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	37	both	both	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	93	38	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	93	39	early	early	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	93	40	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	93	41	late	late	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	93	42	settlement	settlement	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	93	43	regions	region	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	93	44	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	94	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	94	2	distribution	distribution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	3	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	94	5	birth-	birth-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	94	6	places	place	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	94	7	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	94	9	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	94	10	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	94	12	blood	blood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	13	donors	donor	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	94	14	carrying	carry	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	94	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	94	16	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	94	17	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	18	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	19	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	94	21	early	early	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	94	22	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	94	23	late	late	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	94	24	settlement	settlement	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	25	regions	region	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	94	26	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	94	27	shown	show	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	28	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	29	Figure	figure	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	94	30	2C.	2c.	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	95	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	95	2	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	3	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	95	4	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	95	5	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	95	6	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	95	7	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	95	8	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	95	9	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	95	10	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	95	11	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	12	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	95	13	worldwide	worldwide	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	95	14	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	15	studied	study	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	95	16	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	95	17	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	95	18	44	44	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	95	19	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	95	20	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	95	21	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	95	22	representing	represent	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	95	23	nationalities	nationality	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	95	24	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	95	25	Europe	Europe	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	26	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	95	27	North	North	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	28	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	95	29	South	South	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	30	America	America	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	31	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	95	32	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	95	33	Near	Near	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	34	East	East	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	35	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	95	36	Australia	Australia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	37	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	95	38	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	95	39	China	China	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	95	40	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	95	41	Table	table	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	95	42	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	95	43	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	95	44	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	96	1	Patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	96	2	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	3	13	13	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	96	4	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	96	5	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	96	6	homozygous	homozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	96	7	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	96	9	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	96	10	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	11	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	12	nucleotide	nucleotide	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	96	13	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	96	14	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	96	15	whereas	whereas	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	16	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	96	17	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	18	15	15	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	96	19	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	96	20	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	96	21	heterozygous	heterozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	96	22	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	23	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	96	24	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	25	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	96	26	represented	represent	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	96	27	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	96	28	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	29	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	96	30	numerous	numerous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	96	31	rare	rare	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	96	32	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	96	33	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	34	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	96	35	pairing	pairing	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	36	allele	allele	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	37	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	96	38	Table	table	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	96	39	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	96	40	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	96	41	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	97	1	Patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	97	2	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	97	3	16	16	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	97	4	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	97	5	had	have	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	97	6	only	only	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	97	7	rare	rare	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	97	8	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	97	9	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	98	1	Patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	98	2	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	98	3	five	five	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	98	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	98	5	these	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	98	6	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	98	7	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	98	8	homozygous	homozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	98	9	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	98	10	their	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	98	11	private	private	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	98	12	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	98	13	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	98	14	suggesting	suggest	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	98	15	parental	parental	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	98	16	consanguinity	consanguinity	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	98	17	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	98	18	Table	table	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	98	19	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	98	20	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	98	21	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	99	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	2	addition	addition	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	3	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	99	5	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	99	6	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	99	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	99	9	base	base	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	10	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	11	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	12	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	13	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	99	14	211	211	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	99	15	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	99	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	99	17	only	only	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	99	18	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	19	found	find	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	99	20	both	both	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	99	21	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	99	23	Finnish	Finnish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	99	24	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	99	25	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	99	26	family	family	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	99	27	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	99	28	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	99	29	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	99	30	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	99	31	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	99	32	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	99	33	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	99	34	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	99	35	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	99	36	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	99	37	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	100	1	Like	like	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	100	2	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	100	3	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	100	4	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	100	5	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	100	6	most	most	JJS
work_gukk34cj2ba2hfeeqnbcodfs6m	100	7	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	100	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	100	9	rare	rare	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	100	10	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	100	11	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	100	12	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	100	13	foreign	foreign	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	100	14	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	100	15	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	100	16	base	base	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	100	17	substitutions	substitution	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	100	18	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	100	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	100	20	transcribed	transcribed	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	100	21	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	100	22	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	101	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	101	2	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	101	3	5	5	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	101	4	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	101	5	end	end	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	101	6	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	101	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	101	8	coding	code	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	101	9	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	101	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	101	11	duplications	duplication	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	101	12	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	101	13	insertion	insertion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	101	14	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	101	15	8	8	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	101	16	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	101	17	14	14	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	101	18	nucleotides	nucleotide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	101	19	represent	represent	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	101	20	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	101	21	new	new	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	101	22	type	type	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	101	23	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	101	24	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	101	25	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	101	26	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	101	27	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	101	28	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	101	29	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	102	1	All	all	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	102	2	sites	site	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	102	3	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	102	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	102	5	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	102	6	types	type	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	102	7	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	102	8	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	102	9	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	102	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	102	11	transcript	transcript	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	102	12	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	102	13	evolutionally	evolutionally	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	102	14	conserved24,25	conserved24,25	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	102	15	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	102	16	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	102	17	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	102	18	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	102	19	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	102	20	120	120	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	102	21	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	102	22	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	102	23	160	160	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	102	24	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	102	25	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	102	26	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	102	27	controls	control	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	102	28	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	103	1	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	103	2	did	do	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	103	3	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	103	4	find	find	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	103	5	any	any	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	103	6	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	103	7	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	103	8	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	103	9	nine	nine	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	103	10	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	103	11	who	who	WP
work_gukk34cj2ba2hfeeqnbcodfs6m	103	12	probably	probably	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	103	13	do	do	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	103	14	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	103	15	have	have	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	103	16	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	103	17	but	but	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	103	18	another	another	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	103	19	type	type	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	103	20	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	103	21	chondrodysplasia	chondrodysplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	103	22	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	104	1	Since	since	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	2	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	104	3	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	4	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	5	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	6	nucleotide	nucleotide	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	104	7	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	104	8	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	104	9	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	104	10	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	11	several	several	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	104	12	countries	country	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	104	13	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	104	14	we	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	104	15	asked	ask	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	104	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	104	17	question	question	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	18	whether	whether	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	19	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	104	20	muta-	muta-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	104	21	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	22	had	have	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	104	23	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	104	24	single	single	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	104	25	origin	origin	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	26	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	104	27	if	if	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	28	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	104	29	nucleotide	nucleotide	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	30	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	104	31	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	104	32	hot	hot	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	104	33	spot	spot	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	34	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	104	35	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	104	36	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	105	1	Eight	eight	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	105	2	homozygous	homozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	105	3	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	105	4	nine	nine	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	105	5	heterozygous	heterozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	105	6	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	105	7	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	105	8	their	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	105	9	family	family	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	105	10	members	member	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	105	11	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	105	12	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	105	13	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	105	14	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	105	15	CEPH	CEPH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	105	16	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	105	17	Centre	Centre	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	105	18	d’Etude	d’Etude	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	105	19	Polymorphisme	Polymorphisme	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	105	20	Humain	Humain	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	105	21	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	105	22	controls	control	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	105	23	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	105	24	genotyped	genotype	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	105	25	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	105	26	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	105	27	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	105	28	reconstructed	reconstruct	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	105	29	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	106	1	Chromo-	Chromo-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	106	2	somes	some	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	106	3	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	106	4	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	106	5	nationalities	nationality	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	106	6	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	106	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	106	8	Old	Old	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	106	9	Order	Order	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	106	10	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	106	11	carrying	carry	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	106	12	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	106	13	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	106	14	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	106	15	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	106	16	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	106	17	shared	share	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	106	18	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	106	19	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	106	20	Figure	figure	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	106	21	2	2	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	106	22	Geographical	geographical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	106	23	distribution	distribution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	106	24	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	106	25	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	106	26	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	106	27	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	106	28	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	106	29	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	106	30	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	107	1	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	107	2	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	107	3	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	107	4	Birthplaces	birthplace	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	107	5	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	107	6	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	107	7	great	great	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	107	8	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	107	9	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	107	10	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	107	11	107	107	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	107	12	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	107	13	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	107	14	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	107	15	83	83	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	107	16	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	107	17	families).2	families).2	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	107	18	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	107	19	B	b	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	107	20	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	107	21	Birthplaces	birthplace	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	107	22	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	107	23	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	107	24	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	107	25	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	107	26	carriers	carrier	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	107	27	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	107	28	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	107	29	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	107	30	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	107	31	’	’	POS
work_gukk34cj2ba2hfeeqnbcodfs6m	107	32	parents	parent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	107	33	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	107	34	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	107	35	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	107	36	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	107	37	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	107	38	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	107	39	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	107	40	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	108	1	*	*	NFP
work_gukk34cj2ba2hfeeqnbcodfs6m	108	2	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	108	3	G262	G262	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	108	4	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	108	5	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	108	6	&	&	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	108	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	108	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	108	9	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	108	10	duplication	duplication	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	108	11	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	108	12	~	~	NFP
work_gukk34cj2ba2hfeeqnbcodfs6m	108	13	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	108	14	G154	G154	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	108	15	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	108	16	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	108	17	!	!	.
