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Gene: NPAS3 (neuronal PAS domain protein 3) Homo sapiens

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Symbol:

NPAS3

Name:

neuronal PAS domain protein 3

RGD ID:

1316218

HGNC Page

HGNC:19311

Description:

Predicted to enable DNA-binding transcription factor activity, RNA polymerase II-specific; RNA polymerase II transcription regulatory region sequence-specific DNA binding activity; and protein heterodimerization activity. Predicted to be involved in positive regulation of DNA-templated transcription and regulation of transcription by RNA polymerase II. Predicted to act upstream of or within locomotory behavior; maternal behavior; and startle response. Located in nucleoplasm.

Type:

protein-coding

RefSeq Status:

REVIEWED

Previously known as:

basic-helix-loop-helix-PAS protein MOP6; bHLHe12; class E basic helix-loop-helix protein 12; FLJ10003; FLJ11138; FLJ11605; member of PAS protein 6; MOP6; neuronal PAS domain-containing protein 3; neuronal PAS3; PAS domain-containing protein 6; PASD6

RGD Orthologs

Alliance Orthologs

More Info

more info ...

More Info

Species	Gene symbol and name	Data Source	Assertion derived from	less info ...
Orthologs ¹				less info ...
Mus musculus (house mouse):	Npas3 (neuronal PAS domain protein 3)	HGNC	EggNOG, Ensembl, HGNC, HomoloGene, Inparanoid, NCBI, OMA, OrthoDB, Panther, Treefam
Rattus norvegicus (Norway rat):	Npas3 (neuronal PAS domain protein 3)	HGNC	HomoloGene, NCBI, Panther
Chinchilla lanigera (long-tailed chinchilla):	Npas3 (neuronal PAS domain protein 3)	NCBI	Ortholog
Pan paniscus (bonobo/pygmy chimpanzee):	NPAS3 (neuronal PAS domain protein 3)	NCBI	Ortholog
Canis lupus familiaris (dog):	NPAS3 (neuronal PAS domain protein 3)	HGNC	HomoloGene, NCBI
Ictidomys tridecemlineatus (thirteen-lined ground squirrel):	Npas3 (neuronal PAS domain protein 3)	NCBI	Ortholog
Sus scrofa (pig):	NPAS3 (neuronal PAS domain protein 3)	HGNC	NCBI
Heterocephalus glaber (naked mole-rat):	Npas3 (neuronal PAS domain protein 3)	NCBI	Ortholog
Alliance orthologs ³
Rattus norvegicus (Norway rat):	Npas3 (neuronal PAS domain protein 3)	Alliance	DIOPT (HGNC)
Mus musculus (house mouse):	Npas3 (neuronal PAS domain protein 3)	Alliance	DIOPT (Ensembl Compara\|HGNC\|Hieranoid\|InParanoid\|OMA\|OrthoFinder\|OrthoInspector\|PANTHER\|PhylomeDB\|SonicParanoid)
Caenorhabditis elegans (roundworm):	hlh-34	Alliance	DIOPT (OrthoFinder\|OrthoInspector\|SonicParanoid)
Drosophila melanogaster (fruit fly):	trh	Alliance	DIOPT (Ensembl Compara\|OrthoFinder\|OrthoInspector\|PANTHER\|PhylomeDB\|SonicParanoid)
Xenopus tropicalis (tropical clawed frog):	npas3	Alliance	DIOPT (Ensembl Compara\|OMA\|OrthoFinder\|PANTHER\|PhylomeDB)
Xenopus laevis (African clawed frog):	npas3.S	Alliance	DIOPT (Xenbase)
Xenopus laevis (African clawed frog):	npas3.L	Alliance	DIOPT (Xenbase)

Allele / Splice:

See ClinVar data

Latest Assembly:

GRCh38 - Human Genome Assembly GRCh38

Position:

Human Assembly	Chr	Position (strand)	Source	Genome Browsers
Human Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCh38	14	32,934,785 - 33,804,173 (+)	NCBI	GRCh38	GRCh38	hg38	GRCh38
GRCh38.p14 Ensembl	14	32,934,396 - 33,820,863 (+)	Ensembl	GRCh38		hg38	GRCh38
GRCh37	14	33,408,085 - 34,273,379 (+)	NCBI	GRCh37	GRCh37	hg19	GRCh37
Build 36	14	32,478,200 - 33,340,702 (+)	NCBI	NCBI36	Build 36	hg18	NCBI36
Build 34	14	32,478,273 - 33,340,066	NCBI
Celera	14	13,273,962 - 14,138,956 (+)	NCBI		Celera
Cytogenetic Map	14	q13.1	NCBI
HuRef	14	13,641,962 - 14,390,327 (+)	NCBI		HuRef
CHM1_1	14	33,407,064 - 34,271,980 (+)	NCBI		CHM1_1
T2T-CHM13v2.0	14	27,131,685 - 28,001,533 (+)	NCBI		T2T-CHM13v2.0

JBrowse:

View Region in Genome Browser (JBrowse)

Model

Object Symbol	Species	Term	Qualifier	Evidence	With	Reference	Notes	Source	Original Reference(s)
NPAS3	Human	Brain-Lung-Thyroid Syndrome		IAGP	(Homo sapiens)	8554872	ClinVar Annotator: match by term: Brain-lung-thyroid syndrome	ClinVar	PMID:25741868
NPAS3	Human	schizophrenia		IAGP	(Homo sapiens)	8554872	ClinVar Annotator: match by term: Schizophrenia	ClinVar	PMID:21681106 and PMID:30208311

Only show annotations with direct experimental evidence (0 objects hidden)

Object Symbol	Species	Term	Qualifier	Evidence	With	Reference	Notes	Source	Original Reference(s)
NPAS3	Human	(S)-nicotine	decreases expression	EXP		6480464	Nicotine results in decreased expression of NPAS3 mRNA	CTD	PMID:23825647
NPAS3	Human	1,2-dichloroethane	decreases expression	ISO	Npas3 (Mus musculus)	6480464	ethylene dichloride results in decreased expression of NPAS3 mRNA	CTD	PMID:28960355
NPAS3	Human	1-naphthylamine	affects response to substance	EXP		6480464	NPAS3 gene SNP affects the susceptibility to 1-Naphthylamine	CTD	PMID:25622337
NPAS3	Human	17beta-estradiol	multiple interactions	EXP		6480464	[Estradiol co-treated with Tetrachlorodibenzodioxin] results in decreased expression of NPAS3 mRNA	CTD	PMID:19619570
NPAS3	Human	17beta-estradiol	multiple interactions	ISO	Npas3 (Rattus norvegicus)	6480464	[bisphenol A co-treated with Estradiol] results in increased expression of NPAS3 mRNA	CTD	PMID:26496021
NPAS3	Human	17beta-estradiol	decreases expression	EXP		6480464	Estradiol results in decreased expression of NPAS3 mRNA	CTD	PMID:19167446 and PMID:19619570
NPAS3	Human	2,3,7,8-tetrachlorodibenzodioxine	multiple interactions	EXP		6480464	[Estradiol co-treated with Tetrachlorodibenzodioxin] results in decreased expression of NPAS3 mRNA	CTD	PMID:19619570
NPAS3	Human	2,3,7,8-tetrachlorodibenzodioxine	decreases expression	ISO	Npas3 (Mus musculus)	6480464	Tetrachlorodibenzodioxin results in decreased expression of NPAS3 mRNA	CTD	PMID:37172768
NPAS3	Human	2,3,7,8-tetrachlorodibenzodioxine	affects expression	ISO	Npas3 (Mus musculus)	6480464	Tetrachlorodibenzodioxin affects the expression of NPAS3 mRNA	CTD	PMID:21570461
NPAS3	Human	2,3,7,8-tetrachlorodibenzodioxine	decreases expression	EXP		6480464	Tetrachlorodibenzodioxin results in decreased expression of NPAS3 mRNA	CTD	PMID:19619570
NPAS3	Human	4,4'-sulfonyldiphenol	decreases expression	ISO	Npas3 (Mus musculus)	6480464	bisphenol S results in decreased expression of NPAS3 mRNA	CTD	PMID:39298647
NPAS3	Human	acrylamide	decreases expression	ISO	Npas3 (Rattus norvegicus)	6480464	Acrylamide results in decreased expression of NPAS3 mRNA	CTD	PMID:28959563
NPAS3	Human	aflatoxin B1	decreases methylation	EXP		6480464	Aflatoxin B1 results in decreased methylation of NPAS3 gene	CTD	PMID:27153756
NPAS3	Human	aflatoxin B1	decreases expression	EXP		6480464	Aflatoxin B1 results in decreased expression of NPAS3 mRNA	CTD	PMID:32234424
NPAS3	Human	aldehydo-D-glucose	decreases expression	ISO	Npas3 (Mus musculus)	6480464	Glucose results in decreased expression of NPAS3 mRNA	CTD	PMID:31525975
NPAS3	Human	arsenite(3-)	multiple interactions	EXP		6480464	arsenite inhibits the reaction [G3BP1 protein binds to NPAS3 mRNA]	CTD	PMID:32406909
NPAS3	Human	atrazine	affects methylation	ISO	Npas3 (Rattus norvegicus)	6480464	Atrazine affects the methylation of NPAS3 gene	CTD	PMID:35440735
NPAS3	Human	benzo[a]pyrene	decreases expression	ISO	Npas3 (Mus musculus)	6480464	Benzo(a)pyrene results in decreased expression of NPAS3 mRNA	CTD	PMID:20713471
NPAS3	Human	benzo[a]pyrene	decreases expression	EXP		6480464	Benzo(a)pyrene results in decreased expression of NPAS3 mRNA	CTD	PMID:32234424
NPAS3	Human	benzo[a]pyrene	increases methylation	EXP		6480464	Benzo(a)pyrene results in increased methylation of NPAS3 3' UTR and Benzo(a)pyrene results in increased methylation of NPAS3 promoter	CTD	PMID:27901495
NPAS3	Human	benzo[a]pyrene	affects methylation	EXP		6480464	Benzo(a)pyrene affects the methylation of NPAS3 intron	CTD	PMID:30157460
NPAS3	Human	benzo[a]pyrene	decreases methylation	ISO	Npas3 (Mus musculus)	6480464	Benzo(a)pyrene results in decreased methylation of NPAS3 intron	CTD	PMID:27901495
NPAS3	Human	bis(2-ethylhexyl) phthalate	decreases expression	EXP		6480464	Diethylhexyl Phthalate results in decreased expression of NPAS3 mRNA	CTD	PMID:31163220
NPAS3	Human	bisphenol A	multiple interactions	ISO	Npas3 (Rattus norvegicus)	6480464	[bisphenol A co-treated with Estradiol] results in increased expression of NPAS3 mRNA	CTD	PMID:26496021
NPAS3	Human	bisphenol A	increases expression	ISO	Npas3 (Mus musculus)	6480464	bisphenol A results in increased expression of NPAS3 mRNA	CTD	PMID:32156529
NPAS3	Human	bisphenol A	decreases methylation	EXP		6480464	bisphenol A results in decreased methylation of NPAS3 gene	CTD	PMID:31601247
NPAS3	Human	bisphenol A	increases expression	ISO	Npas3 (Rattus norvegicus)	6480464	bisphenol A results in increased expression of NPAS3 mRNA	CTD	PMID:34947998
NPAS3	Human	cadmium dichloride	increases expression	EXP		6480464	Cadmium Chloride results in increased expression of NPAS3 mRNA	CTD	PMID:38382870
NPAS3	Human	casticin	decreases expression	ISO	Npas3 (Mus musculus)	6480464	casticin results in decreased expression of NPAS3 mRNA	CTD	PMID:28444820
NPAS3	Human	CGP 52608	multiple interactions	EXP		6480464	CGP 52608 promotes the reaction [RORA protein binds to NPAS3 gene]	CTD	PMID:28238834
NPAS3	Human	chlordecone	increases expression	ISO	Npas3 (Mus musculus)	6480464	Chlordecone results in increased expression of NPAS3 mRNA	CTD	PMID:33711761
NPAS3	Human	choline	multiple interactions	ISO	Npas3 (Mus musculus)	6480464	[Methionine deficiency co-treated with Choline deficiency co-treated with Folic Acid deficiency] results in increased methylation of NPAS3 gene	CTD	PMID:20938992
NPAS3	Human	coumestrol	multiple interactions	EXP		6480464	[Coumestrol co-treated with 2 more ...	CTD	PMID:19167446
NPAS3	Human	coumestrol	decreases expression	EXP		6480464	Coumestrol results in decreased expression of NPAS3 mRNA	CTD	PMID:19167446
NPAS3	Human	D-glucose	decreases expression	ISO	Npas3 (Mus musculus)	6480464	Glucose results in decreased expression of NPAS3 mRNA	CTD	PMID:31525975
NPAS3	Human	dorsomorphin	multiple interactions	EXP		6480464	[NOG protein co-treated with Phenylmercuric Acetate co-treated with dorsomorphin co-treated with 4-(5-benzo(1 more ...	CTD	PMID:27188386
NPAS3	Human	Enterolactone	multiple interactions	EXP		6480464	[Coumestrol co-treated with 2 and 3-bis(3'-hydroxybenzyl)butyrolactone] results in decreased expression of NPAS3 mRNA	CTD	PMID:19167446
NPAS3	Human	folic acid	multiple interactions	ISO	Npas3 (Mus musculus)	6480464	[Methionine deficiency co-treated with Choline deficiency co-treated with Folic Acid deficiency] results in increased methylation of NPAS3 gene	CTD	PMID:20938992
NPAS3	Human	folic acid	decreases expression	ISO	Npas3 (Mus musculus)	6480464	Folic Acid results in decreased expression of NPAS3 mRNA	CTD	PMID:25629700
NPAS3	Human	formaldehyde	decreases expression	EXP		6480464	Formaldehyde results in decreased expression of NPAS3 mRNA	CTD	PMID:27905399
NPAS3	Human	FR900359	increases phosphorylation	EXP		6480464	FR900359 results in increased phosphorylation of NPAS3 protein	CTD	PMID:37730182
NPAS3	Human	fulvestrant	increases methylation	EXP		6480464	Fulvestrant results in increased methylation of NPAS3 gene	CTD	PMID:31601247
NPAS3	Human	genistein	decreases expression	EXP		6480464	Genistein results in decreased expression of NPAS3 mRNA	CTD	PMID:26865667
NPAS3	Human	glucose	decreases expression	ISO	Npas3 (Mus musculus)	6480464	Glucose results in decreased expression of NPAS3 mRNA	CTD	PMID:31525975
NPAS3	Human	hydralazine	multiple interactions	EXP		6480464	[Hydralazine co-treated with Valproic Acid] results in increased expression of NPAS3 mRNA	CTD	PMID:17183730
NPAS3	Human	L-methionine	multiple interactions	ISO	Npas3 (Mus musculus)	6480464	[Methionine deficiency co-treated with Choline deficiency co-treated with Folic Acid deficiency] results in increased methylation of NPAS3 gene	CTD	PMID:20938992
NPAS3	Human	Lasiocarpine	decreases expression	EXP		6480464	lasiocarpine results in decreased expression of NPAS3 mRNA	CTD	PMID:32234424
NPAS3	Human	methylmercury chloride	increases expression	EXP		6480464	methylmercuric chloride results in increased expression of NPAS3 mRNA	CTD	PMID:23179753
NPAS3	Human	nicotine	decreases expression	EXP		6480464	Nicotine results in decreased expression of NPAS3 mRNA	CTD	PMID:23825647
NPAS3	Human	O-methyleugenol	decreases expression	EXP		6480464	methyleugenol results in decreased expression of NPAS3 mRNA	CTD	PMID:32234424
NPAS3	Human	phenylmercury acetate	increases expression	EXP		6480464	Phenylmercuric Acetate results in increased expression of NPAS3 mRNA	CTD	PMID:26272509
NPAS3	Human	phenylmercury acetate	multiple interactions	EXP		6480464	[NOG protein co-treated with Phenylmercuric Acetate co-treated with dorsomorphin co-treated with 4-(5-benzo(1 and 3)dioxol-5-yl-4-pyridin-2-yl-1H-imidazol-2-yl)benzamide] results in increased expression of NPAS3 mRNA	CTD	PMID:27188386
NPAS3	Human	resveratrol	multiple interactions	EXP		6480464	[Coumestrol co-treated with Resveratrol] results in decreased expression of NPAS3 mRNA and [Plant Extracts co-treated with Resveratrol] results in decreased expression of NPAS3 mRNA	CTD	PMID:19167446 and PMID:23557933
NPAS3	Human	rofecoxib	increases expression	EXP		6480464	rofecoxib results in increased expression of NPAS3 mRNA	CTD	PMID:17070997
NPAS3	Human	SB 431542	multiple interactions	EXP		6480464	[NOG protein co-treated with Phenylmercuric Acetate co-treated with dorsomorphin co-treated with 4-(5-benzo(1 more ...	CTD	PMID:27188386
NPAS3	Human	silver atom	decreases expression	EXP		6480464	Silver results in decreased expression of NPAS3 mRNA	CTD	PMID:26551752
NPAS3	Human	silver atom	decreases expression	ISO	Npas3 (Mus musculus)	6480464	Silver results in decreased expression of NPAS3 mRNA	CTD	PMID:27131904
NPAS3	Human	silver(0)	decreases expression	EXP		6480464	Silver results in decreased expression of NPAS3 mRNA	CTD	PMID:26551752
NPAS3	Human	silver(0)	decreases expression	ISO	Npas3 (Mus musculus)	6480464	Silver results in decreased expression of NPAS3 mRNA	CTD	PMID:27131904
NPAS3	Human	sodium arsenite	decreases expression	ISO	Npas3 (Mus musculus)	6480464	sodium arsenite results in decreased expression of NPAS3 mRNA	CTD	PMID:36209798
NPAS3	Human	thimerosal	increases expression	ISO	Npas3 (Mus musculus)	6480464	Thimerosal results in increased expression of NPAS3 mRNA	CTD	PMID:24675092
NPAS3	Human	titanium dioxide	decreases expression	ISO	Npas3 (Mus musculus)	6480464	titanium dioxide results in decreased expression of NPAS3 mRNA	CTD	PMID:23557971
NPAS3	Human	titanium dioxide	increases methylation	ISO	Npas3 (Mus musculus)	6480464	titanium dioxide results in increased methylation of NPAS3 gene	CTD	PMID:35295148
NPAS3	Human	titanium dioxide	decreases methylation	ISO	Npas3 (Mus musculus)	6480464	titanium dioxide results in decreased methylation of NPAS3 gene	CTD	PMID:35295148
NPAS3	Human	titanium dioxide	increases expression	ISO	Npas3 (Mus musculus)	6480464	titanium dioxide results in increased expression of NPAS3 mRNA	CTD	PMID:29264374
NPAS3	Human	valproic acid	increases methylation	EXP		6480464	Valproic Acid results in increased methylation of NPAS3 gene	CTD	PMID:29154799
NPAS3	Human	valproic acid	multiple interactions	EXP		6480464	[Hydralazine co-treated with Valproic Acid] results in increased expression of NPAS3 mRNA more ...	CTD	PMID:17183730 and PMID:27188386
NPAS3	Human	valproic acid	decreases expression	EXP		6480464	Valproic Acid results in decreased expression of NPAS3 mRNA	CTD	PMID:23179753
NPAS3	Human	valproic acid	increases expression	EXP		6480464	Valproic Acid results in increased expression of NPAS3 mRNA	CTD	PMID:24383497 more ...

Biological Process

Only show annotations with direct experimental evidence (0 objects hidden)

Object Symbol	Species	Term	Qualifier	Evidence	With	Reference	Notes	Source	Original Reference(s)
NPAS3	Human	locomotory behavior	acts_upstream_of_or_within	ISO	MGI:3054783	9068941	PMID:15347806	MGI	PMID:15347806
NPAS3	Human	maternal behavior	acts_upstream_of_or_within	ISO	MGI:109205	9068941	PMID:15347806	MGI	PMID:15347806
NPAS3	Human	positive regulation of DNA-templated transcription	involved_in	ISS	UniProtKB:Q9QZQ0	150520179		UniProt	GO_REF:0000024
NPAS3	Human	regulation of DNA-templated transcription	involved_in	IEA	InterPro:IPR013767	150520179		InterPro	GO_REF:0000002
NPAS3	Human	regulation of transcription by RNA polymerase II	involved_in	IBA	FB:FBgn0004666 more ...	150520179		GO_Central	GO_REF:0000033
NPAS3	Human	startle response	acts_upstream_of_or_within	ISO	MGI:109205	9068941	PMID:15347806	MGI	PMID:15347806

Cellular Component

Only show annotations with direct experimental evidence (0 objects hidden)

Object Symbol	Species	Term	Qualifier	Evidence	With	Reference	Notes	Source	Original Reference(s)
NPAS3	Human	chromatin	located_in	ISA	tfclass:1.2.5	150520179		NTNU_SB	GO_REF:0000113
NPAS3	Human	nucleoplasm	located_in	IDA		150520179		HPA	GO_REF:0000052
NPAS3	Human	nucleus	located_in	IEA	UniProtKB-KW:KW-0539	150520179		UniProt	GO_REF:0000043
NPAS3	Human	nucleus	located_in	IEA	UniProtKB-SubCell:SL-0191	150520179		UniProt	GO_REF:0000044

Molecular Function

Only show annotations with direct experimental evidence (0 objects hidden)

Object Symbol	Species	Term	Qualifier	Evidence	With	Reference	Notes	Source	Original Reference(s)
NPAS3	Human	DNA binding	enables	IEA	UniProtKB-KW:KW-0238	150520179		UniProt	GO_REF:0000043
NPAS3	Human	DNA-binding transcription factor activity, RNA polymerase II-specific	enables	ISA	tfclass:1.2.5	150520179		NTNU_SB	GO_REF:0000113
NPAS3	Human	DNA-binding transcription factor activity, RNA polymerase II-specific	enables	IBA	FB:FBgn0004666 more ...	150520179		GO_Central	GO_REF:0000033
NPAS3	Human	protein binding	enables	IPI	UniProtKB:Q9HBZ2	150520179	PMID:24722188 and PMID:33961781	IntAct	PMID:24722188 and PMID:33961781
NPAS3	Human	protein dimerization activity	enables	IEA	InterPro:IPR011598 and InterPro:IPR036638	150520179		InterPro	GO_REF:0000002
NPAS3	Human	protein heterodimerization activity	enables	ISS	UniProtKB:Q9QZQ0	150520179		UniProt	GO_REF:0000024
NPAS3	Human	RNA polymerase II transcription regulatory region sequence-specific DNA binding	enables	IBA	FB:FBgn0004666 more ...	150520179		GO_Central	GO_REF:0000033

Object Symbol	Species	Term	Qualifier	Evidence	With	Reference	Notes	Source	Original Reference(s)
NPAS3	Human	Esophageal atresia		IAGP	(Homo sapiens)	8554872	ClinVar Annotator: match by term: Esophageal atresia	ClinVar
NPAS3	Human	Esophageal atresia		IAGP	(Homo sapiens)	8554872	ClinVar Annotator: match by term: Esophageal atresia	ClinVar
NPAS3	Human	Schizophrenia		IAGP	(Homo sapiens)	8554872	ClinVar Annotator: match by term: Schizophrenia	ClinVar	PMID:21681106 and PMID:30208311
NPAS3	Human	Schizophrenia		IAGP	(Homo sapiens)	8554872	ClinVar Annotator: match by term: Schizophrenia	ClinVar

#	Reference Title	Reference Citation
1.	GOAs Human GO annotations	GOA_HUMAN data from the GO Consortium
2.	ClinVar Automated Import and Annotation Pipeline	RGD automated import pipeline for ClinVar variants, variant-to-disease annotations and gene-to-disease annotations
3.	Data Import for Chemical-Gene Interactions	RGD automated import pipeline for gene-chemical interactions

PMID:10534623	PMID:12477932	PMID:12746393	PMID:14702039	PMID:15820313	PMID:17008307	PMID:18029348	PMID:18195134	PMID:18317462	PMID:18519826	PMID:18521090	PMID:18711365
PMID:19073416	PMID:19073419	PMID:19274049	PMID:19573479	PMID:19913121	PMID:20379614	PMID:20466522	PMID:20628086	PMID:20713499	PMID:21306425	PMID:21703424	PMID:21709683
PMID:21873635	PMID:22228203	PMID:22228753	PMID:23337948	PMID:23408798	PMID:23817569	PMID:24218632	PMID:24324551	PMID:24535457	PMID:24722188	PMID:25240745	PMID:25609649
PMID:25982957	PMID:27782878	PMID:28298427	PMID:28499489	PMID:30509165	PMID:32393512	PMID:33726789	PMID:33758288	PMID:33961781	PMID:36044858	PMID:37480305	PMID:37788672

NPAS3
(Homo sapiens - human)

Human Assembly	Chr	Position (strand)	Source	Genome Browsers
Human Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCh38	14	32,934,785 - 33,804,173 (+)	NCBI	GRCh38	GRCh38	hg38	GRCh38
GRCh38.p14 Ensembl	14	32,934,396 - 33,820,863 (+)	Ensembl	GRCh38		hg38	GRCh38
GRCh37	14	33,408,085 - 34,273,379 (+)	NCBI	GRCh37	GRCh37	hg19	GRCh37
Build 36	14	32,478,200 - 33,340,702 (+)	NCBI	NCBI36	Build 36	hg18	NCBI36
Build 34	14	32,478,273 - 33,340,066	NCBI
Celera	14	13,273,962 - 14,138,956 (+)	NCBI		Celera
Cytogenetic Map	14	q13.1	NCBI
HuRef	14	13,641,962 - 14,390,327 (+)	NCBI		HuRef
CHM1_1	14	33,407,064 - 34,271,980 (+)	NCBI		CHM1_1
T2T-CHM13v2.0	14	27,131,685 - 28,001,533 (+)	NCBI		T2T-CHM13v2.0

Npas3
(Mus musculus - house mouse)