work_gukk34cj2ba2hfeeqnbcodfs6m	108	18	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	108	19	C211	C211	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	108	20	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	108	21	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	108	22	C	C	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	108	23	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	108	24	Birthplaces	Birthplaces	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	108	25	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	108	26	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	108	27	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	108	28	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	108	29	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	108	30	blood	blood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	108	31	donors	donor	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	108	32	carrying	carry	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	108	33	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	108	34	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	108	35	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	108	36	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	108	37	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	108	38	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	109	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	109	2	each	each	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	109	3	map	map	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	109	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	109	5	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	109	6	symbol	symbol	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	109	7	depicts	depict	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	109	8	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	109	9	great	great	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	109	10	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	109	11	grandparent	grandparent	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	109	12	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	109	13	grandparent	grandparent	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	109	14	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	110	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	110	2	line	line	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	110	3	denotes	denote	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	110	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	110	5	approximate	approximate	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	110	6	border	border	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	110	7	between	between	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	110	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	110	9	old	old	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	110	10	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	110	11	new	new	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	110	12	settlement	settlement	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	110	13	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	110	14	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	110	15	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	111	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	111	2	area	area	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	111	3	depicted	depict	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	111	4	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	111	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	111	6	dotted	dotted	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	111	7	line	line	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	111	8	belonged	belong	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	111	9	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	111	10	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	111	11	before	before	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	111	12	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	111	13	Second	Second	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	111	14	World	World	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	111	15	War	War	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	111	16	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	112	1	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	112	2	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	112	3	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	112	4	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	112	5	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	112	6	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	112	7	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	112	8	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	112	9	Ridanpää	Ridanpää	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	112	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	112	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	112	12	444	444	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	112	13	European	European	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	112	14	Journal	Journal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	112	15	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	112	16	Human	Human	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	112	17	Genetics	Genetics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	112	18	alleles	allele	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	112	19	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	112	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	112	21	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	112	22	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	112	23	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	112	24	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	112	25	Figure	figure	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	112	26	1B	1b	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	112	27	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	112	28	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	113	1	Twenty	twenty	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	113	2	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	113	3	three	three	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	113	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	113	6	27	27	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	113	7	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	113	8	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	113	9	similar	similar	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	113	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	113	11	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	12	least	least	JJS
work_gukk34cj2ba2hfeeqnbcodfs6m	113	13	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	14	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	113	15	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	16	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	17	60	60	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	113	18	kb	kb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	19	around	around	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	113	21	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	113	22	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	23	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	113	24	clearly	clearly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	113	25	point-	point-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	113	26	ing	e	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	113	27	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	28	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	113	29	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	113	30	origin	origin	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	31	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	32	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	113	33	base	base	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	34	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	35	rather	rather	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	113	36	than	than	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	37	due	due	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	38	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	39	frequent	frequent	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	113	40	occurrence	occurrence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	113	41	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	114	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	114	2	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	114	3	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	114	4	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	5	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	114	6	ancient	ancient	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	114	7	According	accord	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	114	8	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	9	our	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	114	10	maximum	maximum	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	114	11	likelihood	likelihood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	12	estimates	estimate	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	114	13	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	14	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	114	15	DMLE	DMLE	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	114	16	program21	program21	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	17	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	114	18	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	114	19	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	114	20	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	21	arrived	arrive	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	114	22	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	23	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	114	24	some	some	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	114	25	130	130	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	114	26	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	114	27	160	160	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	114	28	generations	generation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	114	29	ago	ago	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	114	30	corresponding	correspond	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	114	31	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	32	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	114	33	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	34	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	114	35	given	give	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	36	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	114	37	generation	generation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	38	time	time	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	39	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	40	30	30	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	114	41	years)26	years)26	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	42	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	43	approxi-	approxi-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	114	44	mately	mately	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	114	45	3900	3900	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	114	46	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	114	47	4800	4800	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	114	48	years	year	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	114	49	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	114	50	Figure	figure	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	114	51	3	3	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	114	52	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	114	53	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	115	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	115	2	estimates	estimate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	115	3	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	115	4	computed	compute	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	115	5	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	115	6	five	five	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	115	7	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	115	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	115	9	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	115	10	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	115	11	TESK1	TESK1	``
work_gukk34cj2ba2hfeeqnbcodfs6m	115	12	A	a	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	115	13	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	115	14	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	115	15	SSCP	SSCP	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	115	16	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	115	17	delG	delg	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	115	18	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	115	19	D4S	D4S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	115	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	115	21	AC1	AC1	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	115	22	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	115	23	XL1S	XL1S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	115	24	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	115	25	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	115	26	averaging	average	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	115	27	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	115	28	likelihood	likelihood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	115	29	points	point	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	115	30	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	115	31	each	each	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	115	32	consisting	consist	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	115	33	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	115	34	either	either	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	115	35	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	115	36	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	115	37	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	115	38	million	million	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	115	39	Monte	Monte	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	115	40	Carlo	Carlo	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	115	41	replicates	replicate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	115	42	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	115	43	Figure	figure	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	115	44	3	3	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	115	45	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	115	46	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	116	1	Using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	116	2	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	116	3	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	116	4	five	five	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	116	5	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	116	6	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	116	7	esti-	esti-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	116	8	mates	mate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	116	9	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	116	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	116	11	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	116	12	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	116	13	physical	physical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	116	14	correspondence	correspondence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	116	15	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	116	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	116	17	method	method	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	116	18	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	116	19	Risch	Risch	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	116	20	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	116	21	al22	al22	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	116	22	also	also	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	116	23	resulted	result	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	116	24	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	116	25	high	high	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	116	26	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	116	27	estimates	estimate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	116	28	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	116	29	although	although	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	116	30	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	116	31	much	much	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	116	32	wider	wide	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	116	33	limits	limit	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	116	34	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	116	35	150	150	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	116	36	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	116	37	314	314	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	116	38	generations	generation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	116	39	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	117	1	These	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	117	2	high	high	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	117	3	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	4	estimates	estimate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	117	5	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	117	6	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	7	keeping	keep	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	117	8	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	117	10	distribu-	distribu-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	117	11	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	12	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	13	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	117	14	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	15	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	117	16	which	which	WDT
work_gukk34cj2ba2hfeeqnbcodfs6m	117	17	also	also	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	117	18	suggests	suggest	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	117	19	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	117	20	ancient	ancient	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	117	21	introduction	introduction	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	22	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	23	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	117	24	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	25	into	into	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	26	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	117	27	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	117	28	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	117	29	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	118	1	Discussion	discussion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	118	2	Recently	recently	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	118	3	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	118	4	we	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	118	5	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	118	6	reported	report	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	118	7	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	118	8	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	118	9	types	type	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	118	10	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	118	11	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	118	12	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	118	13	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	118	14	can	can	MD
work_gukk34cj2ba2hfeeqnbcodfs6m	118	15	lead	lead	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	118	16	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	118	17	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	118	18	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	118	19	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	118	20	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	118	21	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	119	1	Duplications	duplication	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	119	2	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	119	3	insertions	insertion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	119	4	between	between	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	119	6	TATA	TATA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	7	box	box	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	8	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	119	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	119	10	transcription	transcription	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	11	initiation	initiation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	12	site	site	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	13	silence	silence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	14	transcription	transcription	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	15	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	16	that	that	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	119	17	allele	allele	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	119	18	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	119	19	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	119	20	changes	change	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	119	21	involving	involve	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	119	22	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	23	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	119	24	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	119	25	highly	highly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	119	26	conserved	conserve	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	27	nucleo-	nucleo-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	28	tides	tide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	119	29	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	30	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	119	31	transcript	transcript	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	32	lead	lead	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	33	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	34	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	119	35	homozygous	homozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	119	36	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	119	37	compound	compound	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	119	38	heterozygous	heterozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	119	39	mutant	mutant	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	40	transcript.12	transcript.12	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	41	Altogether	Altogether	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	42	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	119	43	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	44	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	119	45	set	set	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	46	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	47	91	91	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	119	48	Finnish	Finnish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	49	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	119	50	44	44	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	119	51	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	52	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	119	53	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	54	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	119	55	countries	country	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	119	56	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	119	57	we	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	58	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	59	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	60	36	36	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	119	61	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	119	62	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	119	63	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	64	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	119	65	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	66	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	67	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	119	68	28	28	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	119	69	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	70	them	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	71	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	119	72	reported	report	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	73	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	74	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	119	75	first	first	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	119	76	time	time	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	77	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	78	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	119	79	paper	paper	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	119	80	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	120	1	These	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	120	2	can	can	MD
work_gukk34cj2ba2hfeeqnbcodfs6m	120	3	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	120	4	classified	classify	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	120	5	into	into	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	120	6	three	three	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	120	7	groups	group	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	120	8	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	121	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	121	2	first	first	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	121	3	group	group	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	121	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	121	5	muta-	muta-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	121	6	tions	tion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	121	7	consists	consist	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	121	8	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	121	9	eight	eight	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	121	10	insertions	insertion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	121	11	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	121	12	duplications	duplication	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	121	13	that	that	WDT
work_gukk34cj2ba2hfeeqnbcodfs6m	121	14	affect	affect	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	121	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	121	16	promoter	promoter	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	121	17	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	121	18	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	122	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	122	2	second	second	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	122	3	group	group	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	122	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	122	5	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	122	6	consists	consist	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	122	7	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	122	8	24	24	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	122	9	base	base	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	122	10	substitutions	substitution	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	122	11	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	122	12	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	122	13	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	122	14	changes	change	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	122	15	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	122	16	conserved	conserved	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	122	17	nucleotides	nucleotide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	122	18	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	122	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	122	20	transcript	transcript	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	122	21	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	123	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	123	2	addition	addition	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	123	3	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	123	4	we	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	123	5	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	123	6	characterised	characterise	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	123	7	herein	herein	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	123	8	three	three	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	123	9	insertions	insertion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	123	10	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	123	11	duplications	duplication	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	123	12	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	123	13	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	123	14	5	5	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	123	15	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	123	16	end	end	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	123	17	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	123	18	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	123	19	transcript	transcript	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	123	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	123	21	which	which	WDT