Mouse Assembly	Chr	Position (strand)	Source	Genome Browsers
Mouse Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCm39	12	53,294,874 - 54,118,956 (+)	NCBI	GRCm39	GRCm39	mm39
GRCm39 Ensembl	12	53,294,940 - 54,118,958 (+)	Ensembl		GRCm39 Ensembl
GRCm38	12	53,248,026 - 54,072,173 (+)	NCBI	GRCm38	GRCm38	mm10	GRCm38
GRCm38.p6 Ensembl	12	53,248,677 - 54,072,175 (+)	Ensembl	GRCm38		mm10	GRCm38
GRCm38.p6 Ensembl	12	53,248,157 - 54,072,175 (+)	Ensembl	GRCm38		mm10	GRCm38
MGSCv37	12	54,349,664 - 55,173,162 (+)	NCBI	GRCm37	MGSCv37	mm9	NCBIm37
MGSCv36	12	54,170,303 - 54,990,700 (+)	NCBI		MGSCv36	mm8
Celera	12	54,549,790 - 55,376,477 (+)	NCBI		Celera
Cytogenetic Map	12	C1	NCBI
cM Map	12	22.31	NCBI

Npas3
(Rattus norvegicus - Norway rat)

Rat Assembly	Chr	Position (strand)	Source	Genome Browsers
Rat Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCr8	6	76,438,064 - 77,263,185 (+)	NCBI		GRCr8
mRatBN7.2	6	70,702,773 - 71,527,928 (+)	NCBI	mRatBN7.2	mRatBN7.2
mRatBN7.2 Ensembl	6	70,703,170 - 71,524,884 (+)	Ensembl		mRatBN7.2 Ensembl
Rnor_6.0	6	74,081,995 - 74,913,025 (+)	NCBI	Rnor6.0	Rnor_6.0	rn6	Rnor6.0
Rnor_5.0	6	83,635,089 - 84,459,466 (+)	NCBI	Rnor5.0	Rnor_5.0	rn5	Rnor5.0
RGSC_v3.4	6	74,192,110 - 74,209,762 (+)	NCBI	RGSC3.4	RGSC_v3.4	rn4	RGSC3.4
RGSC_v3.1	6	74,075,148 - 74,329,176 (+)	NCBI
Celera	6	69,567,922 - 70,382,732 (+)	NCBI		Celera
Cytogenetic Map	6	q23	NCBI

Npas3
(Chinchilla lanigera - long-tailed chinchilla)

Chinchilla Assembly	Chr	Position (strand)	Source	Genome Browsers
Chinchilla Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
ChiLan1.0 Ensembl	NW_004955409	27,137,667 - 27,975,282 (-)	Ensembl	ChiLan1.0
ChiLan1.0	NW_004955409	27,134,610 - 27,975,282 (-)	NCBI	ChiLan1.0	ChiLan1.0

NPAS3
(Pan paniscus - bonobo/pygmy chimpanzee)

Bonobo Assembly	Chr	Position (strand)	Source	Genome Browsers
Bonobo Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
NHGRI_mPanPan1-v2	15	34,254,792 - 35,121,949 (+)	NCBI		NHGRI_mPanPan1-v2
NHGRI_mPanPan1	14	33,471,295 - 34,338,452 (+)	NCBI		NHGRI_mPanPan1
Mhudiblu_PPA_v0	14	13,701,786 - 14,568,738 (+)	NCBI	Mhudiblu_PPA_v0	Mhudiblu_PPA_v0	panPan3
PanPan1.1	14	31,990,835 - 32,759,347 (+)	NCBI	panpan1.1	PanPan1.1	panPan2
PanPan1.1 Ensembl	14	31,893,101 - 32,758,096 (+)	Ensembl	panpan1.1		panPan2

NPAS3
(Canis lupus familiaris - dog)

Dog Assembly	Chr	Position (strand)	Source	Genome Browsers
Dog Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
CanFam3.1	8	11,959,895 - 12,799,448 (+)	NCBI	CanFam3.1	CanFam3.1	canFam3	CanFam3.1
Dog10K_Boxer_Tasha	8	11,763,424 - 12,608,564 (+)	NCBI		Dog10K_Boxer_Tasha
ROS_Cfam_1.0	8	12,062,501 - 12,903,397 (+)	NCBI		ROS_Cfam_1.0
ROS_Cfam_1.0 Ensembl	8	12,061,655 - 12,900,182 (+)	Ensembl		ROS_Cfam_1.0 Ensembl
UMICH_Zoey_3.1	8	11,746,047 - 12,585,489 (+)	NCBI		UMICH_Zoey_3.1
UNSW_CanFamBas_1.0	8	11,827,729 - 12,667,988 (+)	NCBI		UNSW_CanFamBas_1.0
UU_Cfam_GSD_1.0	8	12,112,108 - 12,957,329 (+)	NCBI		UU_Cfam_GSD_1.0

Npas3
(Ictidomys tridecemlineatus - thirteen-lined ground squirrel)

Squirrel Assembly	Chr	Position (strand)	Source	Genome Browsers
Squirrel Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
HiC_Itri_2	NW_024408640	43,803,562 - 44,639,066 (+)	NCBI		HiC_Itri_2
SpeTri2.0 Ensembl	NW_004936494	7,310,005 - 8,143,610 (+)	Ensembl	SpeTri2.0	SpeTri2.0 Ensembl
SpeTri2.0	NW_004936494	7,965,156 - 8,144,244 (+)	NCBI	SpeTri2.0	SpeTri2.0		SpeTri2.0

NPAS3
(Sus scrofa - pig)

Pig Assembly	Chr	Position (strand)	Source	Genome Browsers
Pig Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
Sscrofa11.1 Ensembl	7	65,928,075 - 66,800,991 (-)	Ensembl	Sscrofa11.1		susScr11	Sscrofa11.1
Sscrofa11.1	7	65,924,986 - 66,800,820 (-)	NCBI	Sscrofa11.1	Sscrofa11.1	susScr11	Sscrofa11.1
Sscrofa10.2	7	70,862,116 - 70,974,873 (-)	NCBI	Sscrofa10.2	Sscrofa10.2	susScr3

Npas3
(Heterocephalus glaber - naked mole-rat)

Naked Mole-Rat Assembly	Chr	Position (strand)	Source	Genome Browsers
Naked Mole-Rat Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
HetGla_female_1.0 Ensembl	NW_004624838	3,006,512 - 3,904,799 (-)	Ensembl	HetGla_female_1.0	HetGla_female_1.0 Ensembl	hetGla2
HetGla 1.0	NW_004624838	3,003,455 - 3,904,964 (-)	NCBI	HetGla_female_1.0	HetGla 1.0	hetGla2

Variants in NPAS3
118 total Variants

Name	Type	Condition(s)	Position(s)	Clinical significance
NM_173159.2(NPAS3):c.50+122459C>A	single nucleotide variant	Lung cancer [RCV000098700]	Chr14:33061825 [GRCh38] Chr14:33531031 [GRCh37] Chr14:14q13.1	uncertain significance
NM_173159.2(NPAS3):c.51-130572G>T	single nucleotide variant	Lung cancer [RCV000098701]	Chr14:33084610 [GRCh38] Chr14:33553816 [GRCh37] Chr14:14q13.1	uncertain significance
NM_173159.2(NPAS3):c.51-128603T>A	single nucleotide variant	Lung cancer [RCV000098702]	Chr14:33086579 [GRCh38] Chr14:33555785 [GRCh37] Chr14:14q13.1	uncertain significance
NM_173159.2(NPAS3):c.51-83860C>A	single nucleotide variant	Lung cancer [RCV000098703]	Chr14:33131322 [GRCh38] Chr14:33600528 [GRCh37] Chr14:14q13.1	uncertain significance
NM_173159.2(NPAS3):c.51-51620T>G	single nucleotide variant	Lung cancer [RCV000098704]	Chr14:33163562 [GRCh38] Chr14:33632768 [GRCh37] Chr14:14q13.1	uncertain significance
NM_173159.2(NPAS3):c.71A>G (p.Glu24Gly)	single nucleotide variant	Lung cancer [RCV000098705]	Chr14:33215202 [GRCh38] Chr14:33684408 [GRCh37] Chr14:14q13.1	uncertain significance
NM_173159.2(NPAS3):c.347-64548T>C	single nucleotide variant	Lung cancer [RCV000098706]	Chr14:33302638 [GRCh38] Chr14:33771844 [GRCh37] Chr14:14q13.1	uncertain significance
NM_173159.2(NPAS3):c.347-30929A>T	single nucleotide variant	Lung cancer [RCV000098707]	Chr14:33336257 [GRCh38] Chr14:33805463 [GRCh37] Chr14:14q13.1	uncertain significance
NM_173159.2(NPAS3):c.430-2324G>A	single nucleotide variant	Lung cancer [RCV000098708]	Chr14:33557797 [GRCh38] Chr14:34027003 [GRCh37] Chr14:14q13.1	uncertain significance
NM_173159.2(NPAS3):c.519+47589G>T	single nucleotide variant	Lung cancer [RCV000098709]	Chr14:33607799 [GRCh38] Chr14:34077005 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh38/hg38 14q11.2-21.2(chr14:20196945-45284802)x1	copy number loss	See cases [RCV000051485]	Chr14:20196945..45284802 [GRCh38] Chr14:20665104..45754005 [GRCh37] Chr14:19734944..44823755 [NCBI36] Chr14:14q11.2-21.2	pathogenic
GRCh38/hg38 14q11.2-21.1(chr14:23548960-41983402)x1	copy number loss	See cases [RCV000051490]	Chr14:23548960..41983402 [GRCh38] Chr14:24018169..42452605 [GRCh37] Chr14:23088009..41522355 [NCBI36] Chr14:14q11.2-21.1	pathogenic
GRCh38/hg38 14q12-21.2(chr14:30670314-44990595)x3	copy number gain	See cases [RCV000052292]	Chr14:30670314..44990595 [GRCh38] Chr14:31139520..45459798 [GRCh37] Chr14:30209271..44529548 [NCBI36] Chr14:14q12-21.2	pathogenic
GRCh38/hg38 14q11.2-21.1(chr14:20000611-38984415)x3	copy number gain	See cases [RCV000053803]	Chr14:20000611..38984415 [GRCh38] Chr14:20468770..39453619 [GRCh37] Chr14:19538610..38523370 [NCBI36] Chr14:14q11.2-21.1	pathogenic
GRCh38/hg38 14q11.2-21.1(chr14:20150949-39746154)x3	copy number gain	Developmental Delay and additional significant developmental and morphological phenotypes referred for genetic testing [RCV000053806]\|Developmental delay and additional significant developmental and morphological phenotypes referred for genetic testing [RCV000053806]\|See cases [RCV000053806]	Chr14:20150949..39746154 [GRCh38] Chr14:20619108..40215358 [GRCh37] Chr14:19688948..39285109 [NCBI36] Chr14:14q11.2-21.1	pathogenic
NM_173159.2(NPAS3):c.174C>T (p.Leu58=)	single nucleotide variant	Malignant melanoma [RCV000062746]	Chr14:33215305 [GRCh38] Chr14:33684511 [GRCh37] Chr14:32754262 [NCBI36] Chr14:14q13.1	not provided
GRCh38/hg38 14q12-21.1(chr14:30382554-37712341)x1	copy number loss	See cases [RCV000135334]	Chr14:30382554..37712341 [GRCh38] Chr14:30851760..38181546 [GRCh37] Chr14:29921511..37251297 [NCBI36] Chr14:14q12-21.1	pathogenic
GRCh38/hg38 14q11.2-32.33(chr14:20151149-106855263)x3	copy number gain	See cases [RCV000135543]	Chr14:20151149..106855263 [GRCh38] Chr14:20619308..107263478 [GRCh37] Chr14:19689148..106334523 [NCBI36] Chr14:14q11.2-32.33	pathogenic
GRCh38/hg38 14q13.1(chr14:33194658-33238149)x3	copy number gain	See cases [RCV000141300]	Chr14:33194658..33238149 [GRCh38] Chr14:33663864..33707355 [GRCh37] Chr14:32733615..32777106 [NCBI36] Chr14:14q13.1	uncertain significance
GRCh38/hg38 14q12-13.1(chr14:28803988-33234266)x1	copy number loss	See cases [RCV000142290]	Chr14:28803988..33234266 [GRCh38] Chr14:29273194..33703472 [GRCh37] Chr14:28342945..32773223 [NCBI36] Chr14:14q12-13.1	pathogenic
GRCh38/hg38 14q12-21.2(chr14:30792271-44685131)x1	copy number loss	See cases [RCV000143063]	Chr14:30792271..44685131 [GRCh38] Chr14:31261477..45154334 [GRCh37] Chr14:30331228..44224084 [NCBI36] Chr14:14q12-21.2	pathogenic
GRCh38/hg38 14q13.1-13.3(chr14:33762166-36191750)x1	copy number loss	See cases [RCV000142534]	Chr14:33762166..36191750 [GRCh38] Chr14:34231372..36660956 [GRCh37] Chr14:33301123..35730707 [NCBI36] Chr14:14q13.1-13.3	uncertain significance
GRCh38/hg38 14q11.2-32.33(chr14:20043514-106877229)x3	copy number gain	See cases [RCV000143373]	Chr14:20043514..106877229 [GRCh38] Chr14:20511673..107285437 [GRCh37] Chr14:19581513..106356482 [NCBI36] Chr14:14q11.2-32.33	pathogenic
GRCh38/hg38 14q11.2-21.2(chr14:20022693-44093672)x3	copy number gain	See cases [RCV000143186]	Chr14:20022693..44093672 [GRCh38] Chr14:20490852..44562875 [GRCh37] Chr14:19560692..43632625 [NCBI36] Chr14:14q11.2-21.2	pathogenic
GRCh38/hg38 14q11.2-21.3(chr14:20043513-48642042)x3	copy number gain	See cases [RCV000143748]	Chr14:20043513..48642042 [GRCh38] Chr14:20511672..49111245 [GRCh37] Chr14:19581512..48180995 [NCBI36] Chr14:14q11.2-21.3	pathogenic
GRCh37/hg19 14q11.2-22.2(chr14:23164384-54733411)x3	copy number gain	See cases [RCV000447658]	Chr14:23164384..54733411 [GRCh37] Chr14:14q11.2-22.2	pathogenic
GRCh37/hg19 14q11.2-32.33(chr14:19794561-107234280)x3	copy number gain	See cases [RCV000446256]	Chr14:19794561..107234280 [GRCh37] Chr14:14q11.2-32.33	pathogenic
GRCh37/hg19 14q11.2-13.1(chr14:19794561-34049214)x3	copy number gain	See cases [RCV000448273]	Chr14:19794561..34049214 [GRCh37] Chr14:14q11.2-13.1	pathogenic
NC_000014.9:g.(?_33322195)_(33377295_?)del	deletion	Schizophrenia [RCV000416890]	Chr14:33322195..33377295 [GRCh38] Chr14:33791401..33846501 [GRCh37] Chr14:32861152..32916252 [NCBI36] Chr14:14q13.1	likely pathogenic
GRCh37/hg19 14q11.2-32.33(chr14:20511673-107285437)	copy number gain	See cases [RCV000512041]	Chr14:20511673..107285437 [GRCh37] Chr14:14q11.2-32.33	pathogenic
GRCh37/hg19 14q13.1(chr14:34017469-34207276)x3	copy number gain	See cases [RCV000510542]	Chr14:34017469..34207276 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.880C>G (p.Leu294Val)	single nucleotide variant	not specified [RCV004289257]	Chr14:33774364 [GRCh38] Chr14:34243570 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2585G>A (p.Gly862Asp)	single nucleotide variant	not specified [RCV004317385]	Chr14:33800892 [GRCh38] Chr14:34270098 [GRCh37] Chr14:14q13.1	uncertain significance
t(12;14)(q14;q13)dn	translocation	not provided [RCV000714247]	Chr12:81201999 [GRCh37] Chr14:33850610..33850620 [GRCh37] Chr12:12q21.31 Chr14:14q13.1	likely pathogenic
GRCh37/hg19 14q11.1-32.33(chr14:19000422-107289053)x3	copy number gain	not provided [RCV000738412]	Chr14:19000422..107289053 [GRCh37] Chr14:14q11.1-32.33	pathogenic
GRCh37/hg19 14q11.2-32.33(chr14:19280733-107287663)x3	copy number gain	not provided [RCV000738413]	Chr14:19280733..107287663 [GRCh37] Chr14:14q11.2-32.33	pathogenic
GRCh37/hg19 14q11.2-32.33(chr14:19327823-107287663)x3	copy number gain	not provided [RCV000738414]	Chr14:19327823..107287663 [GRCh37] Chr14:14q11.2-32.33	pathogenic
GRCh37/hg19 14q13.1(chr14:33654288-33676728)x1	copy number loss	not provided [RCV000738445]	Chr14:33654288..33676728 [GRCh37] Chr14:14q13.1	benign
GRCh37/hg19 14q13.1(chr14:33658549-33676990)x1	copy number loss	not provided [RCV000738446]	Chr14:33658549..33676990 [GRCh37] Chr14:14q13.1	benign
NC_000014.9:g.(?_33318664)_(33378429_?)del	deletion	Schizophrenia [RCV000754146]	Chr14:33318664..33378429 [GRCh38] Chr14:14q13.1	likely pathogenic
NM_001164749.2(NPAS3):c.559-9G>A	single nucleotide variant	not provided [RCV000895023]	Chr14:33676202 [GRCh38] Chr14:34145408 [GRCh37] Chr14:14q13.1	benign
NM_001164749.2(NPAS3):c.2313C>T (p.Gly771=)	single nucleotide variant	not provided [RCV000923899]	Chr14:33800620 [GRCh38] Chr14:34269826 [GRCh37] Chr14:14q13.1	likely benign
NM_001164749.2(NPAS3):c.1479C>T (p.Ser493=)	single nucleotide variant	not provided [RCV000965936]	Chr14:33799786 [GRCh38] Chr14:34268992 [GRCh37] Chr14:14q13.1	benign
NM_001164749.2(NPAS3):c.294T>C (p.Ile98=)	single nucleotide variant	not provided [RCV000968699]	Chr14:33215335 [GRCh38] Chr14:33684541 [GRCh37] Chr14:14q13.1	benign
NM_173159.3(NPAS3):c.50+116547C>T	single nucleotide variant	Esophageal atresia [RCV000984759]	Chr14:33055913 [GRCh38] Chr14:33525119 [GRCh37] Chr14:14q13.1	uncertain significance
NM_173159.3(NPAS3):c.767C>A (p.Ser256Tyr)	single nucleotide variant	Esophageal atresia [RCV000984760]	Chr14:33735286 [GRCh38] Chr14:34204492 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2097T>G (p.Gly699=)	single nucleotide variant	not provided [RCV000900390]	Chr14:33800404 [GRCh38] Chr14:34269610 [GRCh37] Chr14:14q13.1	benign
NM_001164749.2(NPAS3):c.2256G>A (p.Ser752=)	single nucleotide variant	not provided [RCV000947561]	Chr14:33800563 [GRCh38] Chr14:34269769 [GRCh37] Chr14:14q13.1	benign
NM_001164749.2(NPAS3):c.2148C>T (p.Leu716=)	single nucleotide variant	not provided [RCV000893685]	Chr14:33800455 [GRCh38] Chr14:34269661 [GRCh37] Chr14:14q13.1	likely benign
NM_001164749.2(NPAS3):c.1368C>T (p.Ser456=)	single nucleotide variant	not provided [RCV000950791]	Chr14:33797523 [GRCh38] Chr14:34266729 [GRCh37] Chr14:14q13.1	benign
NM_001164749.2(NPAS3):c.867A>G (p.Thr289=)	single nucleotide variant	not provided [RCV000941731]	Chr14:33774351 [GRCh38] Chr14:34243557 [GRCh37] Chr14:14q13.1	likely benign
NM_001164749.2(NPAS3):c.616A>C (p.Met206Leu)	single nucleotide variant	not specified [RCV004302213]	Chr14:33676268 [GRCh38] Chr14:34145474 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh37/hg19 14q11.2-21.3(chr14:20511672-47481203)	copy number gain	Seizure [RCV002280625]	Chr14:20511672..47481203 [GRCh37] Chr14:14q11.2-21.3	pathogenic
GRCh37/hg19 14q12-13.1(chr14:33019818-33594129)x4	copy number gain	not provided [RCV000849127]	Chr14:33019818..33594129 [GRCh37] Chr14:14q12-13.1	uncertain significance
GRCh37/hg19 14q12-13.1(chr14:30448939-35017859)x1	copy number loss	not provided [RCV000849105]	Chr14:30448939..35017859 [GRCh37] Chr14:14q12-13.1	pathogenic
NM_001164749.2(NPAS3):c.1025A>G (p.Asn342Ser)	single nucleotide variant	not specified [RCV004289543]	Chr14:33774509 [GRCh38] Chr14:34243715 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2446A>G (p.Thr816Ala)	single nucleotide variant	not specified [RCV004308053]	Chr14:33800753 [GRCh38] Chr14:34269959 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2117G>A (p.Gly706Glu)	single nucleotide variant	not provided [RCV000910682]	Chr14:33800424 [GRCh38] Chr14:34269630 [GRCh37] Chr14:14q13.1	likely benign
NM_001164749.2(NPAS3):c.141-8G>A	single nucleotide variant	not provided [RCV000886231]	Chr14:33215174 [GRCh38] Chr14:33684380 [GRCh37] Chr14:14q13.1	likely benign
NM_001164749.2(NPAS3):c.2577C>G (p.Pro859=)	single nucleotide variant	not provided [RCV000942334]	Chr14:33800884 [GRCh38] Chr14:34270090 [GRCh37] Chr14:14q13.1	likely benign
NM_001164749.2(NPAS3):c.1857C>G (p.Ser619Arg)	single nucleotide variant	not provided [RCV000891497]	Chr14:33800164 [GRCh38] Chr14:34269370 [GRCh37] Chr14:14q13.1	benign
GRCh37/hg19 14q13.1(chr14:33656354-34157207)x1	copy number loss	not provided [RCV002472793]	Chr14:33656354..34157207 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh37/hg19 14q11.2-21.2(chr14:20511672-44829030)x3	copy number gain	not provided [RCV001006605]	Chr14:20511672..44829030 [GRCh37] Chr14:14q11.2-21.2	pathogenic
GRCh37/hg19 14q11.2-21.1(chr14:20511672-42881888)x3	copy number gain	not provided [RCV001249358]	Chr14:20511672..42881888 [GRCh37] Chr14:14q11.2-21.1	not provided
GRCh37/hg19 14q13.1(chr14:33463166-33998038)x1	copy number loss	not provided [RCV001259657]	Chr14:33463166..33998038 [GRCh37] Chr14:14q13.1	likely benign
GRCh37/hg19 14q13.1(chr14:34190493-34678663)x1	copy number loss	not provided [RCV001259658]	Chr14:34190493..34678663 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh37/hg19 14q13.1-21.2(chr14:33608925-44570367)	copy number loss	Poor motor coordination [RCV001352634]	Chr14:33608925..44570367 [GRCh37] Chr14:14q13.1-21.2	pathogenic
GRCh37/hg19 14q13.1(chr14:33766967-34010728)x1	copy number loss	not provided [RCV001834264]	Chr14:33766967..34010728 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh37/hg19 14q13.1(chr14:33656353-34162087)x1	copy number loss	not provided [RCV001829238]	Chr14:33656353..34162087 [GRCh37] Chr14:14q13.1	uncertain significance
NC_000014.8:g.(21162263_36986276)_(36987308_50713602)del	deletion	Brain-lung-thyroid syndrome [RCV002221171]	Chr14:36986276..36987308 [GRCh37] Chr14:14q11.2-21.3	pathogenic
NM_001164749.2(NPAS3):c.2524A>G (p.Ser842Gly)	single nucleotide variant	not specified [RCV004332990]	Chr14:33800831 [GRCh38] Chr14:34270037 [GRCh37] Chr14:14q13.1	likely benign
NM_001164749.2(NPAS3):c.2299G>A (p.Gly767Arg)	single nucleotide variant	not specified [RCV004288173]	Chr14:33800606 [GRCh38] Chr14:34269812 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2113G>A (p.Gly705Arg)	single nucleotide variant	not specified [RCV004090016]	Chr14:33800420 [GRCh38] Chr14:34269626 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2303G>A (p.Gly768Asp)	single nucleotide variant	not specified [RCV004240345]	Chr14:33800610 [GRCh38] Chr14:34269816 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh37/hg19 14q12-13.1(chr14:24959823-33415359)x1	copy number loss	not provided [RCV002475721]	Chr14:24959823..33415359 [GRCh37] Chr14:14q12-13.1	pathogenic
NM_001164749.2(NPAS3):c.1123G>C (p.Val375Leu)	single nucleotide variant	not specified [RCV004233678]	Chr14:33778542 [GRCh38] Chr14:34247748 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1570G>A (p.Asp524Asn)	single nucleotide variant	not provided [RCV003016533]	Chr14:33799877 [GRCh38] Chr14:34269083 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2323G>A (p.Gly775Ser)	single nucleotide variant	not specified [RCV004108465]	Chr14:33800630 [GRCh38] Chr14:34269836 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1933G>A (p.Val645Met)	single nucleotide variant	not specified [RCV004171399]	Chr14:33800240 [GRCh38] Chr14:34269446 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1468T>A (p.Ser490Thr)	single nucleotide variant	not specified [RCV004153781]	Chr14:33799775 [GRCh38] Chr14:34268981 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1790A>C (p.His597Pro)	single nucleotide variant	not specified [RCV004199042]	Chr14:33800097 [GRCh38] Chr14:34269303 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1657A>T (p.Met553Leu)	single nucleotide variant	not specified [RCV004101794]	Chr14:33799964 [GRCh38] Chr14:34269170 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2254T>G (p.Ser752Ala)	single nucleotide variant	not specified [RCV004156747]	Chr14:33800561 [GRCh38] Chr14:34269767 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2337C>A (p.Ser779Arg)	single nucleotide variant	not specified [RCV004070870]	Chr14:33800644 [GRCh38] Chr14:34269850 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.350G>A (p.Arg117Gln)	single nucleotide variant	not specified [RCV004207486]	Chr14:33215391 [GRCh38] Chr14:33684597 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2255C>G (p.Ser752Trp)	single nucleotide variant	not specified [RCV004156748]	Chr14:33800562 [GRCh38] Chr14:34269768 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1799G>T (p.Arg600Leu)	single nucleotide variant	not specified [RCV004167462]	Chr14:33800106 [GRCh38] Chr14:34269312 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.934G>A (p.Val312Met)	single nucleotide variant	not specified [RCV004107105]	Chr14:33774418 [GRCh38] Chr14:34243624 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2213C>A (p.Ala738Asp)	single nucleotide variant	not specified [RCV004147768]	Chr14:33800520 [GRCh38] Chr14:34269726 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1438A>G (p.Asn480Asp)	single nucleotide variant	not specified [RCV004136211]	Chr14:33799745 [GRCh38] Chr14:34268951 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1639T>C (p.Phe547Leu)	single nucleotide variant	not specified [RCV004229726]	Chr14:33799946 [GRCh38] Chr14:34269152 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2593C>T (p.Pro865Ser)	single nucleotide variant	not specified [RCV004069473]	Chr14:33800900 [GRCh38] Chr14:34270106 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1766C>G (p.Ala589Gly)	single nucleotide variant	not specified [RCV004084161]	Chr14:33800073 [GRCh38] Chr14:34269279 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.646C>A (p.Pro216Thr)	single nucleotide variant	not specified [RCV004258829]	Chr14:33676298 [GRCh38] Chr14:34145504 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1828G>T (p.Gly610Cys)	single nucleotide variant	not specified [RCV004275179]	Chr14:33800135 [GRCh38] Chr14:34269341 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2462A>G (p.Gln821Arg)	single nucleotide variant	not specified [RCV004260443]	Chr14:33800769 [GRCh38] Chr14:34269975 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1505A>C (p.Lys502Thr)	single nucleotide variant	not specified [RCV004260649]	Chr14:33799812 [GRCh38] Chr14:34269018 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1791C>A (p.His597Gln)	single nucleotide variant	not specified [RCV004315571]	Chr14:33800098 [GRCh38] Chr14:34269304 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2146C>T (p.Leu716Phe)	single nucleotide variant	not specified [RCV004365761]	Chr14:33800453 [GRCh38] Chr14:34269659 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2074C>A (p.Pro692Thr)	single nucleotide variant	not specified [RCV004341084]	Chr14:33800381 [GRCh38] Chr14:34269587 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2104G>A (p.Gly702Ser)	single nucleotide variant	not specified [RCV004347365]	Chr14:33800411 [GRCh38] Chr14:34269617 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.697G>A (p.Ala233Thr)	single nucleotide variant	not specified [RCV004362421]	Chr14:33676349 [GRCh38] Chr14:34145555 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh37/hg19 14q11.2-23.1(chr14:20511673-61826023)x3	copy number gain	not provided [RCV003485022]	Chr14:20511673..61826023 [GRCh37] Chr14:14q11.2-23.1	pathogenic
NM_001164749.2(NPAS3):c.1500G>C (p.Arg500=)	single nucleotide variant	not provided [RCV003393371]	Chr14:33799807 [GRCh38] Chr14:34269013 [GRCh37] Chr14:14q13.1	likely benign
NM_001164749.2(NPAS3):c.1006C>T (p.Arg336Ter)	single nucleotide variant	not provided [RCV003390379]	Chr14:33774490 [GRCh38] Chr14:34243696 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.246A>C (p.Ala82=)	single nucleotide variant	not provided [RCV003425015]	Chr14:33215287 [GRCh38] Chr14:33684493 [GRCh37] Chr14:14q13.1	likely benign
GRCh37/hg19 14q12-21.2(chr14:29190489-45325177)x1	copy number loss	not specified [RCV003987053]	Chr14:29190489..45325177 [GRCh37] Chr14:14q12-21.2	pathogenic
NM_001164749.2(NPAS3):c.1531A>G (p.Met511Val)	single nucleotide variant	not specified [RCV004490871]	Chr14:33799838 [GRCh38] Chr14:34269044 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1922A>G (p.Asn641Ser)	single nucleotide variant	not specified [RCV004490874]	Chr14:33800229 [GRCh38] Chr14:34269435 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1955T>C (p.Ile652Thr)	single nucleotide variant	not specified [RCV004490875]	Chr14:33800262 [GRCh38] Chr14:34269468 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.889T>G (p.Ser297Ala)	single nucleotide variant	not specified [RCV004490882]	Chr14:33774373 [GRCh38] Chr14:34243579 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1690G>A (p.Glu564Lys)	single nucleotide variant	not specified [RCV004490872]	Chr14:33799997 [GRCh38] Chr14:34269203 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1916C>T (p.Ser639Phe)	single nucleotide variant	not specified [RCV004490873]	Chr14:33800223 [GRCh38] Chr14:34269429 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1410C>A (p.Asp470Glu)	single nucleotide variant	not specified [RCV004490870]	Chr14:33797565 [GRCh38] Chr14:34266771 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2443G>T (p.Ala815Ser)	single nucleotide variant	not specified [RCV004490878]	Chr14:33800750 [GRCh38] Chr14:34269956 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2209G>A (p.Ala737Thr)	single nucleotide variant	not specified [RCV004490877]	Chr14:33800516 [GRCh38] Chr14:34269722 [GRCh37] Chr14:14q13.1	likely benign
NM_001164749.2(NPAS3):c.2201C>T (p.Ser734Leu)	single nucleotide variant	not specified [RCV004650163]	Chr14:33800508 [GRCh38] Chr14:34269714 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2228C>T (p.Ala743Val)	single nucleotide variant	not specified [RCV004832307]	Chr14:33800535 [GRCh38] Chr14:34269741 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh37/hg19 14q12-21.3(chr14:32084159-47847938)x3	copy number gain	not provided [RCV004819602]	Chr14:32084159..47847938 [GRCh37] Chr14:14q12-21.3	uncertain significance
NM_001164749.2(NPAS3):c.862A>G (p.Ile288Val)	single nucleotide variant	not specified [RCV004832313]	Chr14:33774346 [GRCh38] Chr14:34243552 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1453G>A (p.Glu485Lys)	single nucleotide variant	not specified [RCV004832318]	Chr14:33799760 [GRCh38] Chr14:34268966 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1858G>T (p.Ala620Ser)	single nucleotide variant	not specified [RCV004832312]	Chr14:33800165 [GRCh38] Chr14:34269371 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1716C>G (p.Cys572Trp)	single nucleotide variant	not specified [RCV004832319]	Chr14:33800023 [GRCh38] Chr14:34269229 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.981A>T (p.Arg327Ser)	single nucleotide variant	not specified [RCV004832322]	Chr14:33774465 [GRCh38] Chr14:34243671 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh37/hg19 14q12-13.1(chr14:33019819-33588771)x3	copy number gain	not provided [RCV004819603]	Chr14:33019819..33588771 [GRCh37] Chr14:14q12-13.1	uncertain significance
NM_001164749.2(NPAS3):c.2651C>A (p.Pro884Gln)	single nucleotide variant	not specified [RCV004832309]	Chr14:33800958 [GRCh38] Chr14:34270164 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1772C>T (p.Ala591Val)	single nucleotide variant	not specified [RCV004832315]	Chr14:33800079 [GRCh38] Chr14:34269285 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.327G>T (p.Gln109His)	single nucleotide variant	not specified [RCV004832316]	Chr14:33215368 [GRCh38] Chr14:33684574 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh37/hg19 14q12-21.2(chr14:30935698-44461013)x1	copy number loss	not provided [RCV004819379]	Chr14:30935698..44461013 [GRCh37] Chr14:14q12-21.2	pathogenic
NM_001164749.2(NPAS3):c.2233G>A (p.Asp745Asn)	single nucleotide variant	not specified [RCV004832311]	Chr14:33800540 [GRCh38] Chr14:34269746 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.1828G>A (p.Gly610Ser)	single nucleotide variant	not specified [RCV004832314]	Chr14:33800135 [GRCh38] Chr14:34269341 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.716C>T (p.Ser239Leu)	single nucleotide variant	not specified [RCV004832320]	Chr14:33676368 [GRCh38] Chr14:34145574 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2111G>A (p.Gly704Asp)	single nucleotide variant	not specified [RCV004832308]	Chr14:33800418 [GRCh38] Chr14:34269624 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.653G>A (p.Arg218Gln)	single nucleotide variant	not specified [RCV004832310]	Chr14:33676305 [GRCh38] Chr14:34145511 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2014G>A (p.Glu672Lys)	single nucleotide variant	not specified [RCV004832317]	Chr14:33800321 [GRCh38] Chr14:34269527 [GRCh37] Chr14:14q13.1	uncertain significance
NM_001164749.2(NPAS3):c.2180G>T (p.Arg727Leu)	single nucleotide variant	not specified [RCV004832321]	Chr14:33800487 [GRCh38] Chr14:34269693 [GRCh37] Chr14:14q13.1	uncertain significance
GRCh37/hg19 14q12-13.1(chr14:33045394-33955844)x3	copy number gain	not provided [RCV004819604]	Chr14:33045394..33955844 [GRCh37] Chr14:14q12-13.1	uncertain significance
GRCh37/hg19 14q12-13.1(chr14:31348395-34432239)x1	copy number loss	not provided [RCV004819862]	Chr14:31348395..34432239 [GRCh37] Chr14:14q12-13.1	uncertain significance