work_gukk34cj2ba2hfeeqnbcodfs6m	123	22	form	form	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	123	23	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	123	24	third	third	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	123	25	group	group	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	123	26	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	123	27	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	123	28	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	123	29	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	123	30	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	124	1	These	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	2	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	124	3	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	4	gathered	gather	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	5	around	around	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	6	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	7	nucleolar	nucleolar	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	8	localisation	localisation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	9	signal	signal	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	10	region27	region27	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	11	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	124	12	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	13	regions	region	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	124	14	reported	report	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	15	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	124	16	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	124	17	important	important	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	18	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	19	binding	bind	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	124	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	21	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	22	proteins	protein	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	124	23	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	24	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	25	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	26	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	27	complex.13	complex.13	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	28	Only	only	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	124	29	heterozygosity	heterozygosity	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	30	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	31	inser-	inser-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	32	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	33	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	124	34	further	further	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	35	duplication	duplication	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	36	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	124	37	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	38	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	39	promoter	promoter	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	40	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	41	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	124	42	‘	'	``
work_gukk34cj2ba2hfeeqnbcodfs6m	124	43	null	null	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	44	’	'	''
work_gukk34cj2ba2hfeeqnbcodfs6m	124	45	alleles	allele	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	124	46	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	47	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	48	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	124	49	detected	detect	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	50	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	124	51	further	further	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	124	52	suggesting	suggest	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	124	53	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	54	expression	expression	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	55	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	56	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	57	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	58	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	59	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	60	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	61	indeed	indeed	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	124	62	essential	essential	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	63	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	64	life.12,28	life.12,28	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	65	Mutations	Mutations	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	124	66	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	67	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	68	seem	seem	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	69	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	124	70	avoid	avoid	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	124	71	nucleotides	nucleotide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	124	72	23	23	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	124	73	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	124	74	62	62	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	124	75	which	which	WDT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	76	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	77	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	78	reported	report	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	79	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	124	80	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	124	81	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	82	nucleolar	nucleolar	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	83	localisation	localisation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	84	signal	signal	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	85	region.27	region.27	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	86	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	87	found	find	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	124	88	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	89	compound	compound	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	90	heterozygous	heterozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	91	muta-	muta-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	92	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	93	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	94	nucleotide	nucleotide	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	95	57	57	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	124	96	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	97	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	124	98	patient	patient	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	99	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	124	100	but	but	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	124	101	due	due	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	102	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	103	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	104	sequence	sequence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	105	content	content	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	106	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	107	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	108	duplication	duplication	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	109	it	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	124	110	does	do	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	111	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	124	112	change	change	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	124	113	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	114	sequence	sequence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	115	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	116	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	124	117	nucleolar	nucleolar	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	124	118	localisation	localisation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	119	signal	signal	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	124	120	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	125	1	On	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	2	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	125	3	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	125	4	hand	hand	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	5	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	125	6	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	125	7	mitochondrial	mitochondrial	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	8	localisation	localisation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	9	signal	signal	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	10	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	11	has	have	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	125	12	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	13	reported	report	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	14	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	125	15	reside	reside	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	125	16	between	between	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	17	nucleotides	nucleotide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	125	18	118	118	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	125	19	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	125	20	175	175	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	125	21	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	125	23	mouse29	mouse29	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	24	which	which	WDT
work_gukk34cj2ba2hfeeqnbcodfs6m	125	25	corresponds	correspond	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	125	26	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	27	nucleotides	nucleotide	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	125	28	118	118	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	125	29	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	125	30	167	167	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	125	31	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	125	32	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	125	33	human	human	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	125	34	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	125	35	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	126	1	This	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	126	2	stretch	stretch	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	126	3	harbors	harbor	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	126	4	four	four	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	126	5	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	126	6	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	126	7	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	126	8	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	126	9	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	126	10	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	126	11	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	126	12	even	even	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	126	13	homozy-	homozy-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	126	14	gous	gous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	126	15	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	126	16	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	126	17	kind	kind	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	126	18	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	126	19	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	126	20	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	127	1	Functional	functional	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	127	2	studies	study	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	127	3	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	127	4	needed	need	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	5	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	127	6	further	far	RBR
work_gukk34cj2ba2hfeeqnbcodfs6m	127	7	clarify	clarify	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	127	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	127	9	viability	viability	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	10	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	11	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	127	12	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	13	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	127	14	nucleolar	nucleolar	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	127	15	localisation	localisation	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	127	16	signal	signal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	127	17	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	18	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	127	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	127	20	significance	significance	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	21	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	127	23	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	127	24	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	25	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	127	26	mitochondrial	mitochondrial	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	27	localisation	localisation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	28	signal	signal	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	29	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	127	30	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	128	1	Cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	2	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	128	3	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	4	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	5	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	128	6	five	five	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	128	7	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	8	diseases	disease	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	128	9	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	11	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	12	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	13	heritage	heritage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	14	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	128	15	namely	namely	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	128	16	aspartylglucosaminuria	aspartylglucosaminuria	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	17	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	128	18	AGU	AGU	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	19	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	128	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	128	21	progressive	progressive	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	22	myoclonus	myoclonus	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	23	epilepsy	epilepsy	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	24	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	128	25	PME	PME	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	26	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	128	27	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	128	28	infantile	infantile	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	29	neuronal	neuronal	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	30	ceroid	ceroid	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	31	lipofuscinosis	lipofuscinosis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	32	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	128	33	INCL	INCL	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	34	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	128	35	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	128	36	juvenile	juvenile	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	37	neuronal	neuronal	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	38	ceroid	ceroid	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	39	lipofuscinosis	lipofuscinosis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	40	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	128	41	JNCL	JNCL	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	42	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	128	43	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	128	44	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	128	45	congenital	congenital	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	46	nephrotic	nephrotic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	47	syndrome	syndrome	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	48	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	49	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	50	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	51	type	type	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	52	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	128	53	CNF	CNF	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	54	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	128	55	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	128	56	show	show	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	57	similar	similar	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	58	distribu-	distribu-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	59	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	60	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	61	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	62	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	128	63	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	128	64	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	65	each	each	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	66	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	67	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	128	68	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	69	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	70	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	71	has	have	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	72	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	73	found	find	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	74	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	75	78	78	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	128	76	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	128	77	98	98	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	128	78	%	%	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	79	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	80	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	81	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	82	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	83	chromo-	chromo-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	84	somes.30	somes.30	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	85	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	128	86	34	34	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	128	87	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	88	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	89	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	90	these	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	91	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	92	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	128	93	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	94	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	128	95	has	have	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	96	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	128	97	been	be	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	98	calculated	calculate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	99	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	128	100	but	but	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	128	101	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	102	distribution	distribution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	103	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	104	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	105	birth-	birth-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	106	places	place	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	128	107	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	108	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	109	great	great	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	110	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	128	111	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	128	112	supports	support	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	113	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	114	hypothesis	hypothesis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	115	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	116	these	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	117	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	128	118	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	128	119	present	present	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	128	120	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	121	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	128	122	founding	found	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	128	123	popula-	popula-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	124	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	128	125	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	129	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	129	2	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	129	3	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	129	4	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	5	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	6	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	129	7	Finnish	Finnish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	129	8	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	129	9	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	129	10	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	129	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	129	12	base	base	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	13	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	14	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	15	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	16	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	129	17	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	18	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	129	19	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	129	20	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	21	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	129	22	representing	represent	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	129	23	92	92	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	129	24	%	%	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	25	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	129	26	211/230	211/230	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	27	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	129	28	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	29	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	129	30	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	31	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	129	32	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	129	33	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	129	34	study).12	study).12	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	35	Our	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	129	36	computation	computation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	37	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	129	38	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	129	39	Monte	Monte	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	129	40	Carlo	Carlo	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	129	41	sampling	sampling	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	42	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	129	43	results	result	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	129	44	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	45	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	129	46	estimate	estimate	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	47	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	48	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	129	49	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	129	50	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	51	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	129	52	ancient	ancient	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	129	53	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	54	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	129	55	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	129	56	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	129	57	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	129	58	likely	likely	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	129	59	introduced	introduce	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	60	before	before	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	61	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	129	62	hypothesised	hypothesise	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	63	time	time	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	64	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	65	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	129	66	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	67	expansion	expansion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	129	68	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	130	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	130	2	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	130	3	conspicuous	conspicuous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	130	4	single	single	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	130	5	parameter	parameter	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	130	6	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	130	7	these	these	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	130	8	estimates	estimate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	130	9	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	130	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	130	11	correspondence	correspondence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	130	12	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	130	13	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	130	14	physical	physical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	130	15	map	map	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	130	16	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	130	17	recombination	recombination	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	130	18	probabilities	probability	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	130	19	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	130	20	very	very	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	130	21	short	short	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	130	22	map	map	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	130	23	lengths	length	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	130	24	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	131	1	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	2	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	3	able	able	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	131	4	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	131	5	esti-	esti-	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	131	6	mate	mate	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	131	7	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	8	2.1	2.1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	131	9	Mb	Mb	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	10	corresponds	correspond	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	131	11	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	12	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	131	13	cM	cm	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	14	on	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	131	16	telomeric	telomeric	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	17	side	side	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	18	Figure	Figure	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	19	3	3	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	131	20	Age	Age	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	21	estimate	estimate	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	22	average	average	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	131	23	plots	plot	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	131	24	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	25	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	131	26	Disequilibrium	Disequilibrium	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	27	Maximum	Maximum	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	28	Likelihood	Likelihood	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	29	Estimate	Estimate	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	30	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	131	31	DMLE	DMLE	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	32	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	131	33	programme	programme	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	34	using	use	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	131	35	five	five	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	131	36	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	131	37	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	131	38	TESK1	tesk1	ADD