Predicted Target Of

	Summary Value
Count of predictions:	4569
Count of miRNA genes:	1212
Interacting mature miRNAs:	1582
Transcripts:	ENST00000341321, ENST00000346562, ENST00000356141, ENST00000357798, ENST00000546849, ENST00000547068, ENST00000548645, ENST00000549770, ENST00000550662, ENST00000551008, ENST00000551492, ENST00000551634, ENST00000552696, ENST00000552874
Prediction methods:	Microtar, Miranda, Rnahybrid, Targetscan
Result types:	miRGate_prediction

The detailed report is available here: Full Report CSV TAB Printer

miRNA Target Status data imported from miRGate (http://mirgate.bioinfo.cnio.es/).
For more information about miRGate, see PMID:25858286 or access the full paper here.

The following QTLs overlap with this region.

RGD ID	Symbol	Name	LOD	P Value	Trait	Sub Trait	Chr	Start	Stop	Species
597141527	GWAS1237601_H	chronic obstructive pulmonary disease QTL GWAS1237601 (human)		6e-09	lung integrity trait (VT:0010906)		14	33216993	33216994	Human
596963990	GWAS1083509_H	bipolar disorder, mental or behavioural disorder, major depressive disorder QTL GWAS1083509 (human)		0.000004	bipolar disorder, mental or behavioural disorder, major depressive disorder		14	33007060	33007061	Human
597152661	GWAS1248735_H	lifestyle measurement, maximum cigarettes per day measurement QTL GWAS1248735 (human)		0.0000004	lifestyle measurement, maximum cigarettes per day measurement		14	33562700	33562701	Human
597148180	GWAS1244254_H	smoking initiation QTL GWAS1244254 (human)		4e-23	smoking initiation		14	33173932	33173933	Human
407093952	GWAS742928_H	spontaneous preterm birth QTL GWAS742928 (human)		0.000006	spontaneous preterm birth		14	33690956	33690957	Human
407054793	GWAS703769_H	trauma exposure measurement QTL GWAS703769 (human)		0.000005	trauma exposure measurement		14	33524312	33524313	Human
597231253	GWAS1327327_H	smoking status measurement QTL GWAS1327327 (human)		8e-12	smoking status measurement		14	33189539	33189540	Human
597185174	GWAS1281248_H	body mass index QTL GWAS1281248 (human)		2e-08	body mass index	body mass index (BMI) (CMO:0000105)	14	33328647	33328648	Human
407146186	GWAS795162_H	allergic disease QTL GWAS795162 (human)		0.000006	allergic disease		14	33448832	33448833	Human
597069721	GWAS1165795_H	lean body mass QTL GWAS1165795 (human)		0.000005	body lean mass (VT:0010483)	total body lean mass (CMO:0003950)	14	33134363	33134364	Human
407231050	GWAS880026_H	asthma, response to diisocyanate QTL GWAS880026 (human)		0.000002	asthma, response to diisocyanate		14	33326385	33326386	Human
597317003	GWAS1413077_H	smoking initiation QTL GWAS1413077 (human)		2e-21	smoking initiation		14	33173932	33173933	Human
597277192	GWAS1373266_H	diet measurement QTL GWAS1373266 (human)		2e-08	eating behavior trait (VT:0001431)	food intake measurement (CMO:0000772)	14	33518789	33518791	Human
596972679	GWAS1092198_H	obsessive-compulsive disorder, attention deficit hyperactivity disorder, Tourette syndrome, bipolar disorder, autism spectrum disorder, schizophrenia, anorexia nervosa, major depressive disorder QTL GWAS1092198 (human)		5e-10	obsessive-compulsive disorder, attention deficit hyperactivity disorder, Tourette syndrome, bipolar disorder, autism spectrum disorder, schizophrenia, anorexia nervosa, major depressive disorder		14	32940606	32940607	Human
597028224	GWAS1124298_H	squamous cell lung carcinoma, family history of lung cancer QTL GWAS1124298 (human)		0.000004	squamous cell lung carcinoma, family history of lung cancer		14	33701036	33701037	Human
406941143	GWAS590119_H	insomnia measurement QTL GWAS590119 (human)		3e-10	sleep behavior trait (VT:0001501)		14	32943790	32943791	Human
596969602	GWAS1089121_H	tyrosine change measurement QTL GWAS1089121 (human)		4e-08	tyrosine change measurement		14	33145343	33145344	Human
597267843	GWAS1363917_H	schizophrenia QTL GWAS1363917 (human)		0.000008	schizophrenia		14	33188774	33188775	Human
597094669	GWAS1190743_H	schizophrenia QTL GWAS1190743 (human)		0.000007	schizophrenia		14	33768747	33768748	Human
597045387	GWAS1141461_H	soluble triggering receptor expressed on myeloid cells 2 measurement QTL GWAS1141461 (human)		0.000004	soluble triggering receptor expressed on myeloid cells 2 measurement		14	33532758	33532759	Human
597040136	GWAS1136210_H	inflammatory biomarker measurement QTL GWAS1136210 (human)		3e-08	inflammatory biomarker measurement		14	33331943	33331944	Human
597250438	GWAS1346512_H	major depressive disorder QTL GWAS1346512 (human)		3e-09	major depressive disorder		14	33526365	33526366	Human
597231494	GWAS1327568_H	self reported educational attainment QTL GWAS1327568 (human)		2e-10	self reported educational attainment		14	33552933	33552934	Human
597275961	GWAS1372035_H	insomnia QTL GWAS1372035 (human)		2e-09	insomnia		14	33257920	33257921	Human
597275960	GWAS1372034_H	insomnia QTL GWAS1372034 (human)		3e-08	insomnia		14	32964371	32964372	Human
597266488	GWAS1362562_H	schizophrenia QTL GWAS1362562 (human)		0.000004	schizophrenia		14	33412824	33412825	Human
406962531	GWAS611507_H	plasma beta-amyloid 1-40 measurement QTL GWAS611507 (human)		0.000002	plasma beta-amyloid 1-40 measurement		14	33214911	33214912	Human
597337150	GWAS1433224_H	breast density QTL GWAS1433224 (human)		0.0000002	breast density		14	33703018	33703019	Human
597061946	GWAS1158020_H	squamous cell lung carcinoma QTL GWAS1158020 (human)		0.0000004	squamous cell lung carcinoma		14	33545815	33545816	Human
596987192	GWAS1106711_H	memory performance QTL GWAS1106711 (human)		0.000001	memory performance		14	32997031	32997032	Human
406965228	GWAS614204_H	mitochondrial DNA measurement QTL GWAS614204 (human)		0.000004	mitochondrial DNA measurement		14	33207997	33207998	Human
597275959	GWAS1372033_H	insomnia QTL GWAS1372033 (human)		4e-11	insomnia		14	32951999	32952000	Human
597275958	GWAS1372032_H	insomnia QTL GWAS1372032 (human)		3e-13	insomnia		14	32943790	32943791	Human
597211447	GWAS1307521_H	upper aerodigestive tract neoplasm QTL GWAS1307521 (human)		0.000003	upper aerodigestive tract neoplasm		14	33544515	33544516	Human
597259817	GWAS1355891_H	schizophrenia QTL GWAS1355891 (human)		0.0000006	schizophrenia		14	33344138	33344139	Human
597065639	GWAS1161713_H	insulin sensitivity measurement, body mass index QTL GWAS1161713 (human)		0.0000002	insulin sensitivity measurement, body mass index	body mass index (BMI) (CMO:0000105)	14	33300706	33300707	Human
597280042	GWAS1376116_H	insomnia QTL GWAS1376116 (human)		1e-08	insomnia		14	32944995	32944996	Human
597062818	GWAS1158892_H	alcoholic pancreatitis QTL GWAS1158892 (human)		0.000009	alcoholic pancreatitis		14	33257920	33257921	Human
597225376	GWAS1321450_H	smoking initiation QTL GWAS1321450 (human)		3e-09	smoking initiation		14	33189539	33189540	Human
597182496	GWAS1278570_H	pyruvate measurement QTL GWAS1278570 (human)		1e-09	pyruvate measurement	blood pyruvate level (CMO:0002422)	14	33619533	33619534	Human
597327651	GWAS1423725_H	breast density QTL GWAS1423725 (human)		0.000003	breast density		14	33403361	33403362	Human
596961455	GWAS1080974_H	metabolic syndrome QTL GWAS1080974 (human)		1e-08	metabolic syndrome		14	32941543	32941544	Human
406910971	GWAS559947_H	bipolar disorder QTL GWAS559947 (human)		0.000005	bipolar disorder		14	33011716	33011717	Human
597211865	GWAS1307939_H	arterial stiffness measurement QTL GWAS1307939 (human)		0.000008	arterial stiffness measurement	pulse wave velocity (CMO:0003717)	14	33675624	33675625	Human
407066752	GWAS715728_H	obsessive-compulsive disorder, attention deficit hyperactivity disorder, Tourette syndrome, unipolar depression, bipolar disorder, autism spectrum disorder, schizophrenia, anorexia nervosa QTL GWAS715728 (human)		5e-10	obsessive-compulsive disorder, attention deficit hyperactivity disorder, Tourette syndrome, unipolar depression, bipolar disorder, autism spectrum disorder, schizophrenia, anorexia nervosa		14	32940606	32940607	Human
407177990	GWAS826966_H	tyrosine change measurement QTL GWAS826966 (human)		4e-08	tyrosine change measurement		14	33145343	33145344	Human
597311198	GWAS1407272_H	Stuttering QTL GWAS1407272 (human)		0.0000009	Stuttering		14	33476045	33476046	Human
597319132	GWAS1415206_H	executive function measurement QTL GWAS1415206 (human)		2e-09	executive function measurement		14	32941815	32941816	Human
597324754	GWAS1420828_H	insomnia QTL GWAS1420828 (human)		3e-15	insomnia		14	32951999	32952000	Human
597324755	GWAS1420829_H	insomnia QTL GWAS1420829 (human)		6e-11	insomnia		14	32952233	32952234	Human
597211730	GWAS1307804_H	self reported educational attainment QTL GWAS1307804 (human)		1e-10	self reported educational attainment		14	33549780	33549781	Human
597137756	GWAS1233830_H	skin microbiome measurement QTL GWAS1233830 (human)		4e-08	skin morphology trait (VT:0002096)		14	33159934	33159935	Human
597324758	GWAS1420832_H	insomnia QTL GWAS1420832 (human)		1e-08	insomnia		14	33315594	33315595	Human
597212629	GWAS1308703_H	obsessive-compulsive disorder, attention deficit hyperactivity disorder, Tourette syndrome, bipolar disorder, autism spectrum disorder, schizophrenia, anorexia nervosa, major depressive disorder QTL GWAS1308703 (human)		5e-10	obsessive-compulsive disorder, attention deficit hyperactivity disorder, Tourette syndrome, bipolar disorder, autism spectrum disorder, schizophrenia, anorexia nervosa, major depressive disorder		14	32940606	32940607	Human
597324756	GWAS1420830_H	insomnia QTL GWAS1420830 (human)		2e-13	insomnia		14	32955282	32955283	Human
596980314	GWAS1099833_H	memory performance QTL GWAS1099833 (human)		0.000006	memory performance		14	32997031	32997032	Human
597324757	GWAS1420831_H	insomnia QTL GWAS1420831 (human)		7e-11	insomnia		14	33257920	33257921	Human
407020562	GWAS669538_H	response to fenofibrate QTL GWAS669538 (human)		0.000002	response to fenofibrate		14	33117357	33117358	Human
597199565	GWAS1295639_H	attention deficit hyperactivity disorder, risk-taking behaviour QTL GWAS1295639 (human)		2e-11	attention deficit hyperactivity disorder, risk-taking behaviour		14	32940606	32940607	Human
597152322	GWAS1248396_H	memory performance, language measurement QTL GWAS1248396 (human)		4e-08	memory performance, language measurement		14	33576220	33576221	Human
406988442	GWAS637418_H	gestational age, birth measurement QTL GWAS637418 (human)		0.000006	gestational age, birth measurement	litter measurement (CMO:0000641)	14	33721776	33721777	Human
597059277	GWAS1155351_H	metabolic syndrome QTL GWAS1155351 (human)		1e-08	metabolic syndrome		14	32941543	32941544	Human
597194819	GWAS1290893_H	educational attainment QTL GWAS1290893 (human)		2e-10	educational attainment		14	33119624	33119625	Human
597078733	GWAS1174807_H	facial asymmetry measurement QTL GWAS1174807 (human)		3e-10	facial asymmetry measurement		14	33683868	33683869	Human
597051466	GWAS1147540_H	smoking status measurement QTL GWAS1147540 (human)		6e-09	smoking status measurement		14	33356326	33356327	Human
597194820	GWAS1290894_H	educational attainment QTL GWAS1290894 (human)		3e-09	educational attainment		14	33501626	33501627	Human
597205701	GWAS1301775_H	protein measurement QTL GWAS1301775 (human)		3e-08	protein measurement		14	33147920	33147921	Human
407157657	GWAS806633_H	gut microbiome measurement QTL GWAS806633 (human)		0.000008	gut microbiome measurement		14	33355887	33355888	Human
597194821	GWAS1290895_H	educational attainment QTL GWAS1290895 (human)		1e-15	educational attainment		14	33552933	33552934	Human
597133897	GWAS1229971_H	memory performance QTL GWAS1229971 (human)		0.000001	memory performance		14	32997031	32997032	Human
597220807	GWAS1316881_H	tyrosine change measurement QTL GWAS1316881 (human)		4e-08	tyrosine change measurement		14	33145343	33145344	Human
597116146	GWAS1212220_H	intraocular pressure measurement QTL GWAS1212220 (human)		4e-08	intraocular pressure measurement		14	33551822	33551823	Human
596977011	GWAS1096530_H	body height QTL GWAS1096530 (human)		8e-09	body height		14	32941543	32941544	Human
597116145	GWAS1212219_H	intraocular pressure measurement QTL GWAS1212219 (human)		3e-08	intraocular pressure measurement		14	33547258	33547259	Human
406992047	GWAS641023_H	BMI-adjusted waist circumference QTL GWAS641023 (human)		3e-11	body size trait (VT:0100005)		14	32943790	32943791	Human
597350261	GWAS1446335_H	myocardial infarction QTL GWAS1446335 (human)		0.000008	myocardial infarction		14	33556024	33556025	Human
597614062	GWAS1670922_H	bronchial disease QTL GWAS1670922 (human)		3e-11	bronchial disease		14	33305074	33305075	Human
597249512	GWAS1345586_H	salmonella seropositivity QTL GWAS1345586 (human)		4e-08	salmonella seropositivity		14	33306913	33306914	Human
597112294	GWAS1208368_H	coffee consumption measurement QTL GWAS1208368 (human)		0.000002	coffee consumption measurement		14	33350449	33350450	Human
597591279	GWAS1648139_H	fungal infectious disease QTL GWAS1648139 (human)		2e-11	fungal infectious disease		14	33728047	33728048	Human
406992048	GWAS641024_H	BMI-adjusted waist circumference QTL GWAS641024 (human)		7e-10	body size trait (VT:0100005)		14	32938339	32938340	Human
407055664	GWAS704640_H	insomnia measurement QTL GWAS704640 (human)		7e-13	sleep behavior trait (VT:0001501)		14	32943790	32943791	Human
597232874	GWAS1328948_H	gut microbiome measurement QTL GWAS1328948 (human)		0.000008	gut microbiome measurement		14	33029670	33029671	Human
597129570	GWAS1225644_H	memory performance QTL GWAS1225644 (human)		0.000006	memory performance		14	32997031	32997032	Human
597094880	GWAS1190954_H	3-hydroxypropylmercapturic acid measurement QTL GWAS1190954 (human)		0.0000001	3-hydroxypropylmercapturic acid measurement		14	33029670	33029671	Human
406910391	GWAS559367_H	unipolar depression, bipolar disorder, mental or behavioural disorder QTL GWAS559367 (human)		0.000004	unipolar depression, bipolar disorder, mental or behavioural disorder		14	33007060	33007061	Human
597324768	GWAS1420842_H	insomnia QTL GWAS1420842 (human)		2e-16	insomnia		14	32943790	32943791	Human

D14S741

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,753,872 - 33,754,142	UniSTS	GRCh37
Build 36	14	32,823,623 - 32,823,893	RGD	NCBI36
Celera	14	13,619,417 - 13,619,679	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,870,596 - 13,870,858	UniSTS
Marshfield Genetic Map	14	36.76	UniSTS
Marshfield Genetic Map	14	36.76	RGD
deCODE Assembly Map	14	33.82	UniSTS

D14S49

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,849,162 - 33,849,331	UniSTS	GRCh37
Build 36	14	32,918,913 - 32,919,082	RGD	NCBI36
Celera	14	13,714,702 - 13,714,871	RGD
Cytogenetic Map	14	q12-q13	UniSTS
Cytogenetic Map	14	q13	UniSTS
Cytogenetic Map	14	q12	UniSTS
HuRef	14	13,965,900 - 13,966,083	UniSTS
Marshfield Genetic Map	14	36.76	UniSTS
Marshfield Genetic Map	14	36.76	RGD

D14S1060

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,415,481 - 33,415,679	UniSTS	GRCh37
Build 36	14	32,485,232 - 32,485,430	RGD	NCBI36
Celera	14	13,280,985 - 13,281,183	RGD
Cytogenetic Map	14	q	UniSTS
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,532,524 - 13,532,724	UniSTS
Marshfield Genetic Map	14	34.43	RGD
Marshfield Genetic Map	14	34.43	UniSTS
Genethon Genetic Map	14	28.0	UniSTS
TNG Radiation Hybrid Map	14	6619.0	UniSTS
GeneMap99-GB4 RH Map	14	61.81	UniSTS
NCBI RH Map	14	158.4	UniSTS
GeneMap99-G3 RH Map	14	878.0	UniSTS

D14S730

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,776,017 - 33,776,275	UniSTS	GRCh37
Build 36	14	32,845,768 - 32,846,026	RGD	NCBI36
Celera	14	13,641,555 - 13,641,813	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,892,737 - 13,892,995	UniSTS
Whitehead-RH Map	14	76.8	UniSTS
Whitehead-YAC Contig Map	14		UniSTS
NCBI RH Map	14	154.4	UniSTS

G35971

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,852,338 - 33,852,438	UniSTS	GRCh37
Build 36	14	32,922,089 - 32,922,189	RGD	NCBI36
Celera	14	13,717,878 - 13,717,978	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,969,090 - 13,969,190	UniSTS

A009E43

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,186,205 - 34,186,406	UniSTS	GRCh37
Build 36	14	33,255,956 - 33,256,157	RGD	NCBI36
Celera	14	14,051,796 - 14,051,997	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,303,039 - 14,303,240	UniSTS
GeneMap99-GB4 RH Map	14	63.65	UniSTS
NCBI RH Map	14	154.4	UniSTS

G31096

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,712,713 - 33,712,846	UniSTS	GRCh37
Build 36	14	32,782,464 - 32,782,597	RGD	NCBI36
Celera	14	13,578,262 - 13,578,395	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,829,445 - 13,829,578	UniSTS

D14S757

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,217,746 - 34,217,923	UniSTS	GRCh37
Build 36	14	33,287,497 - 33,287,674	RGD	NCBI36
Celera	14	14,083,335 - 14,083,512	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,334,579 - 14,334,756	UniSTS
Whitehead-YAC Contig Map	14		UniSTS

D14S626

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,251,459 - 34,251,675	UniSTS	GRCh37
Build 36	14	33,321,210 - 33,321,426	RGD	NCBI36
Celera	14	14,117,038 - 14,117,254	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,368,282 - 14,368,498	UniSTS
Whitehead-YAC Contig Map	14		UniSTS

RH92309

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,204,364 - 34,204,526	UniSTS	GRCh37
Build 36	14	33,274,115 - 33,274,277	RGD	NCBI36
Celera	14	14,069,953 - 14,070,115	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,321,197 - 14,321,359	UniSTS
GeneMap99-GB4 RH Map	14	63.85	UniSTS

G44292

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,990,561 - 33,990,709	UniSTS	GRCh37
Build 36	14	33,060,312 - 33,060,460	RGD	NCBI36
Celera	14	13,856,111 - 13,856,259	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,107,320 - 14,107,468	UniSTS

SHGC-79994

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,907,445 - 33,907,786	UniSTS	GRCh37
Build 36	14	32,977,196 - 32,977,537	RGD	NCBI36
Celera	14	13,772,984 - 13,773,325	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,024,196 - 14,024,537	UniSTS
TNG Radiation Hybrid Map	14	6896.0	UniSTS

SHGC-84722

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,012,330 - 34,012,615	UniSTS	GRCh37
Build 36	14	33,082,081 - 33,082,366	RGD	NCBI36
Celera	14	13,877,879 - 13,878,164	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,129,057 - 14,129,342	UniSTS
TNG Radiation Hybrid Map	14	6916.0	UniSTS

SHGC-84723

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,012,328 - 34,012,615	UniSTS	GRCh37
Build 36	14	33,082,079 - 33,082,366	RGD	NCBI36
Celera	14	13,877,877 - 13,878,164	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,129,055 - 14,129,342	UniSTS
TNG Radiation Hybrid Map	14	6916.0	UniSTS

RH120221

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,862,195 - 33,862,475	UniSTS	GRCh37
Build 36	14	32,931,946 - 32,932,226	RGD	NCBI36
Celera	14	13,727,735 - 13,728,015	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,978,947 - 13,979,227	UniSTS
TNG Radiation Hybrid Map	14	6879.0	UniSTS

RH119883

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,534,808 - 33,535,147	UniSTS	GRCh37
Build 36	14	32,604,559 - 32,604,898	RGD	NCBI36
Celera	14	13,400,332 - 13,400,671	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,651,661 - 13,652,000	UniSTS
TNG Radiation Hybrid Map	14	6660.0	UniSTS

RH122040

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,929,402 - 33,929,713	UniSTS	GRCh37
Build 36	14	32,999,153 - 32,999,464	RGD	NCBI36
Celera	14	13,794,944 - 13,795,255	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,046,158 - 14,046,469	UniSTS

RH123374

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,067,454 - 34,067,728	UniSTS	GRCh37
Build 36	14	33,137,205 - 33,137,479	RGD	NCBI36
Celera	14	13,933,037 - 13,933,311	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,184,278 - 14,184,552	UniSTS
TNG Radiation Hybrid Map	14	6938.0	UniSTS

RH123991

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,980,046 - 33,980,330	UniSTS	GRCh37
Build 36	14	33,049,797 - 33,050,081	RGD	NCBI36
Celera	14	13,845,595 - 13,845,879	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,096,801 - 14,097,085	UniSTS
TNG Radiation Hybrid Map	14	6904.0	UniSTS

G63183

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,572,899 - 33,573,173	UniSTS	GRCh37
Build 36	14	32,642,650 - 32,642,924	RGD	NCBI36
Celera	14	13,438,425 - 13,438,699	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,689,759 - 13,690,033	UniSTS
TNG Radiation Hybrid Map	14	6677.0	UniSTS

G65514

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,703,748 - 33,704,054	UniSTS	GRCh37
Build 36	14	32,773,499 - 32,773,805	RGD	NCBI36
Celera	14	13,569,296 - 13,569,602	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,820,478 - 13,820,784	UniSTS

SHGC-105840

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,604,782 - 33,605,058	UniSTS	GRCh37
Build 36	14	32,674,533 - 32,674,809	RGD	NCBI36
Celera	14	13,470,331 - 13,470,607	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,721,661 - 13,721,937	UniSTS
TNG Radiation Hybrid Map	14	6691.0	UniSTS

SHGC-141843

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,754,458 - 33,754,743	UniSTS	GRCh37
Build 36	14	32,824,209 - 32,824,494	RGD	NCBI36
Celera	14	13,619,995 - 13,620,280	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,871,174 - 13,871,459	UniSTS
TNG Radiation Hybrid Map	14	6815.0	UniSTS

SHGC-142733

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,975,859 - 33,976,203	UniSTS	GRCh37
Build 36	14	33,045,610 - 33,045,954	RGD	NCBI36
Celera	14	13,841,408 - 13,841,752	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,092,613 - 14,092,957	UniSTS
TNG Radiation Hybrid Map	14	6908.0	UniSTS

SHGC-147523

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,238,195 - 34,238,529	UniSTS	GRCh37
Build 36	14	33,307,946 - 33,308,280	RGD	NCBI36
Celera	14	14,103,785 - 14,104,119	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,355,029 - 14,355,363	UniSTS
TNG Radiation Hybrid Map	14	7036.0	UniSTS

SHGC-149686

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,620,621 - 33,620,970	UniSTS	GRCh37
Build 36	14	32,690,372 - 32,690,721	RGD	NCBI36
Celera	14	13,486,176 - 13,486,525	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,737,504 - 13,737,853	UniSTS
TNG Radiation Hybrid Map	14	6702.0	UniSTS

NPAS3_954

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,269,857 - 34,270,481	UniSTS	GRCh37
Build 36	14	33,339,608 - 33,340,232	RGD	NCBI36
Celera	14	14,135,431 - 14,136,055	RGD
HuRef	14	14,386,707 - 14,387,427	UniSTS

D14S1149

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,795,588 - 33,795,702	UniSTS	GRCh37
Build 36	14	32,865,339 - 32,865,453	RGD	NCBI36
Celera	14	13,661,126 - 13,661,240	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,912,333 - 13,912,447	UniSTS
TNG Radiation Hybrid Map	14	6854.0	UniSTS

AB056404

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,272,237 - 34,272,385	UniSTS	GRCh37
Build 36	14	33,341,988 - 33,342,136	RGD	NCBI36
Celera	14	14,137,812 - 14,137,960	RGD
HuRef	14	14,389,185 - 14,389,333	UniSTS

A003N09

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,705,617 - 33,705,719	UniSTS	GRCh37
Build 36	14	32,775,368 - 32,775,470	RGD	NCBI36
Celera	14	13,571,165 - 13,571,267	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,822,348 - 13,822,450	UniSTS
GeneMap99-GB4 RH Map	14	61.81	UniSTS
Whitehead-RH Map	14	72.5	UniSTS
NCBI RH Map	14	158.4	UniSTS

G35881

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,430,650 - 33,430,760	UniSTS	GRCh37
Build 36	14	32,500,401 - 32,500,511	RGD	NCBI36
Celera	14	13,296,153 - 13,296,263	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,547,692 - 13,547,802	UniSTS

G17792

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,201,946 - 34,202,238	UniSTS	GRCh37
Build 36	14	33,271,697 - 33,271,989	RGD	NCBI36
Celera	14	14,067,535 - 14,067,827	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,318,779 - 14,319,071	UniSTS

G36320

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,909,437 - 33,909,633	UniSTS	GRCh37
Build 36	14	32,979,188 - 32,979,384	RGD	NCBI36
Celera	14	13,774,976 - 13,775,172	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,026,188 - 14,026,384	UniSTS

G36062

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,445,186 - 33,445,347	UniSTS	GRCh37
Build 36	14	32,514,937 - 32,515,098	RGD	NCBI36
Celera	14	13,310,701 - 13,310,862	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	13,562,019 - 13,562,180	UniSTS

RH78505

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,186,225 - 34,186,352	UniSTS	GRCh37
Build 36	14	33,255,976 - 33,256,103	RGD	NCBI36
Celera	14	14,051,816 - 14,051,943	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,303,059 - 14,303,186	UniSTS
GeneMap99-GB4 RH Map	14	63.65	UniSTS
NCBI RH Map	14	154.4	UniSTS

D14S871

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,884,409 - 33,884,534	UniSTS	GRCh37
Build 36	14	32,954,160 - 32,954,285	RGD	NCBI36
Celera	14	13,749,948 - 13,750,073	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,001,160 - 14,001,285	UniSTS
Whitehead-RH Map	14	76.7	UniSTS
Whitehead-YAC Contig Map	14		UniSTS
NCBI RH Map	14	154.4	UniSTS

WI-13708

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	33,938,345 - 33,938,494	UniSTS	GRCh37
Build 36	14	33,008,096 - 33,008,245	RGD	NCBI36
Celera	14	13,803,887 - 13,804,036	RGD
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,055,101 - 14,055,250	UniSTS
GeneMap99-GB4 RH Map	14	63.65	UniSTS
Whitehead-RH Map	14	74.5	UniSTS
NCBI RH Map	14	154.4	UniSTS

D8S2278

Human Assembly	Chr	Position (strand)	Source
Cytogenetic Map	5	p15.33	UniSTS
Cytogenetic Map	9	q34.3	UniSTS
Cytogenetic Map	4	q32.1	UniSTS
Cytogenetic Map	6	q22	UniSTS
Cytogenetic Map	15	q15	UniSTS
Cytogenetic Map	17	q25	UniSTS
Cytogenetic Map	19	p12	UniSTS
Cytogenetic Map	22	q13.33	UniSTS
Cytogenetic Map	20	q11.22	UniSTS
Cytogenetic Map	20	q13.12	UniSTS
Cytogenetic Map	19	q13.42	UniSTS
Cytogenetic Map	16	q13	UniSTS
Cytogenetic Map	6	p22.1	UniSTS
Cytogenetic Map	9	q34.11	UniSTS
Cytogenetic Map	13	q14.3	UniSTS
Cytogenetic Map	12	q21.33	UniSTS
Cytogenetic Map	8	p23.1	UniSTS
Cytogenetic Map	14	q24.3	UniSTS
Cytogenetic Map	1	p35.1	UniSTS
Cytogenetic Map	22	q12.2	UniSTS
Cytogenetic Map	16	q24	UniSTS
Cytogenetic Map	22	q13.1	UniSTS
Cytogenetic Map	17	q22	UniSTS
Cytogenetic Map	17	q12	UniSTS
Cytogenetic Map	1	p36.11	UniSTS
Cytogenetic Map	6	q25.3	UniSTS
Cytogenetic Map	1	p34.2	UniSTS
Cytogenetic Map	22	q11.21	UniSTS
Cytogenetic Map	3	p25.3	UniSTS
Cytogenetic Map	3	p25.3-p24.1	UniSTS
Cytogenetic Map	11	q23.3	UniSTS
Cytogenetic Map	12	q24.31	UniSTS
Cytogenetic Map	2	q11.2-q12.1	UniSTS
Cytogenetic Map	20	q13.13	UniSTS
Cytogenetic Map	1	p22	UniSTS
Cytogenetic Map	10	q11	UniSTS
Cytogenetic Map	19	p13.3	UniSTS
Cytogenetic Map	8	p11.21	UniSTS
Cytogenetic Map	17	p13.2	UniSTS
Cytogenetic Map	19	p13.2	UniSTS
Cytogenetic Map	12	q21.31	UniSTS
Cytogenetic Map	2	q33-q34	UniSTS
Cytogenetic Map	22	q12.1	UniSTS
Cytogenetic Map	17	q22.2	UniSTS
Cytogenetic Map	17	p13	UniSTS
Cytogenetic Map	7	q34-q35	UniSTS
Cytogenetic Map	X	p22.1	UniSTS
Cytogenetic Map	1	q23.1	UniSTS
Cytogenetic Map	11	p15.4	UniSTS
Cytogenetic Map	10	q22	UniSTS
Cytogenetic Map	16	q24.3	UniSTS
Cytogenetic Map	10	q23.1	UniSTS
Cytogenetic Map	2	q37	UniSTS
Cytogenetic Map	17	q21	UniSTS
Cytogenetic Map	20	q13.31	UniSTS
Cytogenetic Map	6	p21.33	UniSTS
Cytogenetic Map	5	q35.3	UniSTS
Cytogenetic Map	7	q22.1	UniSTS
Cytogenetic Map	2	q37.1	UniSTS
Cytogenetic Map	17	q21.2	UniSTS
Cytogenetic Map	7	q34	UniSTS
Cytogenetic Map	12	p13.31	UniSTS
Cytogenetic Map	11	q12.3	UniSTS
Cytogenetic Map	4	q34.1	UniSTS
Cytogenetic Map	1	p31.1	UniSTS
Cytogenetic Map	6	q25	UniSTS
Cytogenetic Map	17	q25.3	UniSTS
Cytogenetic Map	3	q21.3	UniSTS
Cytogenetic Map	6	p22	UniSTS
Cytogenetic Map	1	p36.21	UniSTS
Cytogenetic Map	11	p15.5	UniSTS
Cytogenetic Map	4	p14	UniSTS
Cytogenetic Map	8	q24	UniSTS
Cytogenetic Map	2	q11.2	UniSTS
Cytogenetic Map	Y	p11.3	UniSTS
Cytogenetic Map	2	p23.1	UniSTS
Cytogenetic Map	7	q36.3	UniSTS
Cytogenetic Map	19	q13.41	UniSTS
Cytogenetic Map	1	p36.33	UniSTS
Cytogenetic Map	12	p12.3	UniSTS
Cytogenetic Map	5	q32	UniSTS
Cytogenetic Map	8	q24.3	UniSTS
Cytogenetic Map	21	q22.2	UniSTS
Cytogenetic Map	1	q21.2	UniSTS
Cytogenetic Map	15	q22.1	UniSTS
Cytogenetic Map	1	p34-p33	UniSTS
Cytogenetic Map	3	q23	UniSTS
Cytogenetic Map	14	q11.2	UniSTS
Cytogenetic Map	17	q21.1	UniSTS
Cytogenetic Map	6	p21.3	UniSTS
Cytogenetic Map	2	q12.3	UniSTS
Cytogenetic Map	3	q25.31	UniSTS
Cytogenetic Map	14	q22	UniSTS
Cytogenetic Map	19	q13.43	UniSTS
Cytogenetic Map	12	q13.12	UniSTS
Cytogenetic Map	12	p13.3	UniSTS
Cytogenetic Map	5	p12	UniSTS
Cytogenetic Map	19	q13.2	UniSTS
Cytogenetic Map	12	q21.1	UniSTS
Cytogenetic Map	X	p11.23	UniSTS
Cytogenetic Map	17	p11.2	UniSTS
Cytogenetic Map	3	p21.31	UniSTS
Cytogenetic Map	18	p11.21	UniSTS
Cytogenetic Map	3	q26.32	UniSTS
Cytogenetic Map	1	p34.3	UniSTS
Cytogenetic Map	13	q11	UniSTS
Cytogenetic Map	4	p16.3	UniSTS
Cytogenetic Map	17	p12	UniSTS
Cytogenetic Map	17	q11.2	UniSTS
Cytogenetic Map	3	p25.1	UniSTS
Cytogenetic Map	14	q12-q13	UniSTS
Cytogenetic Map	22	q13.2	UniSTS
Cytogenetic Map	17	q11.2-q12	UniSTS
Cytogenetic Map	6	p25	UniSTS
Cytogenetic Map	7	q11.23	UniSTS
Cytogenetic Map	11	p15	UniSTS
Cytogenetic Map	4	q31	UniSTS
Cytogenetic Map	8	p11.22	UniSTS
Cytogenetic Map	7	p22	UniSTS
Cytogenetic Map	15	q15-q21.1	UniSTS
Cytogenetic Map	1	p32-p31	UniSTS
Cytogenetic Map	11	q13	UniSTS
Cytogenetic Map	10	q25.3	UniSTS
Cytogenetic Map	16	p13.3	UniSTS
Cytogenetic Map	10	q24.32	UniSTS
Cytogenetic Map	7	p11.2	UniSTS
Cytogenetic Map	10	q22.3	UniSTS
Cytogenetic Map	6	q27	UniSTS
Cytogenetic Map	11	p15.3	UniSTS
Cytogenetic Map	4	q22.1-q23	UniSTS
Cytogenetic Map	1	q22	UniSTS
Cytogenetic Map	8	p21.3	UniSTS
Cytogenetic Map	17	q22-q23.2	UniSTS
Cytogenetic Map	3	q21	UniSTS
Cytogenetic Map	18	q22.3	UniSTS
Cytogenetic Map	17	p13.3	UniSTS
Cytogenetic Map	6	q22.31	UniSTS
Cytogenetic Map	1	p34.1	UniSTS
Cytogenetic Map	11	q13.1	UniSTS
Cytogenetic Map	X	q26.1	UniSTS
Cytogenetic Map	4	q21.21	UniSTS
Cytogenetic Map	16	q22.2	UniSTS
Cytogenetic Map	X	q13.2	UniSTS
Cytogenetic Map	2	q32.1	UniSTS
Cytogenetic Map	X	p22.33	UniSTS
Cytogenetic Map	Y	p11.32	UniSTS
Cytogenetic Map	10	p13	UniSTS
Cytogenetic Map	X	q22.3	UniSTS
Cytogenetic Map	3	q13.13	UniSTS
Cytogenetic Map	3	q27.3	UniSTS
Cytogenetic Map	10	p11.23	UniSTS
Cytogenetic Map	14	q32.11	UniSTS
Cytogenetic Map	2	q21.1	UniSTS
Cytogenetic Map	15	q25.2	UniSTS
Cytogenetic Map	X	p22.2	UniSTS
Cytogenetic Map	11	q14	UniSTS
Cytogenetic Map	13	q33.1	UniSTS
Cytogenetic Map	19	q13.32	UniSTS
Cytogenetic Map	3	p14.3	UniSTS
Cytogenetic Map	1	p31.3	UniSTS
Cytogenetic Map	1	q31-q41	UniSTS
Cytogenetic Map	2	p16.1	UniSTS
Cytogenetic Map	14	q23	UniSTS
Cytogenetic Map	2	q24.2	UniSTS
Cytogenetic Map	7	q31	UniSTS
Cytogenetic Map	11	q13.4	UniSTS
Cytogenetic Map	12	q12	UniSTS
Cytogenetic Map	11	q12.2	UniSTS
Cytogenetic Map	14	q24.2	UniSTS
Cytogenetic Map	19	q13	UniSTS
Cytogenetic Map	20	q11.22-q11.23	UniSTS
Cytogenetic Map	11	p11.2	UniSTS
Cytogenetic Map	16	p12.2	UniSTS
Cytogenetic Map	17	p13.1	UniSTS
Cytogenetic Map	6	p24.3	UniSTS
Cytogenetic Map	9	p24.1	UniSTS
Cytogenetic Map	12	p13.2	UniSTS
Cytogenetic Map	9	p21	UniSTS
Cytogenetic Map	6	p12.3	UniSTS
Cytogenetic Map	3	p12.1	UniSTS
Cytogenetic Map	1	p13.2	UniSTS
Cytogenetic Map	19	p13.11	UniSTS
Cytogenetic Map	17	q24.1	UniSTS
Cytogenetic Map	15	q13.1	UniSTS
Cytogenetic Map	12	q14.3-q15	UniSTS
Cytogenetic Map	15	q11-q13	UniSTS
Cytogenetic Map	12	q15	UniSTS
Cytogenetic Map	3	q28	UniSTS
Cytogenetic Map	6	p25.2	UniSTS
Cytogenetic Map	2	p14	UniSTS
Cytogenetic Map	2	p21	UniSTS
Cytogenetic Map	14	q24.1	UniSTS
Cytogenetic Map	19	q13.12	UniSTS
Cytogenetic Map	19	q13.4	UniSTS
Cytogenetic Map	2	p11.2	UniSTS
Cytogenetic Map	2	p23.3	UniSTS
Cytogenetic Map	1	q44	UniSTS
Cytogenetic Map	14	q32.2	UniSTS
Cytogenetic Map	14	q12	UniSTS
Cytogenetic Map	13	q32.2	UniSTS
Cytogenetic Map	2	q23.3	UniSTS
Cytogenetic Map	7	p21.1	UniSTS
Cytogenetic Map	8	p12-p11	UniSTS
Cytogenetic Map	1	q25	UniSTS
Cytogenetic Map	3	p21.32	UniSTS
Cytogenetic Map	4	q22.1	UniSTS
Cytogenetic Map	10	q24	UniSTS
Cytogenetic Map	15	q13.3	UniSTS
Cytogenetic Map	7	p15.3	UniSTS
Cytogenetic Map	11	q13.2	UniSTS
Cytogenetic Map	13	q32.3	UniSTS
Cytogenetic Map	11	q24	UniSTS
Cytogenetic Map	X	q25	UniSTS
Cytogenetic Map	12	q24.33	UniSTS
Cytogenetic Map	5	q31.3	UniSTS
Cytogenetic Map	3	q13.2	UniSTS
Cytogenetic Map	3	q25.33	UniSTS
Cytogenetic Map	8	q22.2	UniSTS
Cytogenetic Map	5	q21.2	UniSTS
Cytogenetic Map	5	q15	UniSTS
Cytogenetic Map	3	p26.1	UniSTS
Cytogenetic Map	19	p13.13	UniSTS
Cytogenetic Map	19	q13.13	UniSTS
Cytogenetic Map	19	q13.1	UniSTS
Cytogenetic Map	3	p22-p21.3	UniSTS
Cytogenetic Map	16	p11.2	UniSTS
Cytogenetic Map	20	p11	UniSTS
Cytogenetic Map	2	p12	UniSTS
Cytogenetic Map	7	q21.13	UniSTS
Cytogenetic Map	20	q13.33	UniSTS
Cytogenetic Map	5	q33.1	UniSTS
Cytogenetic Map	3	p21.1-p14.3	UniSTS
Cytogenetic Map	6	p12.1	UniSTS
Cytogenetic Map	7	q36.1	UniSTS
Cytogenetic Map	1	q32.3	UniSTS
Cytogenetic Map	2	p25.1-p24.1	UniSTS
Cytogenetic Map	12	q14.3	UniSTS
Cytogenetic Map	6	q16.1	UniSTS
Cytogenetic Map	5	p13.1	UniSTS
Cytogenetic Map	19	q13.33	UniSTS
Cytogenetic Map	16	p13.2	UniSTS
Cytogenetic Map	12	q13.13	UniSTS
Cytogenetic Map	9	q33.1	UniSTS
Cytogenetic Map	11	q23.1	UniSTS
Cytogenetic Map	21	q22.3	UniSTS
Cytogenetic Map	3	q27.1	UniSTS
Cytogenetic Map	7	q35	UniSTS
Cytogenetic Map	16	p12.3	UniSTS
Cytogenetic Map	2	p25.3	UniSTS
Cytogenetic Map	1	q22-q23	UniSTS
Cytogenetic Map	7	p22.1	UniSTS
Cytogenetic Map	6	q21	UniSTS
Cytogenetic Map	3	p26	UniSTS
Cytogenetic Map	4	q32.3	UniSTS
Cytogenetic Map	3	p14.2	UniSTS
Cytogenetic Map	18	q12.1	UniSTS
Cytogenetic Map	1	p36.3-p36.2	UniSTS
Cytogenetic Map	11	q22-q23	UniSTS
Cytogenetic Map	13	q14.11	UniSTS
Cytogenetic Map	12	p11.21	UniSTS
Cytogenetic Map	8	p21.1	UniSTS
Cytogenetic Map	7	p12.3	UniSTS
Cytogenetic Map	6	p22.3	UniSTS
Cytogenetic Map	17	q23.3	UniSTS
Cytogenetic Map	21	q21.1	UniSTS
Cytogenetic Map	18	q11.2	UniSTS
Cytogenetic Map	18	q21.32	UniSTS
Cytogenetic Map	17	q21.31	UniSTS
Cytogenetic Map	15	q15.1	UniSTS
Cytogenetic Map	14	q22.1	UniSTS
Cytogenetic Map	20	q11.23	UniSTS
Cytogenetic Map	20	p12.1	UniSTS
Cytogenetic Map	5	q31.1	UniSTS
Cytogenetic Map	5	p13.2	UniSTS
Cytogenetic Map	2	q33.2	UniSTS
Cytogenetic Map	2	q33.1	UniSTS
Cytogenetic Map	1	q21.1	UniSTS
Cytogenetic Map	16	q23.1	UniSTS
Cytogenetic Map	12	q23.3	UniSTS
Cytogenetic Map	12	q23.1	UniSTS
Cytogenetic Map	10	q22.2	UniSTS
Cytogenetic Map	1	p22.2	UniSTS
Cytogenetic Map	8	q23.3	UniSTS
Cytogenetic Map	15	q15.3	UniSTS
Cytogenetic Map	2	q12	UniSTS
Cytogenetic Map	11	q25	UniSTS
Cytogenetic Map	X	p21.1	UniSTS
Cytogenetic Map	7	p14.3	UniSTS
Cytogenetic Map	9	q34	UniSTS
Cytogenetic Map	6	p21.31	UniSTS
Cytogenetic Map	5	p15.3	UniSTS
Cytogenetic Map	16	q22.1	UniSTS
Cytogenetic Map	15	q21.2	UniSTS
Cytogenetic Map	10	q21-q22	UniSTS
Cytogenetic Map	17	q25.1	UniSTS
Cytogenetic Map	2	p13.1	UniSTS
Cytogenetic Map	1	q32.1	UniSTS
Cytogenetic Map	17	q24	UniSTS
Cytogenetic Map	1	p33-p32	UniSTS
Cytogenetic Map	7	p13-p11.1	UniSTS
Cytogenetic Map	3	p21.3	UniSTS
Cytogenetic Map	7	q31.3	UniSTS
Cytogenetic Map	X	p22.13	UniSTS
Cytogenetic Map	14	q24	UniSTS
Cytogenetic Map	12	q	UniSTS
Cytogenetic Map	1	p13-p12	UniSTS
Cytogenetic Map	4	q32	UniSTS
Cytogenetic Map	9	q22.33	UniSTS
Cytogenetic Map	4	p16.1	UniSTS
Cytogenetic Map	3	q29	UniSTS
Cytogenetic Map	5	q14.1	UniSTS
Cytogenetic Map	10	q21.1	UniSTS
Cytogenetic Map	X	q28	UniSTS
Cytogenetic Map	1	q23.3	UniSTS
Cytogenetic Map	2	q37.3	UniSTS
Cytogenetic Map	7	p14.1	UniSTS
Cytogenetic Map	2	q22.3	UniSTS
Cytogenetic Map	15	q22.31	UniSTS
Cytogenetic Map	5	q31	UniSTS
Cytogenetic Map	7	q21.11	UniSTS
Cytogenetic Map	2	p25.1	UniSTS
Cytogenetic Map	1	q12	UniSTS
Cytogenetic Map	3	q13.1-q13.2	UniSTS
Cytogenetic Map	11	p13	UniSTS
Cytogenetic Map	14	q32.3	UniSTS
Cytogenetic Map	14	q23.3	UniSTS
Cytogenetic Map	6	p21.1	UniSTS
Cytogenetic Map	1	q24	UniSTS
Cytogenetic Map	1	q43	UniSTS
Cytogenetic Map	19	q13.3	UniSTS
Cytogenetic Map	14	q22.3	UniSTS
Cytogenetic Map	14	q31	UniSTS