work_gukk34cj2ba2hfeeqnbcodfs6m	131	39	A	a	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	40	/	/	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	131	41	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	42	SSCP	SSCP	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	131	43	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	131	44	delG	delg	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	45	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	131	46	D4S	D4S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	47	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	131	48	AC1	AC1	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	49	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	131	50	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	131	51	XL1S	XL1S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	52	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	131	53	around	around	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	54	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	131	55	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	56	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	57	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	58	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	59	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	60	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	131	61	Finns	Finns	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	131	62	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	132	1	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	132	2	continuous	continuous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	132	3	line	line	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	4	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	132	5	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	6	assuming	assume	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	132	7	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	132	8	correspondence	correspondence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	9	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	10	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	132	11	cM	cM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	132	12	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	13	2.1	2.1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	132	14	Mb	Mb	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	132	15	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	132	16	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	132	17	broken	broken	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	132	18	line	line	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	19	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	20	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	132	21	correspondence	correspondence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	22	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	23	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	132	24	cM	cM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	132	25	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	26	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	132	27	Mb	mb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	132	28	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	133	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	133	2	maximum	maximum	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	133	3	likeli-	likeli-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	133	4	hoods	hood	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	133	5	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	133	6	t1=160	t1=160	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	133	7	generations	generation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	133	8	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	133	9	t1=130	t1=130	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	133	10	generations	generation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	133	11	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	133	12	respec-	respec-	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	133	13	tively	tively	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	133	14	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	134	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	134	2	lower	low	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	134	3	95	95	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	134	4	CI	ci	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	134	5	boundary	boundary	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	134	6	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	134	7	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	134	8	around	around	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	134	9	30	30	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	134	10	generations	generation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	134	11	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	134	12	each	each	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	134	13	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	134	14	estimate	estimate	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	134	15	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	134	16	whereas	whereas	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	134	17	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	134	18	upper	upper	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	134	19	may	may	MD
work_gukk34cj2ba2hfeeqnbcodfs6m	134	20	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	134	21	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	134	22	plotted	plot	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	134	23	at	at	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	134	24	all	all	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	134	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	135	1	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	2	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	135	3	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	135	4	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	135	5	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	135	6	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	135	7	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	8	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	9	Ridanpää	Ridanpää	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	12	445	445	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	135	13	European	European	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	14	Journal	Journal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	15	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	135	16	Human	Human	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	17	Genetics	Genetics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	18	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	135	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	135	20	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	135	21	locus	locus	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	135	22	where	where	WRB
work_gukk34cj2ba2hfeeqnbcodfs6m	135	23	only	only	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	135	24	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	135	25	out	out	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	135	26	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	135	27	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	135	28	five	five	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	135	29	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	135	30	suitable	suitable	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	135	31	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	135	32	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	135	33	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	135	34	calculations	calculation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	135	35	resides	reside	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	135	36	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	136	1	Due	due	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	2	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	3	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	136	4	vicinity	vicinity	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	5	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	6	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	136	7	centromere	centromere	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	8	it	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	136	9	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	136	10	possible	possible	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	136	11	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	12	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	136	13	cM	cM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	136	14	corresponds	correspond	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	136	15	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	16	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	136	17	longer	long	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	136	18	physical	physical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	136	19	distance	distance	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	20	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	136	21	while	while	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	22	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	23	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	136	24	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	136	25	time	time	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	26	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	136	27	we	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	136	28	have	have	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	136	29	observed	observe	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	30	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	136	31	possible	possible	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	136	32	recombination	recombination	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	33	hotspot	hotspot	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	34	on	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	35	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	136	36	centro-	centro-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	136	37	meric	meric	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	136	38	side	side	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	136	39	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	137	1	It	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	137	2	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	137	3	also	also	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	137	4	obvious	obvious	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	137	5	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	137	6	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	137	7	algorithm	algorithm	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	137	8	implemented	implement	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	137	9	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	137	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	137	11	DMLE	dmle	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	137	12	programme	programme	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	137	13	does	do	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	137	14	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	137	15	converge	converge	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	137	16	very	very	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	137	17	well	well	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	137	18	when	when	WRB
work_gukk34cj2ba2hfeeqnbcodfs6m	137	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	137	20	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	137	21	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	137	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	137	23	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	137	24	increased	increase	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	137	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	138	1	Our	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	138	2	assumption	assumption	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	138	3	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	138	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	138	5	introduction	introduction	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	138	6	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	138	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	138	8	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	138	9	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	138	10	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	138	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	138	12	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	138	13	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	138	14	has	have	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	138	15	occurred	occur	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	138	16	only	only	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	138	17	once	once	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	138	18	may	may	MD
work_gukk34cj2ba2hfeeqnbcodfs6m	138	19	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	138	20	wrong	wrong	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	138	21	since	since	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	138	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	138	23	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	138	24	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	138	25	appears	appear	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	138	26	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	138	27	be	be	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	138	28	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	138	29	worldwide	worldwide	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	138	30	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	138	31	see	see	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	138	32	below	below	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	138	33	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	138	34	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	139	1	On	on	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	2	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	139	3	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	139	4	hand	hand	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	5	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	139	6	solitary	solitary	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	139	7	intro-	intro-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	8	duction	duction	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	9	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	139	11	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	12	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	139	13	strongly	strongly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	139	14	favoured	favour	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	15	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	139	17	length	length	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	18	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	139	20	shared	shared	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	139	21	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	22	segregating	segregating	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	23	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	139	24	Finns	Finns	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	139	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	140	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	140	2	means	means	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	140	3	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	140	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	140	5	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	140	6	moments	moment	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	140	7	estimator	estimator	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	140	8	calculations	calculation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	140	9	suffer	suffer	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	140	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	140	11	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	140	12	reservations	reservation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	140	13	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	140	14	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	140	15	furthermore	furthermore	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	140	16	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	140	17	do	do	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	140	18	not	not	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	140	19	account	account	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	140	20	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	140	21	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	140	22	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	140	23	parameters	parameter	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	140	24	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	140	25	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	140	26	even	even	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	140	27	more	more	RBR
work_gukk34cj2ba2hfeeqnbcodfs6m	140	28	sensitive	sensitive	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	140	29	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	140	30	assumed	assume	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	140	31	recombination	recombination	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	140	32	rate	rate	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	140	33	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	141	1	As	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	2	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	3	independent	independent	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	4	observa-	observa-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	5	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	6	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	141	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	8	birthplaces	birthplace	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	141	9	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	10	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	11	great	great	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	12	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	141	13	grandparents	grandparent	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	141	14	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	15	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	141	16	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	141	17	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	141	18	distributed	distribute	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	19	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	21	early	early	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	22	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	141	23	late	late	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	24	settlement	settlement	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	25	regions	region	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	141	26	relatively	relatively	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	141	27	evenly	evenly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	141	28	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	141	29	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	141	30	strengthen	strengthen	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	141	31	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	32	assumption	assumption	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	33	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	34	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	35	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	36	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	37	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	141	38	present	present	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	39	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	40	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	41	time	time	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	42	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	43	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	44	beginning	beginning	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	45	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	46	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	47	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	48	expansion	expansion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	49	some	some	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	50	80	80	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	141	51	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	141	52	100	100	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	141	53	generations	generation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	141	54	ago.2,17	ago.2,17	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	141	55	Similarly	similarly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	141	56	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	141	57	our	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	141	58	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	59	data	datum	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	141	60	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	141	61	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	141	62	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	63	distribution	distribution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	64	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	65	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	66	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	141	67	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	68	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	141	69	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	141	70	allow	allow	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	141	71	us	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	141	72	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	141	73	assume	assume	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	141	74	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	75	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	76	four	four	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	141	77	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	78	minor	minor	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	79	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	141	80	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	141	81	younger	young	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	141	82	than	than	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	83	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	84	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	85	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	86	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	141	87	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	88	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	89	local	local	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	90	enrichment	enrichment	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	91	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	92	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	141	93	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	94	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	95	western	western	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	96	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	141	97	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	98	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	141	99	at	at	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	100	least	least	JJS
work_gukk34cj2ba2hfeeqnbcodfs6m	141	101	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	102	part	part	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	103	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	141	104	due	due	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	105	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	106	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	107	enrichment	enrichment	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	108	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	109	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	110	rare	rare	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	141	111	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	141	112	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	113	that	that	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	141	114	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	141	115	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	142	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	142	2	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	142	3	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	142	4	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	142	5	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	142	6	also	also	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	142	7	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	142	8	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	142	9	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	142	10	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	142	11	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	142	12	48	48	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	142	13	%	%	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	142	14	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	142	15	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	142	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	142	17	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	142	18	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	142	19	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	142	20	44	44	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	142	21	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	142	22	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	142	23	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	142	24	countries	country	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	142	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	143	1	Patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	143	2	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	143	3	13	13	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	143	4	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	143	5	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	143	6	homozy-	homozy-	FW
work_gukk34cj2ba2hfeeqnbcodfs6m	143	7	gous	gous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	143	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	143	9	whereas	whereas	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	143	10	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	143	11	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	143	12	15	15	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	143	13	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	143	14	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	143	15	heterozygous	heterozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	143	16	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	143	17	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	143	18	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	143	19	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	143	20	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	143	21	representing	representing	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	143	22	nationalities	nationality	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	143	23	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	143	24	Europe	Europe	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	143	25	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	143	26	North	North	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	143	27	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	143	28	South	South	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	143	29	America	America	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	143	30	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	143	31	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	143	32	Near	Near	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	143	33	East	East	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	143	34	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	143	35	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	143	36	Australia	Australia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	143	37	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	144	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	144	2	ethnic	ethnic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	144	3	background	background	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	144	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	144	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	144	6	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	144	7	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	144	8	America	America	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	144	9	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	144	10	Australia	Australia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	144	11	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	144	12	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	144	13	particular	particular	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	144	14	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	144	15	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	144	16	often	often	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	144	17	European	european	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	144	18	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	144	19	mixed	mixed	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	144	20	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	145	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	145	2	all	all	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	145	3	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	145	4	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	145	5	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	145	6	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	145	7	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	145	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	145	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	145	10	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	145	11	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	145	12	segregates	segregate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	145	13	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	145	14	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	145	15	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	145	16	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	145	17	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	145	18	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	145	19	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	145	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	145	21	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	145	22	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	145	23	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	146	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	146	2	23	23	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	146	3	out	out	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	146	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	146	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	146	6	27	27	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	146	7	chromosomes	chromosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	146	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	146	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	146	10	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	146	11	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	146	12	expands	expand	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	146	13	over	over	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	146	14	60	60	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	146	15	kb	kb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	146	16	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	147	1	Interestingly	interestingly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	147	2	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	147	3	one	one	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	147	4	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	147	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	147	6	homozygous	homozygous	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	147	7	US	US	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	147	8	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	147	9	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	147	10	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	147	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	148	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	2	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	148	3	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	148	4	patient	patient	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	5	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	148	6	two	two	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	148	7	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	148	8	CEPH	CEPH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	148	9	control	control	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	10	chromosomes	chromosome	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	148	11	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	148	12	which	which	WDT
work_gukk34cj2ba2hfeeqnbcodfs6m	148	13	were	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	148	14	available	available	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	148	15	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	16	genotyping	genotype	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	148	17	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	148	18	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	148	19	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	148	20	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	148	21	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	148	22	same	same	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	148	23	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	24	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	148	25	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	148	26	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	148	27	haplotype	haplotype	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	28	extending	extend	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	148	29	over	over	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	30	100	100	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	148	31	kb	kb	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	32	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	33	around	around	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	34	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	148	35	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	148	36	locus	locus	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	148	37	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	149	1	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	149	2	more	more	RBR
work_gukk34cj2ba2hfeeqnbcodfs6m	149	3	extensive	extensive	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	149	4	collection	collection	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	5	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	6	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	149	7	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	149	8	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	149	9	needed	need	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	10	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	11	order	order	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	12	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	149	13	find	find	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	149	14	out	out	RP
work_gukk34cj2ba2hfeeqnbcodfs6m	149	15	if	if	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	149	17	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	149	18	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	19	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	20	accounts	account	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	149	21	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	22	all	all	PDT
work_gukk34cj2ba2hfeeqnbcodfs6m	149	23	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	149	24	frequent	frequent	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	149	25	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	149	26	cases	case	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	149	27	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	28	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	149	29	or	or	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	149	30	whether	whether	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	31	several	several	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	149	32	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	149	33	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	149	34	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	149	35	also	also	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	149	36	involved	involve	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	37	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	38	that	that	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	149	39	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	149	40	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	150	1	In	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	150	2	conclusion	conclusion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	150	3	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	150	4	different	different	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	150	5	insertions	insertion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	150	6	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	150	7	duplications	duplication	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	150	8	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	150	9	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	150	10	promoter	promoter	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	150	11	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	150	12	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	150	13	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	150	14	large	large	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	150	15	number	number	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	150	16	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	150	17	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	150	18	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	150	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	150	20	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	150	21	transcript	transcript	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	150	22	can	can	MD
work_gukk34cj2ba2hfeeqnbcodfs6m	150	23	cause	cause	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	150	24	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	150	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	151	1	Our	-PRON-	PRP$
work_gukk34cj2ba2hfeeqnbcodfs6m	151	2	findings	finding	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	151	3	clearly	clearly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	151	4	support	support	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	151	5	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	151	6	hypothesis	hypothesis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	7	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	8	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	151	9	single	single	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	151	10	ancient	ancient	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	11	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	151	12	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	151	13	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	14	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	15	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	16	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	151	17	causes	cause	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	151	18	most	most	JJS
work_gukk34cj2ba2hfeeqnbcodfs6m	151	19	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	151	21	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	151	22	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	151	23	cases	case	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	151	24	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	151	25	contributes	contribute	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	151	26	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	27	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	151	28	majority	majority	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	29	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	30	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	151	31	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	151	32	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	151	33	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	151	34	cases	case	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	151	35	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	151	36	possibly	possibly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	151	37	also	also	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	151	38	including	include	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	151	39	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	151	40	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	151	41	enrichment	enrichment	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	151	42	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	152	1	It	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	152	2	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	152	3	very	very	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	152	4	likely	likely	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	152	5	that	that	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	152	6	all	all	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	152	7	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	152	8	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	152	9	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	152	10	70	70	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	152	11	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	152	12	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	152	13	reported	report	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	152	14	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	152	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	152	16	study	study	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	152	17	represent	represent	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	152	18	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	152	19	single	single	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	152	20	occurrence	occurrence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	152	21	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	152	22	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	152	23	base	base	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	152	24	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	152	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	153	1	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	153	2	ancient	ancient	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	153	3	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	153	4	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	153	5	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	153	6	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	153	7	introduced	introduce	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	153	8	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	153	9	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	153	10	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	153	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	153	12	founder	founder	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	153	13	individuals	individual	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	153	14	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	153	15	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	153	16	highly	highly	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	153	17	enriched	enrich	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	153	18	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	153	19	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	153	20	current	current	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	153	21	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	153	22	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	154	1	Acknowledgements	acknowledgement	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	154	2	We	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	3	acknowledge	acknowledge	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	4	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	154	5	following	follow	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	154	6	clinicians	clinician	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	154	7	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	154	8	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	154	9	counselors	counselor	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	154	10	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	154	11	sending	send	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	154	12	clinical	clinical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	154	13	data	datum	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	154	14	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	154	15	patient	patient	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	154	16	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	154	17	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	154	18	this	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	154	19	study	study	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	154	20	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	154	21	L	l	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	154	22	Adès	adè	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	154	23	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	24	Australia	Australia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	25	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	26	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	27	Bonaventure	Bonaventure	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	28	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	29	France	France	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	30	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	31	Z	Z	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	32	Borozowitz	Borozowitz	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	33	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	34	Israel	Israel	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	35	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	36	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	37	Boudames	Boudames	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	38	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	39	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	40	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	41	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	42	Campbell	Campbell	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	43	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	44	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	45	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	46	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	154	47	Castriota	Castriota	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	48	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	154	49	Scanderbeg	Scanderbeg	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	50	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	51	Italy	Italy	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	52	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	53	D	D	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	54	Chitayat	Chitayat	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	55	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	56	Canada	Canada	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	57	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	58	DH	DH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	59	Cohn	Cohn	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	60	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	61	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	62	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	63	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	64	Conley	Conley	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	65	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	66	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	67	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	68	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	69	Costa	Costa	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	70	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	71	Canada	Canada	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	72	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	73	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	154	74	de	de	FW
work_gukk34cj2ba2hfeeqnbcodfs6m	154	75	Oliveira	Oliveira	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	76	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	77	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	78	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	79	CR	CR	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	80	Dolan	Dolan	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	81	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	82	UK	UK	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	83	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	84	F	F	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	85	Elmslie	Elmslie	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	86	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	87	UK	UK	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	88	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	89	P	P	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	90	Freisinger	Freisinger	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	91	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	92	Germany	Germany	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	93	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	94	L	L	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	95	Jobim	Jobim	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	96	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	97	Brazil	Brazil	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	98	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	99	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	100	Johnson	Johnson	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	101	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	102	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	103	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	104	H.	H.	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	105	Kayserili	Kayserili	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	106	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	107	Turkey	Turkey	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	108	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	109	S	S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	110	Langlois	Langlois	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	111	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	112	Canada	Canada	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	113	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	114	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	115	Mattheson	Mattheson	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	116	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	117	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	118	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	119	W	W	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	120	Newman	Newman	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	121	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	122	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	123	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	124	I	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	125	Pellier	pellier	RBR
work_gukk34cj2ba2hfeeqnbcodfs6m	154	126	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	127	France	France	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	128	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	129	R	R	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	130	Saviriayan	Saviriayan	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	131	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	132	Australia	Australia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	133	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	134	C	C	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	135	Scott	Scott	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	136	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	137	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	138	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	139	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	140	Simon	Simon	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	141	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	142	Germany	Germany	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	143	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	144	S	S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	145	Smithson	Smithson	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	146	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	147	UK	UK	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	148	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	149	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	150	Splitt	Splitt	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	151	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	152	UK	UK	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	153	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	154	E	E	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	155	Steichen	Steichen	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	156	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	157	Austria	Austria	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	158	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	159	A	A	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	160	Superti	Superti	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	161	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	154	162	Furga	Furga	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	163	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	164	Switzerland	Switzerland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	165	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	166	I	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	167	van	van	MD
work_gukk34cj2ba2hfeeqnbcodfs6m	154	168	der	der	XX
work_gukk34cj2ba2hfeeqnbcodfs6m	154	169	Burgt	Burgt	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	170	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	171	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	154	172	Netherlands	Netherlands	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	173	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	174	L	L	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	175	van	van	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	176	Maldergem	Maldergem	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	177	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	178	Belgium	Belgium	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	179	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	180	W	W	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	181	Wilcox	Wilcox	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	182	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	183	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	184	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	185	L	L	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	186	Wilson	Wilson	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	187	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	188	UK	UK	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	189	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	190	R	R	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	191	Winter	Winter	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	192	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	193	UK	UK	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	194	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	195	B	B	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	196	Zabel	Zabel	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	197	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	198	Germany	Germany	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	199	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	200	P	P	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	201	Zack	Zack	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	202	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	154	203	UK	UK	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	154	204	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	155	1	Professor	Professor	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	155	2	Albert	Albert	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	155	3	de	de	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	155	4	la	la	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	155	5	Chapelle	Chapelle	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	155	6	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	155	7	thanked	thank	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	155	8	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	155	9	useful	useful	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	155	10	discussions	discussion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	155	11	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	155	12	critical	critical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	155	13	reading	reading	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	155	14	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	155	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	155	16	manuscript	manuscript	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	155	17	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	156	1	Ahmed	Ahmed	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	2	Mohamed	Mohamed	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	3	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	156	4	Hanna	Hanna	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	5	Mäkelä	Mäkelä	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	6	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	156	7	Katarina	Katarina	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	8	Pelin	Pelin	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	9	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	156	10	Riika	Riika	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	11	Salmela	Salmela	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	12	are	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	13	acknowledged	acknowledge	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	14	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	15	laboratory	laboratory	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	16	assistance	assistance	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	17	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	156	18	collaborative	collaborative	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	156	19	help	help	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	20	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	156	21	Sinikka	Sinikka	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	22	Lindh	Lindh	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	23	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	24	help	help	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	25	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	26	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	156	27	genealogical	genealogical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	156	28	study	study	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	29	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	156	30	drawing	draw	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	156	31	Figures	figure	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	156	32	2B	2B	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	156	33	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	156	34	C.	C.	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	35	This	this	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	156	36	work	work	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	37	was	be	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	156	38	financially	financially	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	156	39	supported	support	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	40	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	41	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	156	42	March	March	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	43	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	44	Dimes	Dimes	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	45	Birth	Birth	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	46	Defects	Defects	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	47	Foundation	Foundation	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	48	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	156	49	6-FY99	6-FY99	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	50	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	156	51	586	586	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	156	52	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	156	53	6-FY00	6-fy00	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	156	54	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	156	55	294	294	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	156	56	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	156	57	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	156	58	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	156	59	Academy	Academy	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	60	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	61	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	62	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	156	63	grant	grant	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	156	64	38826	38826	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	156	65	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	156	66	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	156	67	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	68	University	University	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	69	’s	’s	POS