D8S2279

Human Assembly	Chr	Position (strand)	Source
Cytogenetic Map	21	q22.12	UniSTS
Cytogenetic Map	15	q13	UniSTS
Cytogenetic Map	9	q32	UniSTS
Cytogenetic Map	15	q22.3	UniSTS
Cytogenetic Map	17	p12	UniSTS
Cytogenetic Map	21	q21.3	UniSTS
Cytogenetic Map	3	p22-p21.3	UniSTS
Cytogenetic Map	1	q21.1	UniSTS
Cytogenetic Map	2	q24.2	UniSTS
Cytogenetic Map	17	q24.2	UniSTS
Cytogenetic Map	1	q32	UniSTS
Cytogenetic Map	3	p25.3	UniSTS
Cytogenetic Map	20	q13.3	UniSTS
Cytogenetic Map	2	q31.1	UniSTS
Cytogenetic Map	1	q21	UniSTS
Cytogenetic Map	3	p14.1	UniSTS
Cytogenetic Map	2	q37.3	UniSTS
Cytogenetic Map	7	p14.1	UniSTS
Cytogenetic Map	2	q22.3	UniSTS
Cytogenetic Map	15	q13.2	UniSTS
Cytogenetic Map	12	q24.1	UniSTS
Cytogenetic Map	7	p15.2	UniSTS
Cytogenetic Map	5	q31.2	UniSTS
Cytogenetic Map	2	p25.2	UniSTS
Cytogenetic Map	3	p24.3	UniSTS
Cytogenetic Map	17	q25.3	UniSTS
Cytogenetic Map	15	q22.31	UniSTS
Cytogenetic Map	5	q14	UniSTS
Cytogenetic Map	5	q31	UniSTS
Cytogenetic Map	1	p36.32	UniSTS
Cytogenetic Map	1	q42.12	UniSTS
Cytogenetic Map	7	q21.11	UniSTS
Cytogenetic Map	9	q34.2	UniSTS
Cytogenetic Map	19	q13.3	UniSTS
Cytogenetic Map	22	q13.33	UniSTS
Cytogenetic Map	8	q22.3	UniSTS
Cytogenetic Map	6	p21.1-p12	UniSTS
Cytogenetic Map	1	p36.13	UniSTS
Cytogenetic Map	7	q36.3	UniSTS
Cytogenetic Map	2	p25.1	UniSTS
Cytogenetic Map	7	p21.3	UniSTS
Cytogenetic Map	4	q12	UniSTS
Cytogenetic Map	22	q11.22	UniSTS
Cytogenetic Map	11	p13	UniSTS
Cytogenetic Map	1	q12	UniSTS
Cytogenetic Map	8	p23	UniSTS
Cytogenetic Map	11	q13.2-q13.3	UniSTS
Cytogenetic Map	13	q14.1-q14.3	UniSTS
Cytogenetic Map	3	q22-q24	UniSTS
Cytogenetic Map	3	q13.1-q13.2	UniSTS
Cytogenetic Map	16	q24	UniSTS
Cytogenetic Map	5	q23.3-q31.1	UniSTS
Cytogenetic Map	8	p21.3	UniSTS
Cytogenetic Map	14	q32.3	UniSTS
Cytogenetic Map	7	q11.23	UniSTS
Cytogenetic Map	7	q32	UniSTS
Cytogenetic Map	14	q32.33	UniSTS
Cytogenetic Map	19	p13.2	UniSTS
Cytogenetic Map	9	q34.3	UniSTS
Cytogenetic Map	1	p32.3	UniSTS
Cytogenetic Map	17	q11	UniSTS
Cytogenetic Map	17	p13.1-p12	UniSTS
Cytogenetic Map	18	q21.33	UniSTS
Cytogenetic Map	19	p13.12	UniSTS
Cytogenetic Map	5	q14.1	UniSTS
Cytogenetic Map	14	q24.3	UniSTS
Cytogenetic Map	1	q21-q23	UniSTS
Cytogenetic Map	X	p11.23	UniSTS
Cytogenetic Map	4	q21.1	UniSTS
Cytogenetic Map	12	q13.13	UniSTS
Cytogenetic Map	14	q23.3	UniSTS
Cytogenetic Map	17	p12-p11.2	UniSTS
Cytogenetic Map	6	p21.1	UniSTS
Cytogenetic Map	1	q24	UniSTS
Cytogenetic Map	1	q43	UniSTS
Cytogenetic Map	9	q34.13	UniSTS
Cytogenetic Map	19	q13.4	UniSTS
Cytogenetic Map	2	q32	UniSTS
Cytogenetic Map	X	p22.2	UniSTS
Cytogenetic Map	19	p13.11	UniSTS
Cytogenetic Map	2	q33	UniSTS
Cytogenetic Map	10	p13	UniSTS
Cytogenetic Map	2	q11.2	UniSTS
Cytogenetic Map	3	q27	UniSTS
Cytogenetic Map	17	q25.1	UniSTS
Cytogenetic Map	4	p16.1	UniSTS
Cytogenetic Map	14	q22.3	UniSTS
Cytogenetic Map	10	q23-q24	UniSTS
Cytogenetic Map	2	q37.1	UniSTS
Cytogenetic Map	17	q12	UniSTS
Cytogenetic Map	14	q31-q32	UniSTS
Cytogenetic Map	5	p15.33	UniSTS
Cytogenetic Map	1	q23.2	UniSTS
Cytogenetic Map	16	q24.3	UniSTS
Cytogenetic Map	4	p14	UniSTS
Cytogenetic Map	2	q32.3	UniSTS
Cytogenetic Map	15	q21.1	UniSTS
Cytogenetic Map	4	q32.2	UniSTS
Cytogenetic Map	10	q23	UniSTS
Cytogenetic Map	5	q14.2	UniSTS
Cytogenetic Map	4	q32.1	UniSTS
Cytogenetic Map	1	q25.1	UniSTS
Cytogenetic Map	11	q14.1	UniSTS
Cytogenetic Map	4	p16.3	UniSTS
Cytogenetic Map	1	p34.2	UniSTS
Cytogenetic Map	11	q23.1	UniSTS
Cytogenetic Map	3	p21.1	UniSTS
Cytogenetic Map	16	q22.2	UniSTS
Cytogenetic Map	14	q32.31	UniSTS
Cytogenetic Map	16	q11.2	UniSTS
Cytogenetic Map	6	q22	UniSTS
Cytogenetic Map	10	p15.3	UniSTS
Cytogenetic Map	11	q23	UniSTS
Cytogenetic Map	22	q13.2	UniSTS
Cytogenetic Map	12	q12	UniSTS
Cytogenetic Map	19	q13.42	UniSTS
Cytogenetic Map	19	q13.11	UniSTS
Cytogenetic Map	12	q24.31	UniSTS
Cytogenetic Map	15	q15	UniSTS
Cytogenetic Map	2	q33.1	UniSTS
Cytogenetic Map	22	q12.3	UniSTS
Cytogenetic Map	20	q11	UniSTS
Cytogenetic Map	22	q11.23	UniSTS
Cytogenetic Map	17	q25	UniSTS
Cytogenetic Map	1	p13.3	UniSTS
Cytogenetic Map	3	p22.1	UniSTS
Cytogenetic Map	8	q22.1	UniSTS
Cytogenetic Map	16	q22.1	UniSTS
Cytogenetic Map	18	p11.31	UniSTS
Cytogenetic Map	19	p12	UniSTS
Cytogenetic Map	11	q13.1	UniSTS
Cytogenetic Map	19	p13.3	UniSTS
Cytogenetic Map	2	p22.1	UniSTS
Cytogenetic Map	16	p13.3	UniSTS
Cytogenetic Map	1	p35.2	UniSTS
Cytogenetic Map	Y	p11.2	UniSTS
Cytogenetic Map	13	q13.1	UniSTS
Cytogenetic Map	20	q11.22	UniSTS
Cytogenetic Map	19	q13.2	UniSTS
Cytogenetic Map	18	q12	UniSTS
Cytogenetic Map	17	q21.33	UniSTS
Cytogenetic Map	15	q15.1	UniSTS
Cytogenetic Map	3	q27.2	UniSTS
Cytogenetic Map	3	q21.3	UniSTS
Cytogenetic Map	5	p15.2	UniSTS
Cytogenetic Map	20	q13.12	UniSTS
Cytogenetic Map	17	q21	UniSTS
Cytogenetic Map	1	q42	UniSTS
Cytogenetic Map	14	q32.11	UniSTS
Cytogenetic Map	17	q21.2-q21.3	UniSTS
Cytogenetic Map	5	q32-q34	UniSTS
Cytogenetic Map	15	q14	UniSTS
Cytogenetic Map	16	q13	UniSTS
Cytogenetic Map	3	q21.2	UniSTS
Cytogenetic Map	3	p21.3	UniSTS
Cytogenetic Map	14	q24.2	UniSTS
Cytogenetic Map	12	q24.13	UniSTS
Cytogenetic Map	13	q14.11	UniSTS
Cytogenetic Map	3	q27.3	UniSTS
Cytogenetic Map	1	q32.3	UniSTS
Cytogenetic Map	6	p22.1	UniSTS
Cytogenetic Map	9	q34.11	UniSTS
Cytogenetic Map	6	q21	UniSTS
Cytogenetic Map	6	q25.3	UniSTS
Cytogenetic Map	2	p11.2	UniSTS
Cytogenetic Map	13	q14.3	UniSTS
Cytogenetic Map	17	q11.2	UniSTS
Cytogenetic Map	10	p12	UniSTS
Cytogenetic Map	2	q33.3	UniSTS
Cytogenetic Map	14	q21.3	UniSTS
Cytogenetic Map	8	p22-p21	UniSTS
Cytogenetic Map	18	q11.2	UniSTS
Cytogenetic Map	2	p15	UniSTS
Cytogenetic Map	17	q22	UniSTS
Cytogenetic Map	12	q21.33	UniSTS
Cytogenetic Map	20	q13.32	UniSTS
Cytogenetic Map	1	p34.1	UniSTS
Cytogenetic Map	10	q26	UniSTS
Cytogenetic Map	8	p23.1	UniSTS
Cytogenetic Map	19	p13	UniSTS
Cytogenetic Map	7	q21.13	UniSTS
Cytogenetic Map	7	q31.1	UniSTS
Cytogenetic Map	1	p33	UniSTS
Cytogenetic Map	21	q22.3	UniSTS
Cytogenetic Map	1	p35.1	UniSTS
Cytogenetic Map	22	q12.2	UniSTS
Cytogenetic Map	9	q22.3	UniSTS
Cytogenetic Map	8	q13.1	UniSTS
Cytogenetic Map	3	q25	UniSTS
Cytogenetic Map	1	p36.33	UniSTS
Cytogenetic Map	20	q13.33	UniSTS
Cytogenetic Map	1	p31.3	UniSTS
Cytogenetic Map	14	q31.1	UniSTS
Cytogenetic Map	22	q13.1	UniSTS
Cytogenetic Map	12	q13.2	UniSTS
Cytogenetic Map	22	q13.31-q13.33	UniSTS
Cytogenetic Map	20	q13.31	UniSTS
Cytogenetic Map	11	p11.2	UniSTS
Cytogenetic Map	1	q41	UniSTS
Cytogenetic Map	1	p36.11	UniSTS
Cytogenetic Map	15	q25.2	UniSTS
Cytogenetic Map	14	q11.2	UniSTS
Cytogenetic Map	17	q23.2	UniSTS
Cytogenetic Map	7	q32.2	UniSTS
Cytogenetic Map	19	q13.12	UniSTS
Cytogenetic Map	1	q32.1	UniSTS
Cytogenetic Map	6	q25.1	UniSTS
Cytogenetic Map	19	q13.43	UniSTS
Cytogenetic Map	9	p13.3	UniSTS
Cytogenetic Map	16	p11.2	UniSTS
Cytogenetic Map	2	p13.1	UniSTS
Cytogenetic Map	22	q11.21	UniSTS
Cytogenetic Map	3	q29	UniSTS
Cytogenetic Map	7	p13	UniSTS
Cytogenetic Map	11	q23.3	UniSTS
Cytogenetic Map	14	q31-q32.1	UniSTS
Cytogenetic Map	1	q42.11	UniSTS
Cytogenetic Map	4	q35.1	UniSTS
Cytogenetic Map	2	p23.3	UniSTS
Cytogenetic Map	2	p13.3	UniSTS
Cytogenetic Map	X	p11.3	UniSTS
Cytogenetic Map	2	q11.2-q12.1	UniSTS
Cytogenetic Map	20	q13.13	UniSTS
Cytogenetic Map	1	p22	UniSTS
Cytogenetic Map	6	q16.2	UniSTS
Cytogenetic Map	18	q23	UniSTS
Cytogenetic Map	2	q14	UniSTS
Cytogenetic Map	20	p11.23-p11.21	UniSTS
Cytogenetic Map	16	p12.2	UniSTS
Cytogenetic Map	8	p11.23	UniSTS
Cytogenetic Map	19	q13.1	UniSTS
Cytogenetic Map	19	q13	UniSTS
Cytogenetic Map	8	p11.21	UniSTS
Cytogenetic Map	12	q14.3	UniSTS
Cytogenetic Map	X	q26.3	UniSTS
Cytogenetic Map	8	q24.11	UniSTS
Cytogenetic Map	10	q23.1	UniSTS
Cytogenetic Map	1	q44	UniSTS
Cytogenetic Map	9	q22.33	UniSTS
Cytogenetic Map	3	p21.31	UniSTS
Cytogenetic Map	17	p13.2	UniSTS
Cytogenetic Map	9	q21.32	UniSTS
Cytogenetic Map	7	q34	UniSTS
Cytogenetic Map	9	q33.3	UniSTS
Cytogenetic Map	1	p36.1	UniSTS
Cytogenetic Map	20	q12	UniSTS
Cytogenetic Map	4	q21.23	UniSTS
Cytogenetic Map	5	q13.2	UniSTS
Cytogenetic Map	22	q12.1	UniSTS
Cytogenetic Map	5	q31.1	UniSTS
Cytogenetic Map	2	q21.3	UniSTS
Cytogenetic Map	7	q21.2	UniSTS
Cytogenetic Map	17	q22.2	UniSTS
Cytogenetic Map	17	p13	UniSTS
Cytogenetic Map	12	q24.11	UniSTS
Cytogenetic Map	18	q21	UniSTS
Cytogenetic Map	10	q11.1	UniSTS
Cytogenetic Map	22	q11.2	UniSTS
Cytogenetic Map	19	q12	UniSTS
Cytogenetic Map	7	q34-q35	UniSTS
Cytogenetic Map	15	q24.1	UniSTS
Cytogenetic Map	18	p11.21	UniSTS
Cytogenetic Map	1	q23.1	UniSTS
Cytogenetic Map	19	q13.41	UniSTS
Cytogenetic Map	6	p25.1-p23	UniSTS
Cytogenetic Map	11	p15.4	UniSTS
Cytogenetic Map	10	q22	UniSTS
Cytogenetic Map	5	q35.3	UniSTS
Cytogenetic Map	18	q12.1-q21.1	UniSTS
Cytogenetic Map	12	p13.1	UniSTS
Cytogenetic Map	13	q12.1	UniSTS
Cytogenetic Map	12	q15	UniSTS
Cytogenetic Map	6	p21.32	UniSTS
Cytogenetic Map	8	q24.3	UniSTS
Cytogenetic Map	10	p14	UniSTS
Cytogenetic Map	12	p13.1-p12.3	UniSTS
Cytogenetic Map	3	p25.2	UniSTS
Cytogenetic Map	6	p21.33	UniSTS
Cytogenetic Map	6	p21.3	UniSTS
Cytogenetic Map	3	p21.2	UniSTS
Cytogenetic Map	10	q26.3	UniSTS
Cytogenetic Map	1	q21.3	UniSTS
Cytogenetic Map	X	p21.2	UniSTS
Cytogenetic Map	7	q22.1	UniSTS
Cytogenetic Map	14	q12	UniSTS
Cytogenetic Map	8	p11.22	UniSTS
Cytogenetic Map	19	q13.32	UniSTS
Cytogenetic Map	2	q21.1	UniSTS
Cytogenetic Map	9	q21.12	UniSTS
Cytogenetic Map	15	q23	UniSTS
Cytogenetic Map	7	p22.2	UniSTS
Cytogenetic Map	8	p21.2	UniSTS
Cytogenetic Map	7	q33	UniSTS
Cytogenetic Map	15	q15.3	UniSTS
Cytogenetic Map	4	q21.22	UniSTS
Cytogenetic Map	12	q13.12	UniSTS
Cytogenetic Map	10	q24.31	UniSTS
Cytogenetic Map	12	p13.31	UniSTS
Cytogenetic Map	14	q32.12	UniSTS
Cytogenetic Map	10	q24.32	UniSTS
Cytogenetic Map	11	q12.3	UniSTS
Cytogenetic Map	16	p12.3	UniSTS
Cytogenetic Map	1	p34.3	UniSTS
Cytogenetic Map	1	p36.21	UniSTS
Cytogenetic Map	2	q24.3	UniSTS
Cytogenetic Map	2	q33.2	UniSTS
Cytogenetic Map	16	q24.1	UniSTS
Cytogenetic Map	1	p31.1	UniSTS
Cytogenetic Map	19	q13.33	UniSTS
Cytogenetic Map	1	p36.31	UniSTS
Cytogenetic Map	3	q13.31	UniSTS
Cytogenetic Map	15	q22.2	UniSTS
Cytogenetic Map	5	q32	UniSTS
Cytogenetic Map	6	q13	UniSTS
Cytogenetic Map	X	q24	UniSTS
Cytogenetic Map	6	q25	UniSTS
Cytogenetic Map	6	p21	UniSTS
Cytogenetic Map	2	q35	UniSTS
Cytogenetic Map	12	p13-p12	UniSTS
Cytogenetic Map	9	p13.2	UniSTS
Cytogenetic Map	6	p22	UniSTS
Cytogenetic Map	2	q12.1	UniSTS
Cytogenetic Map	17	p13.3	UniSTS
Cytogenetic Map	9	q22.2	UniSTS
Cytogenetic Map	1	q22	UniSTS
Cytogenetic Map	1	p22.1	UniSTS
Cytogenetic Map	1	p36	UniSTS
Cytogenetic Map	9	q13-q21	UniSTS
Cytogenetic Map	11	p15.5	UniSTS
Cytogenetic Map	X	p11.2	UniSTS
Cytogenetic Map	19	p	UniSTS
Cytogenetic Map	19	p13.1-p12	UniSTS
Cytogenetic Map	7	q22	UniSTS
Cytogenetic Map	12	q24.33	UniSTS
Cytogenetic Map	3	q21	UniSTS
Cytogenetic Map	8	q24	UniSTS
Cytogenetic Map	18	p11.31-p11.21	UniSTS
Cytogenetic Map	11	p15.3-p15.1	UniSTS
Cytogenetic Map	11	q13	UniSTS
Cytogenetic Map	8	q22	UniSTS
Cytogenetic Map	4	p15.1	UniSTS
Cytogenetic Map	1	q25.2	UniSTS
Cytogenetic Map	2	p16.3	UniSTS
Cytogenetic Map	16	p13.12	UniSTS
Cytogenetic Map	7	p21.2	UniSTS
Cytogenetic Map	12	q21.1	UniSTS
Cytogenetic Map	2	p14	UniSTS
Cytogenetic Map	6	q24.3	UniSTS
Cytogenetic Map	10	q22.2	UniSTS
Cytogenetic Map	5	q23.1	UniSTS
Cytogenetic Map	10	q23.2	UniSTS
Cytogenetic Map	7	p22.3	UniSTS
Cytogenetic Map	21	q22.2	UniSTS
Cytogenetic Map	6	q22.1	UniSTS
Cytogenetic Map	1	q42.1	UniSTS
Cytogenetic Map	1	q25	UniSTS
Cytogenetic Map	6	p22.3	UniSTS
Cytogenetic Map	1	q21.2	UniSTS
Cytogenetic Map	15	q22.1	UniSTS
Cytogenetic Map	12	p13.2	UniSTS
Cytogenetic Map	12	q22	UniSTS
Cytogenetic Map	3	p21-p12	UniSTS
Cytogenetic Map	4	q35	UniSTS
Cytogenetic Map	1	p34-p33	UniSTS
Cytogenetic Map	21	q22.11	UniSTS
Cytogenetic Map	3	p22-p21.33	UniSTS
Cytogenetic Map	3	q23	UniSTS
Cytogenetic Map	3	q22.1	UniSTS
Cytogenetic Map	8	q21.11	UniSTS
Cytogenetic Map	X	q22.3	UniSTS
Cytogenetic Map	7	p14	UniSTS
Cytogenetic Map	17	q21.1	UniSTS
Cytogenetic Map	15	q21	UniSTS
Cytogenetic Map	1	q42.3	UniSTS
Cytogenetic Map	9	q22	UniSTS
Cytogenetic Map	2	q12.3	UniSTS
Cytogenetic Map	20	q11.2-q13.2	UniSTS
Cytogenetic Map	17	q21.31	UniSTS
Cytogenetic Map	17	q24	UniSTS
Cytogenetic Map	3	q25.31	UniSTS
Cytogenetic Map	6	p24.3	UniSTS
Cytogenetic Map	2	q31.3	UniSTS
Cytogenetic Map	1	q31	UniSTS
Cytogenetic Map	7	q32-q33	UniSTS
Cytogenetic Map	7	q21.1	UniSTS
Cytogenetic Map	14	q23-q24.2	UniSTS
Cytogenetic Map	19	q13.3-q13.4	UniSTS
Cytogenetic Map	2	p24-p21	UniSTS
Cytogenetic Map	15	q11.2	UniSTS
Cytogenetic Map	15	q26.3	UniSTS
Cytogenetic Map	7	p22	UniSTS
Cytogenetic Map	12	p11	UniSTS
Cytogenetic Map	1	p35.3	UniSTS
Cytogenetic Map	1	p12	UniSTS
Cytogenetic Map	13	q32.3	UniSTS
Cytogenetic Map	5	q23.3	UniSTS
Cytogenetic Map	20	q13	UniSTS
Cytogenetic Map	17	q25.2	UniSTS
Cytogenetic Map	7	q36.1	UniSTS
Cytogenetic Map	10	p12.33	UniSTS
Cytogenetic Map	17	q21.32	UniSTS
Cytogenetic Map	X	p11.22	UniSTS
Cytogenetic Map	12	p13.3	UniSTS
Cytogenetic Map	X	q25-q26	UniSTS
Cytogenetic Map	2	q36.1	UniSTS
Cytogenetic Map	5	p13	UniSTS
Cytogenetic Map	15	q25	UniSTS
Cytogenetic Map	5	q12.1	UniSTS
Cytogenetic Map	5	p12	UniSTS
Cytogenetic Map	1	p36.22	UniSTS
Cytogenetic Map	3	q26.31	UniSTS
Cytogenetic Map	17	q22-q23	UniSTS
Cytogenetic Map	X	p22.33	UniSTS
Cytogenetic Map	Y	p11.3	UniSTS
Cytogenetic Map	17	p11.2	UniSTS
Cytogenetic Map	X	q13.2	UniSTS
Cytogenetic Map	12	q23.1	UniSTS
Cytogenetic Map	16	q12.2	UniSTS
Cytogenetic Map	3	q26.32	UniSTS
Cytogenetic Map	6	q22.31	UniSTS
Cytogenetic Map	3	q26.2-q27	UniSTS
Cytogenetic Map	1	q25.1-q25.2	UniSTS
Cytogenetic Map	14	q24	UniSTS
Cytogenetic Map	9	q21.13	UniSTS
Cytogenetic Map	10	q11.22	UniSTS
Cytogenetic Map	22	q13.31	UniSTS
Cytogenetic Map	3	p25.1	UniSTS
Cytogenetic Map	5	q21.3	UniSTS
Cytogenetic Map	5	p13.3	UniSTS
Cytogenetic Map	10	q22.1	UniSTS
Cytogenetic Map	14	q12-q13	UniSTS
Cytogenetic Map	X	p22	UniSTS
Cytogenetic Map	X	q23	UniSTS
Cytogenetic Map	20	p12.3-p11.21	UniSTS
Cytogenetic Map	2	p21	UniSTS
Cytogenetic Map	17	q11.2-q12	UniSTS
Cytogenetic Map	4	q32-q34	UniSTS
Cytogenetic Map	X	q25-q26.1	UniSTS
Cytogenetic Map	2	p25-p24	UniSTS
Cytogenetic Map	2	p25	UniSTS
Cytogenetic Map	11	q13.2	UniSTS
Cytogenetic Map	X	p22.2-p22.1	UniSTS
Cytogenetic Map	X	q22.1	UniSTS
Cytogenetic Map	4	q25	UniSTS
Cytogenetic Map	3	p24.2	UniSTS
Cytogenetic Map	22	q13	UniSTS
Cytogenetic Map	20	q11.22-q12	UniSTS
Cytogenetic Map	4	q34.2	UniSTS
Cytogenetic Map	20	p13	UniSTS
Cytogenetic Map	22	q13.1-q13.2	UniSTS
Cytogenetic Map	X	q28	UniSTS
Cytogenetic Map	12	q13-q14	UniSTS
Cytogenetic Map	6	q14.1	UniSTS
Cytogenetic Map	12	q13.3	UniSTS
Cytogenetic Map	9	q31.2	UniSTS
Cytogenetic Map	11	q13.1-q13.2	UniSTS
Cytogenetic Map	12	q13	UniSTS
Cytogenetic Map	1	p32-p31	UniSTS
Cytogenetic Map	21	q21.2	UniSTS
Cytogenetic Map	10	q24.3	UniSTS
Cytogenetic Map	16	q21	UniSTS
Cytogenetic Map	8	q21.1	UniSTS
Cytogenetic Map	5	p13.2	UniSTS
Cytogenetic Map	1	p34	UniSTS
Cytogenetic Map	1	q32.2	UniSTS
Cytogenetic Map	4	q21.3	UniSTS
Cytogenetic Map	7	q21-q22	UniSTS
Cytogenetic Map	3	q26.2	UniSTS
Cytogenetic Map	2	q36.3	UniSTS
Cytogenetic Map	8	p22	UniSTS
Cytogenetic Map	11	q22.1	UniSTS
Cytogenetic Map	3	q25.33	UniSTS
Cytogenetic Map	10	q23.31	UniSTS
Cytogenetic Map	4	p15.32	UniSTS
Cytogenetic Map	18	q12.2	UniSTS
Cytogenetic Map	15	q15.2	UniSTS
Cytogenetic Map	5	q12.3	UniSTS
Cytogenetic Map	14	q24.1	UniSTS
Cytogenetic Map	12	q14.1	UniSTS
Cytogenetic Map	6	p22.3-p22.1	UniSTS
Cytogenetic Map	7	p11.2	UniSTS
Cytogenetic Map	6	q15	UniSTS
Cytogenetic Map	6	q23.3	UniSTS
Cytogenetic Map	13	q14	UniSTS
Cytogenetic Map	5	q35.2	UniSTS
Cytogenetic Map	10	q22.3	UniSTS
Cytogenetic Map	1	p35	UniSTS
Cytogenetic Map	3	q12.3	UniSTS
Cytogenetic Map	19	q13.31	UniSTS
Cytogenetic Map	8	q23.1	UniSTS
Cytogenetic Map	6	q27	UniSTS
Cytogenetic Map	2	q14.3	UniSTS
Cytogenetic Map	X	p11	UniSTS
Cytogenetic Map	11	p15.3	UniSTS
Cytogenetic Map	20	p12	UniSTS
Cytogenetic Map	15	q13.1	UniSTS
Cytogenetic Map	X	p22.3	UniSTS
Cytogenetic Map	11	q13.5	UniSTS
Cytogenetic Map	19	p13.3-p13.2	UniSTS
Cytogenetic Map	1	p36.11-p34.2	UniSTS
Cytogenetic Map	4	q22.1-q23	UniSTS
Cytogenetic Map	7	q22.3	UniSTS
Cytogenetic Map	9	p22	UniSTS
Cytogenetic Map	17	q23.3	UniSTS
Cytogenetic Map	16	q23.2	UniSTS
Cytogenetic Map	2	p16.1	UniSTS
Cytogenetic Map	3	q27.1	UniSTS
Cytogenetic Map	2	p22.3	UniSTS
Cytogenetic Map	X	q26.1	UniSTS
Cytogenetic Map	4	q21.21	UniSTS
Cytogenetic Map	22	q13.3	UniSTS
Cytogenetic Map	2	q32.1	UniSTS
Cytogenetic Map	Y	p11.32	UniSTS
Cytogenetic Map	11	p14	UniSTS
Cytogenetic Map	1	p32.1	UniSTS
Cytogenetic Map	2	p25.3	UniSTS
Cytogenetic Map	4	q34.3	UniSTS
Cytogenetic Map	9	p12	UniSTS
Cytogenetic Map	3	q13.13	UniSTS
Cytogenetic Map	13	q34	UniSTS
Cytogenetic Map	3	p21	UniSTS
Cytogenetic Map	11	q23.2	UniSTS
Cytogenetic Map	20	p11.23	UniSTS
Cytogenetic Map	3	p13	UniSTS
Cytogenetic Map	4	p13	UniSTS
Cytogenetic Map	16	q23.1	UniSTS
Cytogenetic Map	10	p11.23	UniSTS
Cytogenetic Map	8	p21.1	UniSTS
Cytogenetic Map	15	q22-q24	UniSTS
Cytogenetic Map	8	q23	UniSTS
Cytogenetic Map	16	q12.1	UniSTS
Cytogenetic Map	14	q13.2	UniSTS
Cytogenetic Map	18	q12.1	UniSTS
Cytogenetic Map	5	q31.3	UniSTS
Cytogenetic Map	11	q14	UniSTS
Cytogenetic Map	13	q33.1	UniSTS
Cytogenetic Map	14	q21.2	UniSTS
Cytogenetic Map	4	q31.3	UniSTS
Cytogenetic Map	15	q21-q22	UniSTS
Cytogenetic Map	3	p14.3	UniSTS
Cytogenetic Map	17	p13.1	UniSTS
Cytogenetic Map	13	q12.11	UniSTS
Cytogenetic Map	6	p21.2	UniSTS
Cytogenetic Map	15	q21.3	UniSTS
Cytogenetic Map	3	q21.1	UniSTS
Cytogenetic Map	6	p21.31	UniSTS
Cytogenetic Map	10	p15.1	UniSTS
Cytogenetic Map	1	q24.2	UniSTS
Cytogenetic Map	12	p12	UniSTS
Cytogenetic Map	7	p22.1	UniSTS
Cytogenetic Map	11	q24	UniSTS
Cytogenetic Map	21	q22.13	UniSTS
Cytogenetic Map	15	q22.1-q22.31	UniSTS
Cytogenetic Map	15	q22	UniSTS
Cytogenetic Map	X	q13	UniSTS
Cytogenetic Map	1	q31-q41	UniSTS
Cytogenetic Map	6	p25	UniSTS
Cytogenetic Map	14	q32.1	UniSTS
Cytogenetic Map	16	q12-q13	UniSTS
Cytogenetic Map	X	q12-q13	UniSTS
Cytogenetic Map	14	q23	UniSTS
Cytogenetic Map	12	q11-q12	UniSTS
Cytogenetic Map	1	q42.1-q43	UniSTS
Cytogenetic Map	3	q13.33	UniSTS
Cytogenetic Map	7	q31	UniSTS
Cytogenetic Map	12	q24	UniSTS
Cytogenetic Map	X	p22.11	UniSTS
Cytogenetic Map	11	q13.4	UniSTS
Cytogenetic Map	2	p25.1-p24.1	UniSTS
Cytogenetic Map	8	q24.21	UniSTS
Cytogenetic Map	12	q13.1	UniSTS
Cytogenetic Map	12	q22-q23.1	UniSTS
Cytogenetic Map	11	q12.2	UniSTS
Cytogenetic Map	1	p13.2	UniSTS
Cytogenetic Map	5	q31.2-q34	UniSTS
Cytogenetic Map	11	p15.1	UniSTS
Cytogenetic Map	6	q24.2	UniSTS
Cytogenetic Map	22	q	UniSTS
Cytogenetic Map	12	q13.11-q14.3	UniSTS
Cytogenetic Map	7	p11	UniSTS
Cytogenetic Map	X	p22.12-p22.11	UniSTS
Cytogenetic Map	7	q11.21	UniSTS
Cytogenetic Map	20	q11.22-q11.23	UniSTS
Cytogenetic Map	8	q24.22	UniSTS
Cytogenetic Map	8	p22-p21.3	UniSTS
Cytogenetic Map	10	q24	UniSTS
Cytogenetic Map	1	q21.2-q21.3	UniSTS
Cytogenetic Map	1	p36.12	UniSTS
Cytogenetic Map	9	p24.1	UniSTS
Cytogenetic Map	6	q25.2-q27	UniSTS
Cytogenetic Map	9	q34	UniSTS
Cytogenetic Map	5	p13.1	UniSTS
Cytogenetic Map	8	q11.2	UniSTS
Cytogenetic Map	3	q28-q29	UniSTS
Cytogenetic Map	7	p14-p13	UniSTS
Cytogenetic Map	12	q24.2	UniSTS
Cytogenetic Map	6	p22.2	UniSTS
Cytogenetic Map	7	q22-qter	UniSTS
Cytogenetic Map	12	q24.2-q24.31	UniSTS
Cytogenetic Map	X	q13.1	UniSTS
Cytogenetic Map	6	p25.2	UniSTS
Cytogenetic Map	1	p21	UniSTS
Cytogenetic Map	1	q32.2-q41	UniSTS
Cytogenetic Map	11	q22-q23	UniSTS
Cytogenetic Map	3	q26.33	UniSTS
Cytogenetic Map	12	q23-q24.1	UniSTS
Cytogenetic Map	5	p15.1-p14.3	UniSTS
Cytogenetic Map	16	p13.11	UniSTS
Cytogenetic Map	6	q22-q23	UniSTS
Cytogenetic Map	9	p21	UniSTS
Cytogenetic Map	6	p12.3	UniSTS
Cytogenetic Map	3	p12.1	UniSTS
Cytogenetic Map	9	q21.11	UniSTS
Cytogenetic Map	17	q24.1	UniSTS
Cytogenetic Map	10	q11.21	UniSTS
Cytogenetic Map	14	q21	UniSTS
Cytogenetic Map	11	p15	UniSTS
Cytogenetic Map	16	q22	UniSTS
Cytogenetic Map	15	q11-q13	UniSTS
Cytogenetic Map	13	q12-q14	UniSTS
Cytogenetic Map	18	q21.1	UniSTS
Cytogenetic Map	2	q24	UniSTS
Cytogenetic Map	12	p13	UniSTS
Cytogenetic Map	3	q28	UniSTS
Cytogenetic Map	7	q32.1	UniSTS
Cytogenetic Map	X	q22.2	UniSTS
Cytogenetic Map	7	p12.3	UniSTS
Cytogenetic Map	7	p15.1	UniSTS
Cytogenetic Map	2	q37.2	UniSTS
Cytogenetic Map	18	q22.3	UniSTS
Cytogenetic Map	14	q32.13	UniSTS
Cytogenetic Map	14	q22.1	UniSTS
Cytogenetic Map	16	p13.1	UniSTS
Cytogenetic Map	7	q31.3	UniSTS
Cytogenetic Map	20	q13.2-q13.3	UniSTS
Cytogenetic Map	1	p21.2	UniSTS
Cytogenetic Map	9	q21.33	UniSTS
Cytogenetic Map	14	q32.2	UniSTS
Cytogenetic Map	13	q13.3	UniSTS
Cytogenetic Map	10	p12.31	UniSTS
Cytogenetic Map	22	q11.1	UniSTS
Cytogenetic Map	5	q33.2	UniSTS
Cytogenetic Map	13	q32.2	UniSTS
Cytogenetic Map	14	q23.1	UniSTS
Cytogenetic Map	8	q21.2	UniSTS
Cytogenetic Map	2	q24.1	UniSTS
Cytogenetic Map	10	q26.13	UniSTS
Cytogenetic Map	2	q23.3	UniSTS
Cytogenetic Map	19	p13.1	UniSTS
Cytogenetic Map	15	q14-q15	UniSTS
Cytogenetic Map	1	q42.13	UniSTS
Cytogenetic Map	14	q31	UniSTS
Cytogenetic Map	7	p21.1	UniSTS
Cytogenetic Map	8	p12-p11	UniSTS
Cytogenetic Map	18	p11.2	UniSTS
Cytogenetic Map	7	p11.1	UniSTS
Cytogenetic Map	1	q31-q32	UniSTS
Cytogenetic Map	2	q12	UniSTS
Cytogenetic Map	3	p21.32	UniSTS
Cytogenetic Map	2	p24.2	UniSTS
Cytogenetic Map	2	q33-q34	UniSTS
Cytogenetic Map	6	q24.1	UniSTS
Cytogenetic Map	4	q22.1	UniSTS
Cytogenetic Map	15	q13.3	UniSTS
Cytogenetic Map	10	q26.11	UniSTS
Cytogenetic Map	7	p15.3	UniSTS
Cytogenetic Map	10	q23.33	UniSTS
Cytogenetic Map	12	p12.1	UniSTS
Cytogenetic Map	7	p13-p12	UniSTS
Cytogenetic Map	X	q25	UniSTS
Cytogenetic Map	17	q11-q21	UniSTS
Cytogenetic Map	12	q23	UniSTS
Cytogenetic Map	6	p24-p22.3	UniSTS
Cytogenetic Map	14	q23.2	UniSTS
Cytogenetic Map	7	q31.1-q31.2	UniSTS
Cytogenetic Map	8	q22.2	UniSTS
Cytogenetic Map	15	q21.2	UniSTS
Cytogenetic Map	3	p26.1-p25.1	UniSTS
Cytogenetic Map	5	q35	UniSTS
Cytogenetic Map	3	q13.2	UniSTS
Cytogenetic Map	4	p15.2	UniSTS
Cytogenetic Map	6	q16.3	UniSTS
Cytogenetic Map	17	q24-q25	UniSTS
Cytogenetic Map	X	q12	UniSTS
Cytogenetic Map	X	q27.1	UniSTS
Cytogenetic Map	8	q12.3	UniSTS
Cytogenetic Map	5	q21.2	UniSTS
Cytogenetic Map	5	q15	UniSTS
Cytogenetic Map	5	q35.1	UniSTS
Cytogenetic Map	4	q13.3	UniSTS
Cytogenetic Map	4	q35.2	UniSTS
Cytogenetic Map	3	p26.1	UniSTS
Cytogenetic Map	3	p11.1	UniSTS
Cytogenetic Map	17	q21.2	UniSTS
Cytogenetic Map	2	q21.2	UniSTS
Cytogenetic Map	19	p13.13	UniSTS
Cytogenetic Map	18	q12.3	UniSTS
Cytogenetic Map	18	p11.3	UniSTS
Cytogenetic Map	17	q11.1	UniSTS
Cytogenetic Map	15	q25.1	UniSTS
Cytogenetic Map	13	q12.3	UniSTS
Cytogenetic Map	12	q23.2	UniSTS
Cytogenetic Map	12	q12-q13	UniSTS
Cytogenetic Map	12	q14	UniSTS
Cytogenetic Map	5	q33.1	UniSTS
Cytogenetic Map	2	q32-q34	UniSTS
Cytogenetic Map	16	q22.3	UniSTS
Cytogenetic Map	2	p15-p13	UniSTS
Cytogenetic Map	X	p11.4	UniSTS
Cytogenetic Map	19	q13.33-q13.41	UniSTS
Cytogenetic Map	20	p11	UniSTS
Cytogenetic Map	6	q23-q24	UniSTS
Cytogenetic Map	2	p12	UniSTS
Cytogenetic Map	2	p13	UniSTS
Cytogenetic Map	13	q11-q12	UniSTS
Cytogenetic Map	6	p12.3-p11.2	UniSTS
Cytogenetic Map	6	q16.1-q16.3	UniSTS
Cytogenetic Map	22	q11	UniSTS
Cytogenetic Map	7	q31.2	UniSTS
Cytogenetic Map	10	q21.3	UniSTS
Cytogenetic Map	3	q25.2	UniSTS
Cytogenetic Map	3	p21.1-p14.3	UniSTS
Cytogenetic Map	6	p12.1	UniSTS
Cytogenetic Map	3	q23-q24	UniSTS
Cytogenetic Map	3	q12	UniSTS
Cytogenetic Map	7	q11.1	UniSTS
Cytogenetic Map	3	q22.3	UniSTS
Cytogenetic Map	7	q21.3	UniSTS
Cytogenetic Map	4	q31.1	UniSTS
Cytogenetic Map	22	q12-q13	UniSTS
Cytogenetic Map	4	q23	UniSTS
Cytogenetic Map	X	p22.12	UniSTS
Cytogenetic Map	6	q16.1	UniSTS
Cytogenetic Map	13	q14.13	UniSTS
Cytogenetic Map	18	q21.3	UniSTS
Cytogenetic Map	9	q33.2	UniSTS
Cytogenetic Map	11	q21	UniSTS
Cytogenetic Map	8	q12	UniSTS
Cytogenetic Map	4	q28-q32	UniSTS
Cytogenetic Map	17	q24.3	UniSTS
Cytogenetic Map	6	p23	UniSTS
Cytogenetic Map	8	p11	UniSTS
Cytogenetic Map	5	q34	UniSTS
Cytogenetic Map	1	q24.3	UniSTS
Cytogenetic Map	9	q33.1	UniSTS
Cytogenetic Map	1	q23.3	UniSTS
Cytogenetic Map	2	p16.2	UniSTS
Cytogenetic Map	9	q22.31	UniSTS
Cytogenetic Map	9	p24.3	UniSTS
Cytogenetic Map	7	q35	UniSTS
Cytogenetic Map	1	p36.2	UniSTS
Cytogenetic Map	11	q22.3	UniSTS
Cytogenetic Map	16	p12	UniSTS
Cytogenetic Map	1	q22-q23	UniSTS
Cytogenetic Map	13	q22.1	UniSTS
Cytogenetic Map	2	q12.2	UniSTS
Cytogenetic Map	8	p12	UniSTS
Cytogenetic Map	4	q21	UniSTS
Cytogenetic Map	13	q12.2	UniSTS
Cytogenetic Map	9	q31-q33	UniSTS
Cytogenetic Map	6	p24.1	UniSTS
Cytogenetic Map	1	q23	UniSTS
Cytogenetic Map	11	q12-q13	UniSTS
Cytogenetic Map	11	q13.3	UniSTS
Cytogenetic Map	11	q24.2	UniSTS
Cytogenetic Map	11	q12.1	UniSTS
Cytogenetic Map	3	p26	UniSTS
Cytogenetic Map	5	q13	UniSTS
Cytogenetic Map	8	p21	UniSTS
Cytogenetic Map	19	q13.1-q13.2	UniSTS
Cytogenetic Map	1	p33-p32	UniSTS
Cytogenetic Map	7	q36.2	UniSTS
Cytogenetic Map	4	q32.3	UniSTS
Cytogenetic Map	16	p13.2	UniSTS
Cytogenetic Map	14	q32	UniSTS
Cytogenetic Map	10	q11.23	UniSTS
Cytogenetic Map	10	q26.1	UniSTS
Cytogenetic Map	9	q32-q33.3	UniSTS
Cytogenetic Map	9	q22.1-q22.2	UniSTS
Cytogenetic Map	3	q26.1-q26.2	UniSTS
Cytogenetic Map	5	q31-q34	UniSTS
Cytogenetic Map	9	q33-q34	UniSTS
Cytogenetic Map	5	q11.2-q13.2	UniSTS
Cytogenetic Map	13	q32	UniSTS
Cytogenetic Map	9	q22.32	UniSTS
Cytogenetic Map	1	p36.3	UniSTS
Cytogenetic Map	1	p36.3-p36.2	UniSTS
Cytogenetic Map	4	q28.1	UniSTS
Cytogenetic Map	5	q22	UniSTS
Cytogenetic Map	12	p11.21	UniSTS
Cytogenetic Map	X	q13.3	UniSTS
Cytogenetic Map	9	q31.3	UniSTS
Cytogenetic Map	3	p26.3	UniSTS
Cytogenetic Map	2	q11.1	UniSTS
Cytogenetic Map	21	q11.2	UniSTS
Cytogenetic Map	18	q21.32	UniSTS
Cytogenetic Map	15	q26.2	UniSTS
Cytogenetic Map	12	q24.23	UniSTS
Cytogenetic Map	10	q25.3	UniSTS
Cytogenetic Map	20	q11.23	UniSTS
Cytogenetic Map	20	p12.1	UniSTS
Cytogenetic Map	2	q31.1-q31.2	UniSTS
Cytogenetic Map	X	p22.31	UniSTS
Cytogenetic Map	X	p21.3	UniSTS
Cytogenetic Map	5	q33.3	UniSTS
Cytogenetic Map	4	q28.2	UniSTS
Cytogenetic Map	3	p14.2	UniSTS
Cytogenetic Map	3	q24	UniSTS
Cytogenetic Map	2	q13	UniSTS
Cytogenetic Map	20	q13.2	UniSTS
Cytogenetic Map	14	q11.2-q12	UniSTS
Cytogenetic Map	3	p24	UniSTS
Cytogenetic Map	12	q23.3	UniSTS
Cytogenetic Map	11	q24.3	UniSTS
Cytogenetic Map	11	q14.3	UniSTS
Cytogenetic Map	10	q25.2	UniSTS
Cytogenetic Map	3	q25.1	UniSTS
Cytogenetic Map	8	q13	UniSTS
Cytogenetic Map	1	p22.2	UniSTS
Cytogenetic Map	3	p22.3	UniSTS
Cytogenetic Map	18	q11.1	UniSTS
Cytogenetic Map	8	q23.3	UniSTS
Cytogenetic Map	15	q24	UniSTS
Cytogenetic Map	11	cen-q12	UniSTS
Cytogenetic Map	11	q25	UniSTS
Cytogenetic Map	3	p22.2	UniSTS
Cytogenetic Map	X	p21.1	UniSTS
Cytogenetic Map	7	q36	UniSTS
Cytogenetic Map	7	p14.3	UniSTS
Cytogenetic Map	12	q21	UniSTS
Cytogenetic Map	7	p15	UniSTS
Cytogenetic Map	7	q22-q31	UniSTS
Cytogenetic Map	11	q22	UniSTS
Cytogenetic Map	5	p15.3	UniSTS
Cytogenetic Map	20	q13.3-qter	UniSTS
Cytogenetic Map	1	p35-p34	UniSTS
Cytogenetic Map	4	p13-p12	UniSTS
Cytogenetic Map	10	q21-q22	UniSTS
Cytogenetic Map	4	q22	UniSTS
Cytogenetic Map	7	p13-p11.1	UniSTS
Cytogenetic Map	9	q31-q34	UniSTS
Cytogenetic Map	7	q21.1-q22	UniSTS
Cytogenetic Map	15	q26.1	UniSTS
Cytogenetic Map	3	q13.13-q13.2	UniSTS
Cytogenetic Map	X	p22.13	UniSTS
Cytogenetic Map	13	q12.12	UniSTS
Cytogenetic Map	13	q14.2	UniSTS
Cytogenetic Map	12	q	UniSTS
Cytogenetic Map	1	p	UniSTS
Cytogenetic Map	16	p	UniSTS
Cytogenetic Map	15	q	UniSTS
Cytogenetic Map	7	q	UniSTS
Cytogenetic Map	2	q	UniSTS
Cytogenetic Map	5	q13.1	UniSTS
Cytogenetic Map	11	p14.1	UniSTS
Cytogenetic Map	4	q32	UniSTS
Cytogenetic Map	2	p22	UniSTS
Cytogenetic Map	5	q14.3	UniSTS
Cytogenetic Map	10	p12.1	UniSTS
Cytogenetic Map	5	q23.2	UniSTS
Cytogenetic Map	2	p24.1	UniSTS
Cytogenetic Map	8	q24.13	UniSTS
Cytogenetic Map	12	p13.32	UniSTS
Cytogenetic Map	9	p21.1	UniSTS
Cytogenetic Map	9	q34.2-q34.3	UniSTS

G32490

Human Assembly	Chr	Position (strand)	Source	JBrowse
GRCh37	14	34,186,205 - 34,186,406	UniSTS	GRCh37
Celera	14	14,051,796 - 14,051,997	UniSTS
Cytogenetic Map	14	q12-q13	UniSTS
HuRef	14	14,303,039 - 14,303,240	UniSTS

Click on a value in the shaded box below the category label to view a detailed expression data table for that system.