work_gukk34cj2ba2hfeeqnbcodfs6m	156	70	Research	Research	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	71	Funds	Funds	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	156	72	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	156	73	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	156	74	Helsinki	Helsinki	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	75	University	University	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	76	Central	Central	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	77	Hospital	Hospital	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	78	Fund	Fund	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	79	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	156	80	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	156	81	Ulla	Ulla	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	82	Hjelt	Hjelt	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	83	Fund	Fund	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	84	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	156	85	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	86	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	156	87	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	156	88	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	156	89	NIH	NIH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	90	Program	Program	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	91	Project	Project	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	92	grant	grant	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	93	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	156	94	2	2	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	156	95	PO1	PO1	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	156	96	HD22657	hd22657	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	156	97	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	156	98	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	157	1	References	reference	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	157	2	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	157	3	McKusick	McKusick	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	4	VA	VA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	5	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	157	6	Eldridge	Eldridge	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	7	R	R	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	157	9	Hostetler	Hostetler	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	10	JA	JA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	11	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	157	12	Ruangwit	Ruangwit	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	13	U	U	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	14	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	157	15	Egeland	Egeland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	16	JA	JA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	17	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	157	18	Dwarfism	dwarfism	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	157	19	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	157	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	157	21	Amish	Amish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	157	22	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	158	1	II	ii	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	158	2	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	159	1	Cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	159	2	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	159	3	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	159	4	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	159	5	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	160	1	Bull	Bull	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	160	2	Johns	Johns	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	160	3	Hopkins	Hopkins	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	160	4	Hosp	Hosp	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	160	5	1965	1965	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	160	6	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	160	7	116	116	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	160	8	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	160	9	231	231	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	160	10	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	160	11	272	272	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	160	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	161	1	2	2	LS
work_gukk34cj2ba2hfeeqnbcodfs6m	161	2	Mäkitie	Mäkitie	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	161	3	O	o	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	161	4	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	161	5	Cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	161	6	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	161	7	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	161	8	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	161	9	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	161	10	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	161	11	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	161	12	epidemiological	epidemiological	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	161	13	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	161	14	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	161	15	aspects	aspect	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	161	16	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	161	17	107	107	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	161	18	Patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	161	19	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	162	1	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	162	2	Med	Med	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	162	3	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	162	4	1992	1992	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	162	5	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	162	6	29	29	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	162	7	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	162	8	652	652	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	162	9	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	162	10	655	655	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	162	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	163	1	3	3	LS
work_gukk34cj2ba2hfeeqnbcodfs6m	163	2	Mäkitie	Mäkitie	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	163	3	O	o	UH
work_gukk34cj2ba2hfeeqnbcodfs6m	163	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	163	5	Kaitila	Kaitila	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	163	6	I	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	163	7	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	163	8	Cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	163	9	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	163	10	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	163	11	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	163	12	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	163	13	clinical	clinical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	163	14	manifesta-	manifesta-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	163	15	tions	tion	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	163	16	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	163	17	108	108	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	163	18	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	163	19	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	163	20	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	164	1	Eur	Eur	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	164	2	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	164	3	Pediatr	Pediatr	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	164	4	1993	1993	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	164	5	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	164	6	152	152	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	164	7	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	164	8	211	211	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	164	9	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	164	10	217	217	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	164	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	165	1	4	4	LS
work_gukk34cj2ba2hfeeqnbcodfs6m	165	2	Mäkitie	Mäkitie	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	165	3	O	o	UH
work_gukk34cj2ba2hfeeqnbcodfs6m	165	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	165	5	Pukkala	Pukkala	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	165	6	E	E	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	165	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	165	8	Teppo	Teppo	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	165	9	L	L	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	165	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	165	11	Kaitila	Kaitila	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	165	12	I	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	165	13	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	165	14	Increased	increase	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	165	15	incidence	incidence	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	165	16	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	165	17	cancer	cancer	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	165	18	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	165	19	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	165	20	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	165	21	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	165	22	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	165	23	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	165	24	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	166	1	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	166	2	Pediatr	Pediatr	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	166	3	1999	1999	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	166	4	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	166	5	134	134	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	166	6	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	166	7	315	315	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	166	8	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	166	9	318	318	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	166	10	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	167	1	5	5	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	167	2	Mäkitie	Mäkitie	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	167	3	O	o	UH
work_gukk34cj2ba2hfeeqnbcodfs6m	167	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	167	5	Pukkala	Pukkala	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	167	6	E	E	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	167	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	167	8	Kaitila	Kaitila	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	167	9	I	-PRON-	PRP
work_gukk34cj2ba2hfeeqnbcodfs6m	167	10	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	167	11	Increased	increase	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	167	12	mortality	mortality	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	167	13	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	167	14	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	167	15	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	167	16	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	167	17	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	167	18	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	168	1	Arch	Arch	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	168	2	Dis	Dis	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	168	3	Child	Child	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	168	4	2001	2001	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	168	5	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	168	6	84	84	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	168	7	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	168	8	65	65	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	168	9	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	168	10	67	67	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	168	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	169	1	6	6	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	169	2	Mäkitie	Mäkitie	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	169	3	OM	OM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	169	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	169	5	Tapanainen	Tapanainen	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	169	6	OJ	OJ	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	169	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	169	8	Dunkel	Dunkel	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	169	9	L	L	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	169	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	169	11	Siimes	Siimes	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	169	12	MA	MA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	169	13	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	169	14	Impaired	impair	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	169	15	sper-	sper-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	169	16	matogenesis	matogenesis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	169	17	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	169	18	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	169	19	unrecognized	unrecognized	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	169	20	feature	feature	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	169	21	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	169	22	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	169	23	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	169	24	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	169	25	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	169	26	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	170	1	Ann	Ann	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	170	2	Med	Med	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	170	3	2001	2001	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	170	4	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	170	5	33	33	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	170	6	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	170	7	201	201	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	170	8	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	170	9	205	205	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	170	10	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	171	1	7	7	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	171	2	Sulisalo	Sulisalo	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	171	3	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	171	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	171	5	Francomano	Francomano	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	171	6	CA	CA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	171	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	171	8	Sistonen	Sistonen	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	171	9	P	P	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	171	10	et	et	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	171	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	171	12	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	171	13	High	high	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	171	14	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	171	15	resolution	resolution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	171	16	genet-	genet-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	171	17	ic	ic	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	171	18	mapping	mapping	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	171	19	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	171	20	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	171	21	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	171	22	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	171	23	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	171	24	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	171	25	(	(	-LRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	171	26	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	171	27	)	)	-RRB-
work_gukk34cj2ba2hfeeqnbcodfs6m	171	28	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	171	29	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	171	30	Amish	amish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	171	31	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	171	32	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	171	33	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	171	34	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	172	1	Genomics	genomic	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	172	2	1994	1994	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	172	3	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	172	4	20	20	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	172	5	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	172	6	347	347	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	172	7	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	172	8	353	353	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	172	9	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	173	1	8	8	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	173	2	Sulisalo	Sulisalo	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	173	3	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	173	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	173	5	Sistonen	Sistonen	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	173	6	P	P	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	173	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	173	8	Hästbacka	Hästbacka	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	173	9	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	173	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	173	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	173	12	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	173	13	Cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	173	14	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	173	15	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	173	16	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	173	17	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	173	18	assigned	assign	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	173	19	to	to	TO
work_gukk34cj2ba2hfeeqnbcodfs6m	173	20	chromosome	chromosome	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	173	21	9	9	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	173	22	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	173	23	linkage	linkage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	173	24	analysis	analysis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	173	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	174	1	Nat	Nat	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	174	2	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	174	3	1993	1993	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	174	4	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	174	5	3	3	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	174	6	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	174	7	338	338	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	174	8	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	174	9	341	341	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	174	10	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	175	1	9	9	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	175	2	Sulisalo	Sulisalo	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	175	3	T	T	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	175	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	175	5	Klockars	Klockars	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	175	6	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	175	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	175	8	Mäkitie	Mäkitie	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	175	9	O	o	UH
work_gukk34cj2ba2hfeeqnbcodfs6m	175	10	et	et	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	175	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	175	12	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	175	13	High	high	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	175	14	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	175	15	resolution	resolution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	175	16	linkage	linkage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	175	17	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	175	18	dise-	dise-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	175	19	quilibrium	quilibrium	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	175	20	mapping	mapping	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	175	21	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	175	22	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	175	23	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	175	24	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	175	25	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	175	26	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	175	27	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	175	28	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	176	1	Am	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	176	2	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	176	3	Hum	Hum	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	176	4	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	176	5	1994	1994	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	176	6	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	176	7	55	55	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	176	8	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	176	9	937	937	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	176	10	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	176	11	945	945	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	176	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	177	1	10	10	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	177	2	McKusick	McKusick	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	177	3	VA	VA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	177	4	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	177	5	Ellis	Ellis	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	177	6	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	177	7	van	van	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	177	8	Creveld	Creveld	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	177	9	syndrome	syndrome	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	177	10	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	177	11	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	177	12	Amish	Amish	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	177	13	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	178	1	Nat	Nat	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	178	2	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	178	3	2000	2000	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	178	4	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	178	5	24	24	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	178	6	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	178	7	203	203	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	178	8	–	–	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	178	9	204	204	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	178	10	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	179	1	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	2	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	179	3	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	4	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	5	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	179	6	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	7	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	8	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	9	Ridanpää	Ridanpää	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	12	446	446	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	179	13	European	European	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	14	Journal	Journal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	15	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	16	Human	Human	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	17	Genetics	Genetics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	18	11	11	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	179	19	Vakkilainen	Vakkilainen	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	20	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	21	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	179	22	Kivipensas	Kivipensas	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	23	P	P	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	24	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	179	25	Kaitila	Kaitila	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	26	I	I	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	27	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	179	28	de	de	FW
work_gukk34cj2ba2hfeeqnbcodfs6m	179	29	la	la	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	30	Chapelle	Chapelle	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	31	A	A	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	32	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	179	33	Ridanpää	Ridanpää	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	34	M	m	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	35	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	179	36	Integrated	integrate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	37	high	high	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	179	38	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	179	39	resolution	resolution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	40	BAC	BAC	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	41	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	179	42	P1	p1	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	43	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	179	44	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	179	45	transcript	transcript	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	46	map	map	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	47	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	48	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	179	49	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	179	50	region	region	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	51	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	52	chromosome	chromosome	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	179	53	9p13	9p13	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	179	54	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	180	1	Genomics	Genomics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	180	2	1999	1999	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	180	3	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	180	4	59	59	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	180	5	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	180	6	319	319	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	180	7	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	180	8	325	325	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	180	9	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	181	1	12	12	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	181	2	Ridanpää	Ridanpää	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	3	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	181	5	van	van	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	6	Eenennaam	Eenennaam	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	7	H	H	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	181	9	Pelin	Pelin	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	10	K	K	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	11	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	12	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	13	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	181	14	Mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	181	15	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	181	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	181	17	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	18	component	component	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	181	19	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	181	20	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	21	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	181	22	cause	cause	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	181	23	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	181	24	pleiotropic	pleiotropic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	181	25	human	human	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	181	26	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	181	27	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	181	28	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	181	29	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	181	30	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	181	31	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	181	32	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	182	1	Cell	Cell	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	182	2	2001	2001	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	182	3	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	182	4	104	104	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	182	5	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	182	6	195	195	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	182	7	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	182	8	203	203	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	182	9	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	183	1	13	13	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	183	2	van	van	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	3	Eenennaam	Eenennaam	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	4	H	H	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	5	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	183	6	Jarrous	Jarrous	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	7	N	N	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	8	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	183	9	van	van	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	10	Venrooij	Venrooij	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	11	WJ	WJ	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	12	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	183	13	Pruijn	Pruijn	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	14	GJ	GJ	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	15	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	183	16	Archi-	archi-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	183	17	tecture	tecture	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	183	18	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	183	19	function	function	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	183	20	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	183	21	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	183	22	human	human	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	183	23	endonucleases	endonuclease	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	183	24	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	25	P	P	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	26	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	183	27	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	28	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	183	29	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	184	1	IUBMB	IUBMB	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	184	2	Life	life	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	184	3	2000	2000	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	184	4	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	184	5	49	49	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	184	6	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	184	7	265	265	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	184	8	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	184	9	272	272	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	184	10	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	185	1	14	14	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	185	2	Norio	Norio	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	185	3	R	R	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	185	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	185	5	Nevanlinna	Nevanlinna	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	185	6	HR	HR	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	185	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	185	8	Perheentupa	Perheentupa	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	185	9	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	185	10	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	185	11	Hereditary	hereditary	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	185	12	diseases	disease	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	185	13	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	185	14	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	185	15	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	185	16	rare	rare	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	185	17	flora	flora	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	185	18	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	185	19	rare	rare	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	185	20	soil	soil	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	185	21	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	186	1	Ann	Ann	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	186	2	Clin	Clin	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	186	3	Res	Res	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	186	4	1973	1973	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	186	5	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	186	6	5	5	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	186	7	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	186	8	109	109	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	186	9	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	186	10	141	141	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	186	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	187	1	15	15	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	187	2	Nevanlinna	Nevanlinna	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	187	3	HR	hr	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	187	4	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	187	5	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	187	6	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	187	7	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	187	8	structure	structure	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	187	9	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	188	1	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	188	2	genetic	genetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	188	3	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	188	4	genealogical	genealogical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	188	5	study	study	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	188	6	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	189	1	Hereditas	Hereditas	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	189	2	1972	1972	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	189	3	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	189	4	71	71	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	189	5	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	189	6	195	195	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	189	7	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	189	8	236	236	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	189	9	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	190	1	16	16	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	190	2	de	de	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	190	3	la	la	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	190	4	Chapelle	Chapelle	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	190	5	A	A	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	190	6	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	190	7	Disease	Disease	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	190	8	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	190	9	mapping	mapping	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	190	10	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	190	11	isolated	isolate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	190	12	human	human	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	190	13	popu-	popu-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	190	14	lations	lation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	190	15	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	190	16	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	190	17	example	example	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	190	18	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	190	19	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	190	20	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	191	1	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	191	2	Med	Med	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	191	3	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	191	4	1993	1993	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	191	5	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	191	6	30	30	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	191	7	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	191	8	857	857	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	191	9	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	191	10	865	865	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	191	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	192	1	17	17	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	192	2	de	de	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	192	3	la	la	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	192	4	Chapelle	Chapelle	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	192	5	A	A	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	192	6	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	192	7	Wright	Wright	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	192	8	F	F	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	192	9	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	192	10	Linkage	linkage	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	192	11	disequilibrium	disequilibrium	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	192	12	mapping	mapping	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	192	13	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	192	14	isolated	isolated	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	192	15	populations	population	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	192	16	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	192	17	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	192	18	example	example	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	192	19	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	192	20	Finland	Finland	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	192	21	revisited	revisit	VBD
work_gukk34cj2ba2hfeeqnbcodfs6m	192	22	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	193	1	Proc	Proc	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	193	2	Natl	Natl	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	193	3	Acad	Acad	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	193	4	Sci	Sci	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	193	5	1998	1998	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	193	6	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	193	7	95	95	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	193	8	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	193	9	12416	12416	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	193	10	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	193	11	12423	12423	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	193	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	194	1	18	18	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	194	2	Lahiri	Lahiri	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	3	DK	DK	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	194	5	Bye	Bye	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	6	S	S	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	194	8	Nürnberger	Nürnberger	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	9	Jr	Jr	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	10	JI	JI	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	11	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	194	12	Hodes	Hodes	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	13	ME	ME	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	14	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	194	15	Crisp	Crisp	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	16	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	17	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	194	18	A	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	194	19	non-	non-	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	194	20	organic	organic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	194	21	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	194	22	non	non	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	194	23	-	-	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	194	24	enzymatic	enzymatic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	194	25	extraction	extraction	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	194	26	method	method	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	194	27	gives	give	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	194	28	higher	high	JJR
work_gukk34cj2ba2hfeeqnbcodfs6m	194	29	yields	yield	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	194	30	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	194	31	genomic	genomic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	194	32	DNA	dna	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	194	33	from	from	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	194	34	whole	whole	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	194	35	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	194	36	blood	blood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	194	37	samples	sample	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	194	38	than	than	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	194	39	do	do	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	194	40	nine	nine	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	194	41	other	other	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	194	42	methods	method	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	194	43	tested	test	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	194	44	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	195	1	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	195	2	Biochem	Biochem	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	195	3	Biophys	Biophys	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	195	4	Methods	Methods	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	195	5	1992	1992	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	195	6	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	195	7	25	25	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	195	8	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	195	9	193	193	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	195	10	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	195	11	205	205	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	195	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	196	1	19	19	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	196	2	Pelin	Pelin	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	196	3	K	K	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	196	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	196	5	Hilpelä	Hilpelä	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	196	6	P	p	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	196	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	196	8	Donner	Donner	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	196	9	K	K	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	196	10	et	et	FW
work_gukk34cj2ba2hfeeqnbcodfs6m	196	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	196	12	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	196	13	Mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	196	14	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	196	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	196	16	nebulin	nebulin	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	196	17	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	196	18	associated	associate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	196	19	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	196	20	autosomal	autosomal	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	196	21	recessive	recessive	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	196	22	nemaline	nemaline	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	196	23	myopathy	myopathy	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	196	24	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	197	1	Proc	Proc	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	197	2	Natl	Natl	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	197	3	Acad	Acad	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	197	4	Sci	Sci	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	197	5	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	197	6	1999	1999	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	197	7	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	197	8	96	96	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	197	9	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	197	10	2305	2305	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	197	11	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	197	12	2310	2310	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	197	13	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	198	1	20	20	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	198	2	Sulisalo	Sulisalo	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	198	3	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	198	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	198	5	Mäkitie	mäkitie	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	198	6	O	o	UH
work_gukk34cj2ba2hfeeqnbcodfs6m	198	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	198	8	Sistonen	Sistonen	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	198	9	P	P	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	198	10	et	et	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	198	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	198	12	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	198	13	Uniparental	uniparental	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	198	14	disomy	disomy	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	198	15	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	198	16	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	198	17	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	198	18	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	198	19	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	198	20	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	199	1	Eur	Eur	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	199	2	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	199	3	Hum	Hum	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	199	4	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	199	5	1997	1997	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	199	6	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	199	7	5	5	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	199	8	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	199	9	35	35	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	199	10	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	199	11	42	42	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	199	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	200	1	21	21	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	200	2	Rannala	Rannala	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	200	3	B	B	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	200	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	200	5	Slatkin	Slatkin	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	200	6	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	200	7	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	200	8	Likelihood	likelihood	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	200	9	analysis	analysis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	200	10	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	200	11	disequilibrium	disequilibrium	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	200	12	mapping	mapping	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	200	13	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	200	14	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	200	15	related	related	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	200	16	problems	problem	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	200	17	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	201	1	Am	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	201	2	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	201	3	Hum	Hum	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	201	4	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	201	5	1998	1998	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	201	6	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	201	7	62	62	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	201	8	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	201	9	459	459	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	201	10	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	201	11	473	473	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	201	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	202	1	22	22	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	202	2	Risch	Risch	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	202	3	N	N	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	202	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	202	5	Teng	Teng	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	202	6	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	202	7	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	202	8	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	202	9	relative	relative	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	202	10	power	power	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	202	11	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	202	12	family	family	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	202	13	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	202	14	based	base	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	202	15	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	202	16	case-	case-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	202	17	control	control	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	202	18	designs	design	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	202	19	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	202	20	linkage	linkage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	202	21	disequilibrium	disequilibrium	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	202	22	studies	study	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	202	23	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	202	24	complex	complex	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	202	25	human	human	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	202	26	diseases	disease	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	202	27	I.	I.	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	202	28	DNA	DNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	202	29	pooling	pooling	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	202	30	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	203	1	Genome	Genome	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	203	2	Res	Res	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	203	3	1998	1998	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	203	4	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	203	5	8	8	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	203	6	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	203	7	1273	1273	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	203	8	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	203	9	1288	1288	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	203	10	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	204	1	23	23	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	204	2	Labuda	Labuda	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	204	3	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	204	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	204	5	Labuda	Labuda	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	204	6	D	D	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	204	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	204	8	Korab	Korab	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	204	9	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	204	10	Laskowska	Laskowska	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	204	11	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	204	12	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	204	13	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	204	14	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	204	15	Linkage	linkage	VB
work_gukk34cj2ba2hfeeqnbcodfs6m	204	16	disequili-	disequili-	FW
work_gukk34cj2ba2hfeeqnbcodfs6m	204	17	brium	brium	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	204	18	analysis	analysis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	204	19	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	204	20	young	young	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	204	21	populations	population	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	204	22	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	204	23	pseudo	pseudo	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	204	24	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	204	25	vitamin	vitamin	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	204	26	D-	d-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	204	27	deficiency	deficiency	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	204	28	rickets	ricket	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	204	29	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	204	30	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	204	31	founder	founder	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	204	32	effect	effect	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	204	33	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	204	34	French	french	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	204	35	Canadians	Canadians	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	204	36	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	205	1	Am	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	205	2	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	205	3	Hum	Hum	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	205	4	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	205	5	1996	1996	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	205	6	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	205	7	59	59	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	205	8	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	205	9	633	633	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	205	10	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	205	11	643	643	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	205	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	206	1	24	24	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	206	2	Schmitt	Schmitt	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	3	ME	ME	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	206	5	Bennett	Bennett	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	6	JL	JL	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	206	8	Dairaghi	Dairaghi	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	9	DJ	DJ	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	206	11	Clayton	Clayton	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	12	DA	DA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	13	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	206	14	Secondary	secondary	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	206	15	structure	structure	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	206	16	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	206	17	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	18	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	19	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	206	20	as	as	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	206	21	predicted	predict	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	206	22	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	206	23	phylogenetic	phylogenetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	206	24	comparison	comparison	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	206	25	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	207	1	FASEB	FASEB	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	207	2	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	207	3	1993	1993	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	207	4	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	207	5	7	7	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	207	6	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	207	7	208	208	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	207	8	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	207	9	213	213	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	207	10	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	208	1	25	25	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	208	2	Sbisà	Sbisà	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	208	3	E	E	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	208	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	208	5	Pesole	Pesole	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	208	6	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	208	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	208	8	Tullo	Tullo	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	208	9	A	A	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	208	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	208	11	Saccone	Saccone	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	208	12	C	C	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	208	13	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	208	14	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	208	15	evolution	evolution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	208	16	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	208	17	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	208	18	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	208	19	P-	P-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	208	20	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	208	21	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	208	22	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	208	23	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	208	24	associated	associate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	208	25	RNAs	rna	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	208	26	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	208	27	phylogenetic	phylogenetic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	208	28	analysis	analysis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	208	29	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	208	30	nucleotide	nucleotide	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	208	31	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	208	32	rate	rate	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	208	33	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	209	1	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	209	2	Mol	Mol	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	209	3	Evol	Evol	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	209	4	1996	1996	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	209	5	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	209	6	43	43	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	209	7	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	209	8	46	46	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	209	9	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	209	10	57	57	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	209	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	210	1	26	26	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	210	2	Tremblay	Tremblay	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	210	3	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	210	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	210	5	Vézina	Vézina	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	210	6	H	h	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	210	7	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	210	8	New	new	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	210	9	estimates	estimate	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	210	10	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	210	11	intergenerational	intergenerational	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	210	12	time	time	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	210	13	intervals	interval	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	210	14	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	210	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	210	16	calculation	calculation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	210	17	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	210	18	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	210	19	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	210	20	origins	origin	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	210	21	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	210	22	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	210	23	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	211	1	Am	be	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	211	2	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	211	3	Hum	Hum	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	211	4	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	211	5	2000	2000	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	211	6	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	211	7	66	66	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	211	8	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	211	9	651	651	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	211	10	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	211	11	658	658	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	211	12	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	212	1	27	27	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	212	2	Jacobsen	Jacobsen	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	3	MR	MR	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	212	5	Cao	Cao	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	6	L	L	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	7	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	212	8	G	G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	9	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	212	10	Wang	Wang	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	11	Y	Y	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	12	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	212	13	L	L	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	14	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	212	15	Pedersen	Pedersen	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	16	T	t	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	17	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	212	18	Dynamic	dynamic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	212	19	localiza-	localiza-	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	20	tion	tion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	21	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	22	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	23	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	24	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	25	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	26	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	212	27	nucleolus	nucleolus	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	28	observed	observe	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	29	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	30	fluorescent	fluorescent	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	31	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	212	32	cytochemistry	cytochemistry	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	33	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	212	34	living	live	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	212	35	cells	cell	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	212	36	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	213	1	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	213	2	Cell	Cell	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	213	3	Biol	Biol	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	213	4	1995	1995	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	213	5	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	213	6	131	131	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	213	7	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	213	8	1649	1649	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	213	9	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	213	10	1658	1658	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	213	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	214	1	28	28	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	214	2	Schmitt	Schmitt	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	3	ME	ME	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	214	5	Clayton	Clayton	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	6	DA	DA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	7	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	214	8	Yeast	yeast	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	214	9	site	site	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	214	10	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	214	11	specific	specific	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	214	12	ribonucleoprotein	ribonucleoprotein	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	214	13	endoribonuclease	endoribonuclease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	214	14	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	15	contains	contain	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	214	16	an	an	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	214	17	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	18	component	component	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	214	19	homolo-	homolo-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	20	gous	gous	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	21	to	to	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	214	22	mammalian	mammalian	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	23	RNase	RNase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	24	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	25	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	214	26	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	214	27	essential	essential	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	214	28	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	214	29	cell	cell	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	214	30	viability	viability	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	214	31	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	215	1	Genes	Genes	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	215	2	Dev	Dev	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	215	3	1992	1992	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	215	4	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	215	5	6	6	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	215	6	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	215	7	1975	1975	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	215	8	–	–	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	215	9	1985	1985	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	215	10	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	216	1	29	29	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	216	2	Li	Li	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	216	3	K	K	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	216	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	216	5	Smagula	Smagula	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	216	6	CS	CS	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	216	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	216	8	Parsons	Parsons	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	216	9	WJ	WJ	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	216	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	216	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	216	12	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	216	13	Subcellular	subcellular	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	216	14	partitioning	partitioning	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	216	15	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	216	16	MRP	MRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	216	17	RNA	RNA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	216	18	assessed	assess	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	216	19	by	by	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	216	20	ultrastructural	ultrastructural	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	216	21	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	216	22	biochemical	biochemical	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	216	23	analysis	analysis	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	216	24	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	217	1	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	217	2	Cell	Cell	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	217	3	Biol	Biol	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	217	4	1994	1994	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	217	5	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	217	6	124	124	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	217	7	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	217	8	871	871	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	217	9	–	–	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	217	10	882	882	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	217	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	218	1	30	30	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	218	2	Ikonen	Ikonen	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	218	3	E	E	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	218	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	218	5	Aula	Aula	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	218	6	P	P	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	218	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	218	8	Grön	Grön	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	218	9	K	K	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	218	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	218	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	218	12	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	218	13	Spectrum	Spectrum	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	218	14	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	218	15	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	218	16	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	218	17	aspartyl-	aspartyl-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	218	18	glucosaminuria	glucosaminuria	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	218	19	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	219	1	Proc	Proc	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	219	2	Nat	Nat	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	219	3	Acad	Acad	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	219	4	Sci	Sci	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	219	5	USA	USA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	219	6	1991	1991	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	219	7	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	219	8	88	88	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	219	9	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	219	10	11222	11222	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	219	11	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	219	12	11226	11226	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	219	13	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	220	1	31	31	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	220	2	Vesa	Vesa	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	3	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	220	5	Hellsten	Hellsten	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	6	E	E	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	220	8	Verkruyse	Verkruyse	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	9	LA	LA	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	12	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	220	13	Mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	220	14	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	220	15	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	220	16	palmitoyl	palmitoyl	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	220	17	protein	protein	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	220	18	thioesterase	thioesterase	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	19	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	220	20	causing	cause	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	220	21	infantile	infantile	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	220	22	neuronal	neuronal	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	220	23	ceroid	ceroid	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	220	24	lipo-	lipo-	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	25	fuscinosis	fuscinosis	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	220	26	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	221	1	Nature	nature	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	221	2	1995	1995	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	221	3	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	221	4	376	376	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	221	5	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	221	6	584	584	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	221	7	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	221	8	587	587	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	221	9	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	222	1	32	32	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	222	2	Järvelä	Järvelä	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	3	I	I	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	222	5	Mitchison	Mitchison	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	6	HM	HM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	222	8	Munroe	Munroe	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	9	PB	PB	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	10	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	222	11	O’Rawe	o’rawe	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	222	12	AM	AM	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	13	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	222	14	Mole	Mole	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	15	SE	SE	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	16	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	222	17	Syvä-	syvä-	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	222	18	nen	nen	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	222	19	AC	AC	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	20	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	222	21	Rapid	rapid	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	222	22	diagnostic	diagnostic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	222	23	test	test	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	222	24	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	222	25	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	222	26	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	222	27	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	222	28	underlying	underlie	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	222	29	Batten	Batten	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	222	30	disease	disease	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	222	31	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	223	1	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	223	2	Med	Med	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	223	3	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	223	4	1996	1996	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	223	5	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	223	6	33	33	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	223	7	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	223	8	1041	1041	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	223	9	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	223	10	1042	1042	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	223	11	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	224	1	33	33	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	224	2	Kestilä	kestilä	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	224	3	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	224	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	224	5	Lenkkeri	Lenkkeri	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	224	6	U	U	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	224	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	224	8	Männikkö	Männikkö	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	224	9	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	224	10	et	et	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	224	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	224	12	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	224	13	Positionally	positionally	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	224	14	cloned	clone	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	224	15	gene	gene	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	224	16	for	for	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	224	17	a	a	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	224	18	novel	novel	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	224	19	glomerular	glomerular	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	224	20	protein	protein	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	224	21	nephrin	nephrin	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	224	22	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	224	23	mutated	mutate	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	224	24	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	224	25	congenital	congenital	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	224	26	nephrotic	nephrotic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	224	27	syndrome	syndrome	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	224	28	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	225	1	Mol	Mol	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	225	2	Cell	Cell	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	225	3	1998	1998	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	225	4	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	225	5	1	1	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	225	6	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	225	7	575	575	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	225	8	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	225	9	582	582	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	225	10	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	226	1	34	34	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	226	2	Virtaneva	Virtaneva	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	226	3	K	K	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	226	4	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	226	5	D’Amato	D’Amato	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	226	6	E	E	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	226	7	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	226	8	Miao	Miao	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	226	9	J	J	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	226	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	226	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	226	12	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	226	13	Unstable	unstable	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	226	14	minisatellite	minisatellite	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	226	15	expansion	expansion	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	226	16	causing	cause	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	226	17	recessively	recessively	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	226	18	inherited	inherit	VBN
work_gukk34cj2ba2hfeeqnbcodfs6m	226	19	myoclonus	myoclonus	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	226	20	epilepsy	epilepsy	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	226	21	,	,	,
work_gukk34cj2ba2hfeeqnbcodfs6m	226	22	EPM1	EPM1	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	226	23	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	227	1	Nat	Nat	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	227	2	Genet	Genet	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	227	3	1997	1997	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	227	4	;	;	:
work_gukk34cj2ba2hfeeqnbcodfs6m	227	5	15	15	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	227	6	:	:	SYM
work_gukk34cj2ba2hfeeqnbcodfs6m	227	7	393	393	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	227	8	–	–	:
work_gukk34cj2ba2hfeeqnbcodfs6m	227	9	396	396	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	227	10	.	.	.
work_gukk34cj2ba2hfeeqnbcodfs6m	228	1	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	2	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	3	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	4	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	5	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	228	6	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	7	hypoplasia	hypoplasia	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	8	M	M	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	9	Ridanpää	Ridanpää	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	10	et	et	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	11	al	al	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	12	447	447	CD
work_gukk34cj2ba2hfeeqnbcodfs6m	228	13	European	European	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	14	Journal	Journal	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	15	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	16	Human	Human	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	17	Genetics	Genetics	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	18	Worldwide	Worldwide	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	19	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	20	spectrum	spectrum	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	21	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	22	cartilage	cartilage	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	23	-	-	HYPH
work_gukk34cj2ba2hfeeqnbcodfs6m	228	24	hair	hair	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	25	hypoplasia	hypoplasia	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	26	:	:	:
work_gukk34cj2ba2hfeeqnbcodfs6m	228	27	ancient	ancient	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	28	founder	founder	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	29	origin	origin	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	30	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	31	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	228	32	major70A→G	major70A→G	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	33	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	34	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	35	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	228	36	untranslated	untranslated	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	37	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	38	Introduction	Introduction	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	39	Materials	Materials	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	40	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	228	41	methods	method	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	42	Subjects	subject	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	43	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	228	44	families	family	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	45	Mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	46	detection	detection	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	47	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	48	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	49	Analysis	Analysis	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	50	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	51	polymorphic	polymorphic	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	52	markers	marker	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	53	and	and	CC
work_gukk34cj2ba2hfeeqnbcodfs6m	228	54	reconstruction	reconstruction	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	55	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	56	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	57	Methods	Methods	NNPS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	58	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	59	computing	compute	VBG
work_gukk34cj2ba2hfeeqnbcodfs6m	228	60	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	228	61	age	age	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	62	of	of	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	63	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	228	64	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	65	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	66	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	67	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	228	68	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	69	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	70	Results	Results	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	71	RMRP	RMRP	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	72	mutations	mutation	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	73	segregate	segregate	VBP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	74	with	with	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	75	specific	specific	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	76	haplotypes	haplotype	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	77	in	in	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	78	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	228	79	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	80	population	population	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	81	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	228	82	A70	A70	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	83	G	g	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	84	substitution	substitution	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	85	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	86	the	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	228	87	most	most	RBS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	88	common	common	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	89	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	90	among	among	IN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	91	CHH	CHH	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	92	patients	patient	NNS
work_gukk34cj2ba2hfeeqnbcodfs6m	228	93	worldwide	worldwide	RB
work_gukk34cj2ba2hfeeqnbcodfs6m	228	94	The	the	DT
work_gukk34cj2ba2hfeeqnbcodfs6m	228	95	Finnish	finnish	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	96	major	major	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	97	mutation	mutation	NN
work_gukk34cj2ba2hfeeqnbcodfs6m	228	98	is	be	VBZ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	99	ancient	ancient	JJ
work_gukk34cj2ba2hfeeqnbcodfs6m	228	100	Discussion	Discussion	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	101	Acknowledgements	Acknowledgements	NNP
work_gukk34cj2ba2hfeeqnbcodfs6m	228	102	References	References	NNPS