Download All Expressed Objects for this Gene

adipose tissue	alimentary part of gastrointestinal system	appendage	circulatory system	ectoderm	endocrine system	endoderm	entire extraembryonic component	exocrine system	hemolymphoid system	hepatobiliary system	integumental system	mesenchyme	mesoderm	musculoskeletal system	nervous system	renal system	reproductive system	respiratory system	sensory system	visual system
1204	2330	2785	2232	4953	1608	2153	2	508	1068	349	2251	6195	5574	44	3733	821	1703	1534	169	1


RefSeq Transcripts	NG_013036	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	NM_001164749	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	NM_001165893	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	NM_001394988	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	NM_001394989	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	NM_022123	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	NM_173159	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_005267991	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_005267992	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_011537067	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_011537069	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_011537070	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_011537071	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_011537072	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_017021582	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_017021583	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_017021584	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_017021585	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_017021586	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_017021587	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_017021588	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_047431678	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_047431680	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376560	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376561	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376562	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376563	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376564	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376565	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376566	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376567	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376568	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376569	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376570	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376571	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_054376572	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
GenBank Nucleotide	AB054575	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AB054576	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AB055962	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AF164438	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AI811363	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AK000865	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AK002000	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AK021667	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AL079281	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AL109769	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AL133305	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AL139296	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AL157689	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AL158802	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AL161851	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AL355886	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AY157302	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	AY157303	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	BC035075	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	CH471078	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	CP068264	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KC877517	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KC877522	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KC877528	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KF455852	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KF455854	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KJ534893	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KJ534894	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KJ534895	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KJ534896	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KJ534897	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KJ534898	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KJ535018	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KJ535019	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	KJ535078	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles

Ensembl Acc Id:

ENST00000346562 ⟹ ENSP00000319610

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	32,939,243 - 33,804,176 (+)	Ensembl

Ensembl Acc Id:

ENST00000356141 ⟹ ENSP00000348460

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	32,938,879 - 33,804,173 (+)	Ensembl

Ensembl Acc Id:

ENST00000357798 ⟹ ENSP00000350446

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	32,939,317 - 33,801,109 (+)	Ensembl

Ensembl Acc Id:

ENST00000546849 ⟹ ENSP00000446700

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	33,215,312 - 33,612,580 (+)	Ensembl

Ensembl Acc Id:

ENST00000547068 ⟹ ENSP00000449542

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	33,213,678 - 33,681,042 (+)	Ensembl

Ensembl Acc Id:

ENST00000548645 ⟹ ENSP00000448916

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	32,939,272 - 33,801,278 (+)	Ensembl

Ensembl Acc Id:

ENST00000549770

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	33,215,182 - 33,560,414 (+)	Ensembl

Ensembl Acc Id:

ENST00000550662

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	33,608,487 - 33,612,589 (+)	Ensembl

Ensembl Acc Id:

ENST00000551008 ⟹ ENSP00000447213

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	33,215,213 - 33,681,042 (+)	Ensembl

Ensembl Acc Id:

ENST00000551492 ⟹ ENSP00000450392

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	32,934,933 - 33,801,109 (+)	Ensembl

Ensembl Acc Id:

ENST00000551634 ⟹ ENSP00000448373

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	32,934,396 - 33,801,103 (+)	Ensembl

Ensembl Acc Id:

ENST00000552696 ⟹ ENSP00000447858

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	33,560,185 - 33,585,979 (+)	Ensembl

Ensembl Acc Id:

ENST00000552874 ⟹ ENSP00000448450

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	33,735,241 - 33,780,871 (+)	Ensembl

Ensembl Acc Id:

ENST00000680362 ⟹ ENSP00000506064

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	33,215,182 - 33,804,176 (+)	Ensembl

Ensembl Acc Id:

ENST00000681323 ⟹ ENSP00000505264

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	33,735,214 - 33,820,863 (+)	Ensembl

Ensembl Acc Id:

ENST00000681796

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38.p14 Ensembl	14	33,215,191 - 33,396,454 (+)	Ensembl

RefSeq Acc Id:

NM_001164749 ⟹ NP_001158221

RefSeq Status:

REVIEWED

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,938,879 - 33,804,173 (+)	NCBI
GRCh37	14	33,404,115 - 34,273,382 (+)	NCBI
HuRef	14	13,641,962 - 14,390,327 (+)	ENTREZGENE
CHM1_1	14	33,407,064 - 34,271,980 (+)	NCBI
T2T-CHM13v2.0	14	27,135,797 - 28,001,533 (+)	NCBI

Sequence:

show sequence

GCCGGTCGCCTGTCTCCGCGCCGGGCATGCCTCGGGAGCCGGGGCGGCCCGGGCCGCGGGCGCTCTGCGGCGCATGGACGGCGGCGGCGCCGGGCGAGCAGCGGGAGGAGAAGGCGCAGGCGGCGGCG
GAAGCGGCGACCCACGGCTGGGAGCACCGGCGGCGCGAGGGGACGGCCGGCCGCCCGCGAGGCTCCGGCCCCACTACTTTTCCGTAGCCTCCCCACCTCAGCAGCACGGCCGCCGCCGCCGCCGCCGC
CGCCGCCACGGCCACGGCCACGGCCCCGGCCCCGGCCACCGCCCGCCGGGCAGCCCAGAGCGCCGCGCACGGCCGCACTCTCCCGCCACCCCACGCACACGCACACCCCCGCCCGCCCACGCCCCCCA
CCCGGGAGGGGGGAGAGAGGCAAAAAGTAAGAGAGGAAAAAAAATAGCAGGAAGATGGCGCCCACCAAGCCCAGCTTTCAGCAGGATCCTTCCAGGCGAGAACGAATAACTGCCCAGCATCCTCTGCC
CAACCAATCAGAATGTAGGAAAATCTACAGATATGACGGAATCTACTGTGAATCTACCTACCAGAATTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAA
ACTTTGAGTTCTATGAATTGGCCAAGTTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGG
GACCCTCCGTGGAACTTGCGAATGGAAGGCCCTCCACCTAACACATCAGTAAAAGTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCA
CATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTG
ACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAG
TCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATC
AGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCA
ATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGC
TACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACA
GTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGC
CGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACGAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAA
GACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTT
TGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCG
CCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGC
CCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTG
GAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGC
ACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCG
CTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCT
GCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGG
TGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGG
CTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGG
CATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGA
ATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTT
GCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTT
CTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCC
TAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAAT
TTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATG
CAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAAT
TTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTT
TTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACA
AAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATA
ACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGA
CTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTT
CAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATT
CTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTC
CCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGA
GCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCC
AGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACAT
TTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAG
GACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGA
TGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGT
GTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTG
TTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATA
TATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGA
TAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCC
ATTTTCATAATAAACTTCTCTTGGATTTGTTA

hide sequence

RefSeq Acc Id:

NM_001165893 ⟹ NP_001159365

RefSeq Status:

REVIEWED

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,938,879 - 33,804,173 (+)	NCBI
GRCh37	14	33,404,115 - 34,273,382 (+)	NCBI
HuRef	14	13,641,962 - 14,390,327 (+)	ENTREZGENE
CHM1_1	14	33,407,064 - 34,271,980 (+)	NCBI
T2T-CHM13v2.0	14	27,135,797 - 28,001,533 (+)	NCBI

Sequence:

show sequence

GCCGGTCGCCTGTCTCCGCGCCGGGCATGCCTCGGGAGCCGGGGCGGCCCGGGCCGCGGGCGCT
CTGCGGCGCATGGACGGCGGCGGCGCCGGGCGAGCAGCGGGAGGAGAAGGCGCAGGCGGCGGCGGAAGCGGCGACCCACGGCTGGGAGCACCGGCGGCGCGAGGGGACGGCCGGCCGCCCGCGAGGCT
CCGGCCCCACTACTTTTCCGTAGCCTCCCCACCTCAGCAGCACGGCCGCCGCCGCCGCCGCCGCCGCCGCCACGGCCACGGCCACGGCCCCGGCCCCGGCCACCGCCCGCCGGGCAGCCCAGAGCGCC
GCGCACGGCCGCACTCTCCCGCCACCCCACGCACACGCACACCCCCGCCCGCCCACGCCCCCCACCCGGGAGGGGGGAGAGAGGCAAAAAGTAAGAGAGGAAAAAAAATAGCAGGAAGATGGCGCCCA
CCAAGCCCAGCTTTCAGCAGGATCCTTCCAGGCGAGAACGTTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAAG
TTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGGA
AGGCCCTCCACCTAACACATCAGTAAAAGTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTG
TATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTG
GAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTC
AACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAG
GCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATG
TTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGT
GGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATG
CCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAG
ACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACGAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTC
GGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACG
GCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAG
GCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGT
GGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCT
CCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTC
ACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCA
CCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCG
TGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTG
CTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGG
CGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGC
GCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTC
GCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGG
TGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCT
TCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAAT
AGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAA
AAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGA
AAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATA
GCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACT
CAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGAC
TGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAG
TAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCAC
TTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATA
TACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGG
TGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCT
TTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTG
GGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAG
CAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGAT
AATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCC
AAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGG
AAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAA
CTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATAT
ATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTA
CAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACAT
ACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGAT
TTGTTA

hide sequence

RefSeq Acc Id:

NM_001394988 ⟹ NP_001381917

RefSeq Status:

REVIEWED

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,938,879 - 33,804,173 (+)	NCBI
T2T-CHM13v2.0	14	27,135,797 - 28,001,533 (+)	NCBI

Sequence:

show sequence

GCCGGTCGCCTGTCTCCGCGCCGGGCATGCCTCGGGAGCCGGGGCGGCCCGGGCCGCGGGCGCT
CTGCGGCGCATGGACGGCGGCGGCGCCGGGCGAGCAGCGGGAGGAGAAGGCGCAGGCGGCGGCGGAAGCGGCGACCCACGGCTGGGAGCACCGGCGGCGCGAGGGGACGGCCGGCCGCCCGCGAGGCT
CCGGCCCCACTACTTTTCCGTAGCCTCCCCACCTCAGCAGCACGGCCGCCGCCGCCGCCGCCGCCGCCGCCACGGCCACGGCCACGGCCCCGGCCCCGGCCACCGCCCGCCGGGCAGCCCAGAGCGCC
GCGCACGGCCGCACTCTCCCGCCACCCCACGCACACGCACACCCCCGCCCGCCCACGCCCCCCACCCGGGAGGGGGGAGAGAGGCAAAAAGTAAGAGAGGAAAAAAAATAGCAGGAAGATGGCGCCCA
CCAAGCCCAGCTTTCAGCAGGATCCTTCCAGGCGAGAACGTTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAAG
TTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGGA
AGGCCCTCCACCTAACACATCAGTAAAAGGGATACAAATGTGGAAATCTGAACTCTGCATGAGAAAGACACCATGTGAAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAGTATTTG
AAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTGGAGCTG
ACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGCCAGCTC
AGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCAAACGCG
GTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCGCATGCC
TTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCCTGTAGA
TATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGAAGAACG
GAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATGGACATC
GCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACGAGAACTCCAAGTCCGACGAGAAGGGGAA
CCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCGACGACA
GCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAACTGCGAG
TCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCG
CCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCAATTTCG
ACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGT
GGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGTCGCCTC
CGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGCTGTACA
CTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGCACCATC
CGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGAGATGCT
CTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGCTGCCCT
TCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTTTAGACC
TTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTGCCTTCA
GAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAATACTCAG
TCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAAATAGGG
TGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAAAATAAT
TTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTAATCTGT
AATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCATTAACGT
TTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAGGAGCAG
TTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGGTTTTTT
TCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAATGGGTT
AATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCAGTGTGG
TGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCCTTGGCT
GTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTCCTGCAG
TCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGCTGTTGC
TTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGACTCTTAA
CTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCATATAGC
CTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAAAATTCT
TTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATATCACTGT
GTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGTAGGTTT
AGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTTTCTTTT
ATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTCATTACC
TGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTAGCAGTG
TTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGAAACATT
TTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTATGTAACTTAAT
TTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTA

hide sequence

RefSeq Acc Id:

NM_001394989 ⟹ NP_001381918

RefSeq Status:

REVIEWED

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,938,879 - 33,804,173 (+)	NCBI
T2T-CHM13v2.0	14	27,135,797 - 28,001,533 (+)	NCBI

Sequence:

show sequence

GCCGGTCGCCTGTCTCCGCGCCGGGCATGCCTCGGGAGCCGGGGCGGCCCGGGCCGCGGGCGCT
CTGCGGCGCATGGACGGCGGCGGCGCCGGGCGAGCAGCGGGAGGAGAAGGCGCAGGCGGCGGCGGAAGCGGCGACCCACGGCTGGGAGCACCGGCGGCGCGAGGGGACGGCCGGCCGCCCGCGAGGCT
CCGGCCCCACTACTTTTCCGTAGCCTCCCCACCTCAGCAGCACGGCCGCCGCCGCCGCCGCCGCCGCCGCCACGGCCACGGCCACGGCCCCGGCCCCGGCCACCGCCCGCCGGGCAGCCCAGAGCGCC
GCGCACGGCCGCACTCTCCCGCCACCCCACGCACACGCACACCCCCGCCCGCCCACGCCCCCCACCCGGGAGGGGGGAGAGAGGCAAAAAGTAAGAGAGGAAAAAAAATAGCAGGAAGATGGCGCCCA
CCAAGCCCAGCTTTCAGCAGGATCCTTCCAGGCGAGAACGTTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAAG
TTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGGA
AGGCCCTCCACCTAACACATCAGTAAAAGTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTG
TATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTG
GAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTC
AACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAG
GCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATG
TTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGT
GGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATG
CCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAG
ACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGAGGACAACGAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGC
GTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTG
CTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCG
CAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCC
GCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACG
AGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCC
GGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAA
CGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGC
TGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAAC
GCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAG
CGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGG
ACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACG
GTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTG
GGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGA
TCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTA
GAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAA
AGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAA
AATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACAT
TAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAAC
TGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGAT
TTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAA
AAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTT
GGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCT
AATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCC
TCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCT
CCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACT
CTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTG
CTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATC
TAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGG
TGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTAC
TCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGAT
AATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACT
TTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGAC
AGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTT
ACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTA

hide sequence

RefSeq Acc Id:

NM_022123 ⟹ NP_071406

RefSeq Status:

REVIEWED

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,938,879 - 33,804,173 (+)	NCBI
GRCh37	14	33,404,115 - 34,273,382 (+)	NCBI
Build 36	14	32,478,200 - 33,340,702 (+)	NCBI Archive
HuRef	14	13,641,962 - 14,390,327 (+)	ENTREZGENE
CHM1_1	14	33,407,064 - 34,271,980 (+)	NCBI
T2T-CHM13v2.0	14	27,135,797 - 28,001,533 (+)	NCBI

Sequence:

show sequence

GCCGGTCGCCTGTCTCCGCGCCGGGCATGCCTCGGGAGCCGGGGCGGCCCGGGCCGCGGGCGCTCTGCGGCGCATGGACGGCGGCGGCGCCGGGCGAGCAGCGGGAGGAGAAGGCGCAGGCGGCGGCG
GAAGCGGCGACCCACGGCTGGGAGCACCGGCGGCGCGAGGGGACGGCCGGCCGCCCGCGAGGCTCCGGCCCCACTACTTTTCCGTAGCCTCCCCACCTCAGCAGCACGGCCGCCGCCGCCGCCGCCGC
CGCCGCCACGGCCACGGCCACGGCCCCGGCCCCGGCCACCGCCCGCCGGGCAGCCCAGAGCGCCGCGCACGGCCGCACTCTCCCGCCACCCCACGCACACGCACACCCCCGCCCGCCCACGCCCCCCA
CCCGGGAGGGGGGAGAGAGGCAAAAAGTAAGAGAGGAAAAAAAATAGCAGGAAGATGGCGCCCACCAAGCCCAGCTTTCAGCAGGATCCTTCCAGGCGAGAACGTTTACAAGCATTGAGAAAGGAGAA
ATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAAGTTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAA
TTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGGAAGGCCCTCCACCTAACACATCAGTAAAAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCC
ATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTC
ACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGG
ACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACT
CTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGT
TGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATC
TGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGG
ATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACAC
ACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACGAGAACTCCAAGTCCG
ACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGC
GACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCT
GCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCG
CCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAA
CCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGG
CGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGG
CCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAAC
TCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACAC
CACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGC
CCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTC
TCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCAT
TTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTA
TTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCC
ATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTC
AAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGC
ACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCA
TTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAG
CCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTG
ATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATG
TTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAAC
TAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCA
GAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTA
TGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGT
CCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAA
TTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATA
AAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATT
GATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGA
GACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTT
TGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGA
TTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTG
TTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAA
ACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAA
AATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTT
ATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTT
TATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTA

hide sequence

RefSeq Acc Id:

NM_173159 ⟹ NP_775182

RefSeq Status:

REVIEWED

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,938,879 - 33,804,173 (+)	NCBI
GRCh37	14	33,404,115 - 34,273,382 (+)	NCBI
Build 36	14	32,478,274 - 33,340,066 (+)	NCBI Archive
HuRef	14	13,641,962 - 14,390,327 (+)	ENTREZGENE
CHM1_1	14	33,407,064 - 34,271,980 (+)	NCBI
T2T-CHM13v2.0	14	27,135,797 - 28,001,533 (+)	NCBI

Sequence:

show sequence

GCCGGTCGCCTGTCTCCGCGCCGGGCATGCCTCGGGAGCCGGGGCGGCCCGGGCCGCGGGCGCT
CTGCGGCGCATGGACGGCGGCGGCGCCGGGCGAGCAGCGGGAGGAGAAGGCGCAGGCGGCGGCGGAAGCGGCGACCCACGGCTGGGAGCACCGGCGGCGCGAGGGGACGGCCGGCCGCCCGCGAGGCT
CCGGCCCCACTACTTTTCCGTAGCCTCCCCACCTCAGCAGCACGGCCGCCGCCGCCGCCGCCGCCGCCGCCACGGCCACGGCCACGGCCCCGGCCCCGGCCACCGCCCGCCGGGCAGCCCAGAGCGCC
GCGCACGGCCGCACTCTCCCGCCACCCCACGCACACGCACACCCCCGCCCGCCCACGCCCCCCACCCGGGAGGGGGGAGAGAGGCAAAAAGTAAGAGAGGAAAAAAAATAGCAGGAAGATGGCGCCCA
CCAAGCCCAGCTTTCAGCAGGATCCTTCCAGGCGAGAACGTTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAAG
TTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGGA
AGGCCCTCCACCTAACACATCAGTAAAAGGGATACAAATGTGGAAATCTGAACTCTGCATGAGAAAGACACCATGTGAAGTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAG
TATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTG
GAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGC
CAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCA
AACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCG
CATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCC
TGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGA
AGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATG
GACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACGAGAACTCCAAGTCCGACGAGAA
GGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCG
ACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAAC
TGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCG
CCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCA
ATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGT
GGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGT
CGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGC
TGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGC
ACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGA
GATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGC
TGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTT
TAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTG
CCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAAT
ACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAA
ATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAA
AATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTA
ATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCAT
TAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAG
GAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGG
TTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAA
TGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCA
GTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCC
TTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTC
CTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGC
TGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGAC
TCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCA
TATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAA
AATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATAT
CACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGT
AGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTT
TCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTC
ATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTA
GCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGA
AACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTATGTAA
CTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTA

hide sequence

RefSeq Acc Id:

XM_005267991 ⟹ XP_005268048

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,934,785 - 33,804,173 (+)	NCBI
GRCh37	14	33,404,115 - 34,273,382 (+)	NCBI

Sequence:

show sequence

AGCCCGAGCCCCCGCCAGCCAGAGCCCAGAGCCGCCGCGCCCGGGGGCCGAAGCCGCGGCGATG
ATCCGAATCTTTCCGGATTTCAGCGTGCAGGTGACGGCCGCGGCGGCCGGCGGGGCGGCCGCGGGGGTGCCGGCCGGCGCGGGCATGGGGAGGGCCGGCGCCGCGGCCAACGGCACCCCGCAGAACGT
CCAGGGCATCACCTCCTACCAGCAGCGAATAACTGCCCAGCATCCTCTGCCCAACCAATCAGAATGTAGGAAAATCTACAGATATGACGGAATCTACTGTGAATCTACCTACCAGAATTTACAAGCAT
TGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAAGTTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATC
ATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGGAAGGCCCTCCACCTAACACATCAGTAAAAGTTATAGGTGCACAGCGAAGGAG
AAGCCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCT
CCATCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTG
TCACAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTT
CATCCGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCC
AAATCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGG
ATTAGTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGT
GACAAAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCA
ATCCTGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGAC
AACGAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTC
CAGTAACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGA
GCGAGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAA
CGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGAT
CAAGACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACT
TCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCC
TCGGCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGG
CGGCCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGG
CCGCGCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTT
GGCCTCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCAC
CACGGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTG
GAGGAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTT
TCGTGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTC
ATGTGTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATG
TGCCCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATT
TTAAGATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTC
TAAAACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCC
TTGGTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCT
GGAAAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAG
AAGGAAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGA
AACCAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCC
TATTTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACT
GTAATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTC
TAGTCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCT
TCCGTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATC
TCTTTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCT
CAGATATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATAT
ATAAAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATA
TAGTAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAAT
AGTGAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACA
AAGAACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAA
AATGAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAA
GGGATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAA
CTTCCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATG
TCACATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTACTA

hide sequence

RefSeq Acc Id:

XM_005267992 ⟹ XP_005268049

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,934,797 - 33,804,173 (+)	NCBI
GRCh37	14	33,404,115 - 34,273,382 (+)	NCBI

Sequence:

show sequence

CGCCAGCCAGAGCCCAGAGCCGCCGCGCCCGGGGGCCGAAGCCGCGGCGATGATCCGAATCTTTCCGGATTTCAGCGTGCAGGTGACGGCCGCGGCGGCCGGCGGGGCGGCCGCGGGGGTGCCGGCCG
GCGCGGGCATGGGGAGGGCCGGCGCCGCGGCCAACGGCACCCCGCAGAACGTCCAGGGCATCACCTCCTACCAGCAGCGAATAACTGCCCAGCATCCTCTGCCCAACCAATCAGAATGTAGGAAAATC
TACAGATATGACGGAATCTACTGTGAATCTACCTACCAGAATTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAA
GTTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGG
AAGGCCCTCCACCTAACACATCAGTAAAAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTT
GCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGAT
GGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCA
GCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGG
CTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGT
CACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGG
GCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAG
AATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATC
CGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACGAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCA
ACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTC
GGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGG
CGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGC
CCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGG
AACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCC
GCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCG
GGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTC
CCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCC
CAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAG
TGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAG
GAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCAC
GACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGT
GTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATA
AAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTAT
TTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAA
AAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAA
AAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTC
ACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTC
TAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTT
TGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAA
AAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCAT
TTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTA
AGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCC
TTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCC
ATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTAT
GACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTG
GGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGG
AATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACC
GTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCT
CTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAAC
AGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAA
AACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAG
CGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTC
ATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTT
ACTA

hide sequence

RefSeq Acc Id:

XM_011537067 ⟹ XP_011535369

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,938,879 - 33,804,173 (+)	NCBI

Sequence:

show sequence

ACGGCCGCACTCTCCCGCCACCCCACGCACACGCACACCCCCGCCCGCCCACGCCCCCCACCCG
GGAGGGGGGAGAGAGGCAAAAAGTAAGAGAGGAAAAAAAATAGCAGGAAGATGGCGCCCACCAAGCCCAGCTTTCAGCAGGATCCTTCCAGGCGAGAACGAATAACTGCCCAGCATCCTCTGCCCAAC
CAATCAGAATGTAGGAAAATCTACAGATATGACGGAATCTACTGTGAATCTACCTACCAGAATTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTT
TGAGTTCTATGAATTGGCCAAGTTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACC
CTCCGTGGAACTTGCGAATGGAAGGCCCTCCACCTAACACATCAGTAAAAGGGATACAAATGTGGAAATCTGAACTCTGCATGAGAAAGACACCATGTGAAGTTATAGGTGCACAGCGAAGGAGAAGC
CCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCAT
CTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCAC
AGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATC
CGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAAT
CATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTA
GTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACA
AAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCC
TGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACG
AGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGT
AACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGA
GTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGC
AAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAG
ACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCC
GTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGG
CCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGC
CCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGC
GCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCC
TCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACG
GCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGG
AGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGT
GTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGT
GTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCC
CTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAA
GATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAA
ACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGG
TTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAA
AACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGG
AAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACC
AATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATT
TTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAA
TGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGT
CCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCG
TTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTT
TCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGA
TATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAA
AGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGT
AACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTG
AGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGA
ACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATG
AAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGA
TATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTC
CTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCAC
ATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTACTA

hide sequence

RefSeq Acc Id:

XM_011537069 ⟹ XP_011535371

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,934,785 - 33,804,173 (+)	NCBI

Sequence:

show sequence

AGCCCGAGCCCCCGCCAGCCAGAGCCCAGAGCCGCCGCGCCCGGGGGCCGAAGCCGCGGCGATGATCCGAATCTTTCCGGATTTCAGCGTGCAGGTGACGGCCGCGGCGGCCGGCGGGGCGGCCGCGG
GGGTGCCGGCCGGCGCGGGCATGGGGAGGGCCGGCGCCGCGGCCAACGGCACCCCGCAGAACGTCCAGGGCATCACCTCCTACCAGCAGCGAATAACTGCCCAGCATCCTCTGCCCAACCAATCAGAA
TGTAGGAAAATCTACAGATATGACGGAATCTACTGTGAATCTACCTACCAGAATTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTA
TGAATTGGCCAAGTTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGA
ACTTGCGAATGGAAGGCCCTCCACCTAACACATCAGTAAAAGTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCC
CTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCC
CGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCG
AGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTG
ATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAAT
TGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCC
ATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACC
ATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTC
CGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGAGGACAACGAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGA
AGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAG
GACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGG
CGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCC
TGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAG
ATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGT
CCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACA
AGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAAC
GTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAA
CCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCG
GCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTG
GAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTC
TCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCT
AAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGT
TTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGG
GAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGT
TTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGG
GGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAA
CATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCT
TACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGG
GGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACAT
TAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTT
CCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAG
TATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGT
GTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCT
CCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAAT
TCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTA
TAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGG
GGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGG
GCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATT
TTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATT
TAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAA
ATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAAC
GTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGT
ACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTT
GGATTTGTTACTA

hide sequence

RefSeq Acc Id:

XM_011537071 ⟹ XP_011535373

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,934,800 - 33,804,173 (+)	NCBI

Sequence:

show sequence

CAGCCAGAGCCCAGAGCCGCCGCGCCCGGGGGCCGAAGCCGCGGCGATGATCCGAATCTTTCCG
GATTTCAGCGTGCAGGTGACGGCCGCGGCGGCCGGCGGGGCGGCCGCGGGGGTGCCGGCCGGCGCGGGCATGGGGAGGGCCGGCGCCGCGGCCAACGGCACCCCGCAGAACGTCCAGGGCATCACCTC
CTACCAGCAGCGTTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAAGTTGTTGCCTCTTCCTGCAGCCATTACCA
GCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGGAAGGCCCTCCACCTAACACATCAGTAAAA
GTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATT
TTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGC
TCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGAC
AACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTC
CCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCA
ATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGAC
TTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCAT
CTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAG
ACACCTCAGAGGACAACGAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGAC
GACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGA
GCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCA
AGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCC
TCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCC
CAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGA
CTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGC
GGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGC
CGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTA
ACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCC
GGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGG
CCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCA
CCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTA
TTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGAC
AAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTT
TTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAAC
ATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCG
TTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTT
TTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACA
CTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCT
TATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAA
AAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAA
CAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTAT
CTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTA
CTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCC
CCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCAC
TGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGC
TGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTT
GTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATG
CCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGC
ACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGT
GTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCT
GAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAG
CTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTA
GATTCTCATACATGTCACATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTACTA

hide sequence

RefSeq Acc Id:

XM_017021582 ⟹ XP_016877071

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,934,785 - 33,804,173 (+)	NCBI

Sequence:

show sequence

AGCCCGAGCCCCCGCCAGCCAGAGCCCAGAGCCGCCGCGCCCGGGGGCCGAAGCCGCGGCGATGATCCGAATCTTTCCGGATTTCAGCGTGCAGGTGACGGCCGCGGCGGCCGGCGGGGCGGCCGCGG
GGGTGCCGGCCGGCGCGGGCATGGGGAGGGCCGGCGCCGCGGCCAACGGCACCCCGCAGAACGTCCAGGGCATCACCTCCTACCAGCAGCGAATAACTGCCCAGCATCCTCTGCCCAACCAATCAGAA
TGTAGGAAAATCTACAGATATGACGGAATCTACTGTGAATCTACCTACCAGAATTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTA
TGAATTGGCCAAGTTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGA
ACTTGCGAATGGAAGGCCCTCCACCTAACACATCAGTAAAAGGGATACAAATGTGGAAATCTGAACTCTGCATGAGAAAGACACCATGTGAAGTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCA
CTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGG
CCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTG
CTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAA
TCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCT
CGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATA
TGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTAT
CGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAA
GGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACGAGAACTCCA
AGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGAC
AGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCT
GCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCG
GCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATC
TCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCA
GGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGG
CCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCG
TCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGT
CTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCA
AGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGA
CTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGT
CGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATA
TGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCC
TCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGAC
TAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTT
ACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTG
CTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAG
ACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATC
AAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTT
AACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTT
TAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTG
TTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAA
TGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGG
TACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTT
TTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCA
GAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAA
TAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTAC
CAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCT
GTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTT
GAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGA
CAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAA
AAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTT
CGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCC
TGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGT
TGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTACTA

hide sequence

RefSeq Acc Id:

XM_017021583 ⟹ XP_016877072

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,934,785 - 33,804,173 (+)	NCBI

Sequence:

show sequence

AGCCCGAGCCCCCGCCAGCCAGAGCCCAGAGCCGCCGCGCCCGGGGGCCGAAGCCGCGGCGATGATCCGAATCTTTCCGGATTTCAGCGTGCAGGTGACGGCCGCGGCGGCCGGCGGGGCGGCCGCGG
GGGTGCCGGCCGGCGCGGGCATGGGGAGGGCCGGCGCCGCGGCCAACGGCACCCCGCAGAACGTCCAGGGCATCACCTCCTACCAGCAGCGAATAACTGCCCAGCATCCTCTGCCCAACCAATCAGAA
TGTAGGAAAATCTACAGATATGACGGAATCTACTGTGAATCTACCTACCAGAATTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTA
TGAATTGGCCAAGTTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGA
ACTTGCGAATGGAAGGCCCTCCACCTAACACATCAGTAAAAGGGATACAAATGTGGAAATCTGAACTCTGCATGAGAAAGACACCATGTGAAGTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCA
CTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGG
CCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTG
CTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAA
TCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCT
CGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATA
TGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTAT
CGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAA
GGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGAGGACAACGAGAACTCCAAGTCCGACG
AGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGAC
AGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCA
GAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCA
GCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCC
ATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGG
CGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCC
CCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCC
TTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCAC
GGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCA
TGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCC
ACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTT
CGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTT
TTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATA
GAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAA
TGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACA
TAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTT
ATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCC
TCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATT
TGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTT
TTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAA
AGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAA
ATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGT
GTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCC
ATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTC
CTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAA
AGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGAT
GCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGAC
AGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGA
ATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTT
AAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTT
TTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACA
CTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAAT
CTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATT
TTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTAT
GTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTACTA

hide sequence

RefSeq Acc Id:

XM_017021584 ⟹ XP_016877073

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,934,785 - 33,804,173 (+)	NCBI

Sequence:

show sequence

AGCCCGAGCCCCCGCCAGCCAGAGCCCAGAGCCGCCGCGCCCGGGGGCCGAAGCCGCGGCGATG
ATCCGAATCTTTCCGGATTTCAGCGTGCAGGTGACGGCCGCGGCGGCCGGCGGGGCGGCCGCGGGGGTGCCGGCCGGCGCGGGCATGGGGAGGGCCGGCGCCGCGGCCAACGGCACCCCGCAGAACGT
CCAGGGCATCACCTCCTACCAGCAGCGTTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAAGTTGTTGCCTCTTC
CTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGGAAGGCCCTCCACCT
AACACATCAGTAAAAGGGATACAAATGTGGAAATCTGAACTCTGCATGAGAAAGACACCATGTGAAGTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACA
TTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCA
GCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCT
TCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCAAACGCGGTGTGCA
CATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTC
CCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCCTGTAGATATCGTA
GGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGAAGAACGGAGGATA
TATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATGGACATCGCACAGC
TCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACGAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCC
GAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCGACGACAGCTTCGA
GCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCA
CGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCC
AGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCAATTTCGACAATGA
CAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTG
GCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCG
CTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGA
CCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGCACCATCCGCTACG
CGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGAGATGCTCTACCAC
CACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGT
CTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATT
CTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTC
AGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAATACTCAGTCTTGTG
GTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTT
TGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAAAATAATTTGGGTT
CTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTAATCTGTAATGTCT
TCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGC
AGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGT
ACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGGTTTTTTTCATTTC
TTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGC
TTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAA
CACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTC
CCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGT
GAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTG
GTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTC
AAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCATATAGCCTCAGTT
GTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAG
GTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGT
AGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGT
GAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATG
TTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAG
ACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAA
CTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTC
ATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTATGTAACTTAATTTTTTCA
TCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTACTA

hide sequence

RefSeq Acc Id:

XM_017021585 ⟹ XP_016877074

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,934,785 - 33,804,173 (+)	NCBI

Sequence:

show sequence

AGCCCGAGCCCCCGCCAGCCAGAGCCCAGAGCCGCCGCGCCCGGGGGCCGAAGCCGCGGCGATG
ATCCGAATCTTTCCGGATTTCAGCGTGCAGGTGACGGCCGCGGCGGCCGGCGGGGCGGCCGCGGGGGTGCCGGCCGGCGCGGGCATGGGGAGGGCCGGCGCCGCGGCCAACGGCACCCCGCAGAACGT
CCAGGGCATCACCTCCTACCAGCAGCGTTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAAGTTGTTGCCTCTTC
CTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGGAAGGCCCTCCACCT
AACACATCAGTAAAAGTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAA
TCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGC
AGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGT
CTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCT
GAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAG
TAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGG
CACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAA
TGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTG
AGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACGAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGT
GACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCT
GGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGG
CCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGG
CTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTC
CCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCG
CCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGC
GGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGT
GCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGC
ACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCA
GCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTG
AGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCC
CCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTT
GTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTT
GATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAAT
TTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTC
GGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATG
TGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAA
TTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAG
GCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGA
TGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAA
AAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCA
GCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATG
TAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTG
TAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCC
CTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGT
CTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTT
TCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGA
ATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGA
ATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTA
GCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATC
ACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTA
TGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCT
ATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAA
CAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTACTA

hide sequence

RefSeq Acc Id:

XM_017021587 ⟹ XP_016877076

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	33,161,010 - 33,804,173 (+)	NCBI

Sequence:

show sequence

TCCAAACAGTGGAGGACAATGAAAGATAACAGATACTTTAGTATGCGTTCATGTACTGGCTGGAACATGTTCATGCTCTGGCAGTGACTTTAGCTTTTCCTTAGAAAGCATGGGGATATTAAGTTATT
TAAAAGTATTCTTTAGATCTAAAGTCTAAAGGCATCTACCCAGATTAATTTTTTAATATTTTCTGTATAGTTTCCTGATGGTATTAGAAGCAGGAAGTAGTATGGAGATAAGGAGCATATTTATTGAA
TGCCTACTATGTGCCAAGCACTTTGCTTAACATTATGATTAATTTTTGACTTCTCAAAACCTTGTGATTTAGTTAGTACCTATCCATTTTATAGATGTAGAGAGCAAGAATCATTGATACTAATTAAC
TTGCCCAGCTTTATGCAGTTAGTGAAAAGAAGTTAAAACCCAGGTATGTTGGATCCCAAGGCCCAAGTTCTTGACCACTGTCTTCTAATCAACAAAAGCTATATACTTAAGAAAACAAGGGTGAAGAA
TGAGGATACTAATACATTGGTATCACTGTACTTGACATTGTGGTTTATGTTTCAAATACTGGTTCTGTAGTCTTAAAGGAGTATATTTATTTGCAAATGAAAGTAGCAAGCTCACGATGGCTTCCTCC
ATGGTTTAAGAGGATAATGAGAGAGATCAATAGTTGTTGTCTTGTAGCCAAGCGGTACAGGGGAGAACTGGAAAGGTAGGTTCCCATTTGCTCTGTCCTGGAGGAGATAGTCAATGAGAGTATAGCCA
AGTAAAATTATTACAAATGTTCATAAGTACTTTGAAGGAAACAAGTAGGGGTTGAGGTAGAGACCAGCAGGATAAGGAATGTTGCATACATAAGACGTGGGAAATAGGAATGGCTCATGTGAGGAAGT
GACATAGGACCTGAGCCATGAAGGCTGAGGAGCCAGGTCTTAGAGCTGAGTGCTGCTGTCAGTTATCAGAGGAGCCCTGAATAGGCCATACTCCTCCAGGGATGGGGCATAGAGTCCTAGGCTTCTTC
ATTCCTGGCAGAGAGTAGGCACCATGCCGGGCACATGGCTGGCCCTGATGTATATTTGCTGAATGAATTTTGCAAATCCCTGCAAAGAGCATTTCCTTATGTACCTGCTTATACGGTCATCTGTGTTG
ATGTAGTGCAGCCAGGTACTTGTCTACTTAAACTTTTCATTACAGAAATTTTTAAACACAAAACAGAGTCTAGAATAATGAATCTCCATGCATCCATATCTACATTCAACAATTATTAATATTTTTTC
AATCTTATTTTATCTAACCTCTACTTCATTTTTTTCTCCCTATGGTATTTTCCAGCAAGTCCCAGGCATCATATCTTTACAATTGTAAATACTTTAATATGCGTTTCACACTGATGAGGGCATTTTTA
TTTACATAGCCTCAGGTCACTATCACACTTAGAATTAATAAGGACTAATCTTCTGATCTTTTAAAAATTTAATAAAGCTAAATACAATTTATTAACAAATTATGATGGAATTAGCATCTATAAATGTG
CCTGGATGCAGTTGCTATTTCCTTTTAAATTCTTCTCATGTTTGTGACTTGACTGTCCAATGACTGTAATTTCTTACTCTCTCTCCAAAGCTAGCAACCAAACATCAACTTTTCGTTAAAAACAAGCA
AAAAAAAAAGTGGCCCAAGAGGAGCGTCTACACTGCAACTGACTTAGAAAGCTGCTTGACAGAACCTCCTCTCTTTATTGGTCCCTGTGGTGGCAGATGGTATTAAATCTGTACATGTGTCAGAAACA
TTATTTTTCAAAAGTTTGCTCTGATATTTTTCCTCCAGACATCATCGGATGTTGGTTCTGTCTTCATAAATTGCAAGTGGAATTGAGCATCGGTAGACTTTGGACAATCTTCTGTCACTCAGAACTGG
CTGCTATGTACTCAACACTGGGAATCTAGAAAAATACAGATCTTTGAAATCATTACTGCTGACAAAGAAAAAGGAAGTCCCAGTGACACCTCTTAACATCATGACAACCTGACTCACCGACCACTTTC
ACTTTTTCAAAAAACCGTGCAGTGTTAGTTTGGCTTTAACATCTCTGTACCCCTCATTCATTATTTAATCTTATTTTGCTTTGTTCAGACAAGCTATCTGGGCTATTGTGAAGCTTCACACAGCCAAT
TACCTCAAGGTGTTTAGTTCATTTATTATTTAAAGCATAAATCTTGTACAGGTTGTCCATTGACGACCCTCTGAGTAGATGGAGTAAATGCCTTTCATCCTGGCGGCCTCAGTCAGTGCTCACAGACC
TGCTTGCTGAGCTTGGCAGGCCAGGCGAGAGCTGGAGCATGTAAGATAGCAGAGTTTACAAGCATTGAGAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCT
ATGAATTGGCCAAGTTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATTCGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGG
AACTTGCGAATGGAAGGCCCTCCACCTAACACATCAGTAAAAGTTATAGGTGCACAGCGAAGGAGAAGCCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTC
CCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCATCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACC
CCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCACAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCC
GAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCATCCGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGT
GATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAATCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAA
TTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATTAGTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATC
CATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGACAAAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCAC
CATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATCCTGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTT
CCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAACGAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCC
GACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAGTAACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAA
GGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCGAGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGG
ACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGGCAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTG
GACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAAGACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCC
CAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCCCGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTC
CCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCGGCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCC
CCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGGCCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCA
GGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCGCGCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCA
TGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGCCTCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCA
GGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCACGGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGC
ACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAGGAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGT
CAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCGTGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTT
GTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATGTGTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAA
CCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGCCCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAA
AAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTAAGATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTG
ACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAAAACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGC
TGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTGGTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCC
AACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGAAAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTT
TTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAGGAAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTT
GTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAACCAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAA
AACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTATTTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATA
AATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTAATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTT
CTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAGTCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAG
TGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCCGTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCT
CTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCTTTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCC
ACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAGATATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGT
GCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATAAAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACA
AAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAGTAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTT
CATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGTGAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTA
CAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAGAACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATT
TCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAATGAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATT
TCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGGATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAA
TAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTTCCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAA
TCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCACATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATA
AACTTCTCTTGGATTTGTTACTA

hide sequence

RefSeq Acc Id:

XM_017021588 ⟹ XP_016877077

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	33,150,169 - 33,804,173 (+)	NCBI

Sequence:

show sequence

CTTTACCCAGTCTATCATTATAGCTATTCATGTTATTTATTTTTAAAATGTAACTTACCCCTCA
GGCAGAATTTTCTCTAAAAAAGAATTACTGAATTAAGTGAGCACCTGCTGAGGTTTAAGAGATTAACTGTCTTTCAGCACTCATCCTTCATCAAAGTTATTTTGGCTCTGTGATGTCACATGTCAGAA
TGAACCTAAAGACTCAAGCAAACCATTGTTGAAACGTGCATCAGCAATAAATTGCACATATTGGAGAAATATGGTACTGAGCATACTTTGGACAGCTTCAAAGTTGAGTTAAATTTTACAAGCATTGA
GAAAGGAGAAATCCCGAGATGCTGCTCGCTCCCGCCGGGGAAAAGAAAACTTTGAGTTCTATGAATTGGCCAAGTTGTTGCCTCTTCCTGCAGCCATTACCAGCCAGCTCGACAAGGCATCCATCATT
CGACTTACAATTAGCTATCTGAAAATGAGGGACTTTGCTAACCAGGGGGACCCTCCGTGGAACTTGCGAATGGAAGGCCCTCCACCTAACACATCAGTAAAAGTTATAGGTGCACAGCGAAGGAGAAG
CCCCAGTGCACTAGCCATTGAAGTATTTGAAGCACATTTGGGAAGCCACATTTTGCAGTCCCTGGATGGCTTTGTATTTGCACTAAATCAGGAAGGAAAATTTTTGTACATTTCCGAAACAGTCTCCA
TCTACCTAGGCCTCTCACAAGTGGAGCTGACAGGCAGCAGTGTCTTTGACTATGTCCACCCCGGAGATCACGTGGAGATGGCTGAGCAGCTGGGCATGAAGCTCCCCCCTGGGCGGGGTCTCCTGTCA
CAGGGCACTGCTGAGGACGGAGCCAGCTCAGCATCTTCCTCCTCTCAGTCGGAGACCCCCGAGCCAGTGGAGTCAACCAGCCCCAGTCTGCTAACCACTGACAACACTCTTGAGCGTTCCTTTTTCAT
CCGAATGAAATCTACTCTGACCAAACGCGGTGTGCACATCAAATCATCAGGATATAAGGTGATTCACATAACAGGCCGGCTACGCCTGAGAGTGTCGCTGTCCCACGGGAGGACCGTCCCCAGCCAAA
TCATGGGTCTCGTGGTTGTTGCGCATGCCTTGCCTCCCCCTACGATCAATGAAGTCAGAATTGACTGCCATATGTTCGTCACTCGAGTAAATATGGACCTCAATATCATTTACTGTGAAAATAGGATT
AGTGATTATATGGATCTGACCCCTGTAGATATCGTAGGGAAGAGATGCTACCACTTCATCCATGCTGAAGACGTGGAGGGCATCAGGCACAGTCACTTGGACTTGCTGAATAAGGGTCAGTGTGTGAC
AAAGTACTATCGCTGGATGCAGAAGAACGGAGGATATATTTGGATACAGTCCAGTGCCACCATAGCTATTAATGCCAAGAATGCAAATGAAAAGAATATCATCTGGGTGAATTACCTTCTTAGCAATC
CTGAGTACAAGGACACACCCATGGACATCGCACAGCTCCCCCATCTGCCGGAGAAAACTTCCGAATCCTCGGAGACATCCGACTCTGAGTCAGACTCTAAAGACACCTCAGGTATTACAGAGGACAAC
GAGAACTCCAAGTCCGACGAGAAGGGGAACCAGTCCGAGAACAGCGAAGACCCGGAGCCCGACCGGAAGAAGTCGGGCAACGCGTGTGACAACGACATGAACTGCAACGACGACGGCCACAGCTCCAG
TAACCCGGACAGCCGCGACAGCGACGACAGCTTCGAGCACTCGGACTTTGAGAACCCCAAGGCGGGCGAGGACGGCTTCGGTGCTCTGGGCGCGATGCAGATCAAGGTGGAGCGCTACGTGGAGAGCG
AGTCGGACCTGCGGCTGCAGAACTGCGAGTCACTCACGTCCGACAGCGCCAAGGACTCGGACAGCGCAGGCGAGGCGGGCGCGCAGGCCTCCAGCAAGCACCAGAAGCGCAAGAAAAGGCGGAAACGG
CAAAAGGGCGGCAGCGCCAGCCGCCGGCGCCTGTCCAGCGCGTCGAGCCCAGGCGGCCTGGACGCGGGCCTGGTGGAGCCCCCGCGGCTGCTGTCCTCCCCCAACAGTGCCTCGGTGCTCAAGATCAA
GACGGAGATCTCAGAACCCATCAATTTCGACAATGACAGCAGCATCTGGAACTACCCGCCCAACCGGGAGATCTCCAGGAACGAGTCCCCCTACAGCATGACCAAGCCCCCCAGCTCTGAGCACTTCC
CGTCCCCGCAGGGCGGCGGCGGTGGGGGTGGCGGTGGCGGGGGGCTGCACGTGGCCATTCCCGACTCGGTCCTCACCCCGCCCGGCGCCGACGGCGCGGCCGCCCGCAAGACTCAGTTCGGCGCCTCG
GCCACCGCGGCCCTGGCCCCCGTCGCCTCCGACCCGCTGTCACCCCCGCTCTCGGCGTCCCCGCGGGACAAGCACCCCGGGAACGGCGGCGGGGGCGGGGGCGGGGGCGGCGGCGCGGGGGGCGGCGG
CCCCAGCGCGTCCAACTCCTTGCTGTACACTGGGGACCTGGAGGCGCTGCAGAGGTTGCAGGCGGGCAACGTCGTGCTCCCGCTGGTGCACAGGGTGACCGGGACCCTGGCCGCCACCAGCACGGCCG
CGCAGAGGGTCTACACCACGGGCACCATCCGCTACGCGCCCGCCGAGGTGACCCTGGCCATGCAGAGCAACCTGCTGCCCAACGCGCACGCTGTTAACTTCGTGGACGTTAACAGCCCCGGCTTTGGC
CTCGACCCCAAGACGCCCATGGAGATGCTCTACCACCACGTGCACCGGCTCAACATGTCAGGACCGTTCGGCGGCGCAGTGAGCGCAGCTAGCCTGACGCAGATGCCCGCCGGCAACGTGTTCACCAC
GGCCGAGGGACTCTTCTCCACGCTGCCCTTCCCCGTCTACAGCAACGGCATCCACGCGGCACAGACTCTGGAGCGCAAGGAGGACTGAGGCGCCGCCCGTCCTGGGCCCGGCCAGGCCCCGCTTGGAG
GAGGCATCGTCGGCATTTTCGTTTAGACCTTTAATTCTAGCACTTTGAATTCGAGCAGGTCAGCGTCTTCTCTCGCCACGACGGTCCCCATTCCACCCCCTCTTTCTTTCACCTGACTTATTCTTTCG
TGTAAAGATATGTTTATTTTTTGCCTTCAGAGGGTCAGACGACCAGTTGCCTGCCGTTTTGTCTTCTTCTAAGGTGTGTGTTGGGTTGTTTTGCTTTCCTTTGCATCTTTATTAAGATGTCTTTCATG
TGTATATGCCTCTGCCATAGAATACTCAGTCTTGTGGTCAAGAGAGTTCTCAAGTGACAACCATTGGGGTTTCTTCATAAAGATCTTGATATGATCAAGATGGAAAGAGACAAGCATAAACAATGTGC
CCTGTTTGACTAAGTCAAATGAAATAGGGTGGTTTTTGTTTCTGTTCCTAATTCCTTTAAAAAATAGGGGGAATAGTATTTTAGAATTTTATGCAGAATTTAATTCTCTTTTTACGGTTAAGATTTTA
AGATTTTCTTACTTGCACATAAAAATAATTTGGGTTCTTAAACTTAATTTCTGGCCTGTGACTAGAATGTTTAAAAAAAAAAAAGTCGGACTAAATGTTAATTACTGAAACATTAACTTAATTTCTAA
AACCATGGTGCTATCATTTATTAATCTGTAATGTCTTCATACAAAATGCAGCTCCTGGGCTGGGTTTTGGGGGAAAAAAAAAAAATGTGTTCTGTCCTGGTCTGGAGTCCGTTGCTGCAGTCTCCTTG
GTTAGTTAAGACAAAGCCCTCATTAACGTTTGCTGCAGGACTTAAAATTTTTTACCTCCCAACTAACAAACATAGCCTCACATTAAATTTAATGGGTCAGTAAAGCCCCTTTTAAAGGGGCTGCTGGA
AAACTCAATCAAACTGATTTGAGGAGCAGTTTAGGTACATACTGCCTTTTGTTTAGCTTTTTGTTTTCCTTACTCAGTCTAACTGAGGCTAATTTTGCAACTTCAATAACACTTCGGAGTAAAAGAAG
GAAAATATTTAACATGTTTTTGGTTTTTTTCATTTCTTGCTTAAAACAAAAAGGAAGGTTGTATTTGGGGGGACTGGTTTGATTTGATGGAATTTCTTTCCCTTTGGTTCTTATTTCTGGGTTGAAAC
CAATAAGTTTTAAAACTAAAGAATGGGTTAATAAGCTTCAGACAGATAACTGCAACTGAAAACTGCACATTAAGTAAAAAAAAAAAAAAAGAAAAAAAAAAGAAAAAGAAAAAGAAAAAAAATCCTAT
TTTGTCTTTGTTGCCAGAAATCAGTGTGGTGTCAAACACTCCAAATGACTGTCAAGTATAAATTCTTCTTCCACTTCATTTTTGGCAGCTGTTTGTTAAGGCATCTAATAACAGATGTGAGAACTGTA
ATGTGTACAATGTGTATGTGTCCTTGGCTGTCAGTCCCATTGCAGTTTCAATGTGTGTTTCTATATGCAGTATATACTAAGCTAATGTAGTTGTTTTGTCCTTTGTCTTATCTGTGCTCTATCTCTAG
TCCGGAGTGGTACAGTCCCATTCCTGCAGTCCTAGTGAATCAGTGATTCTTGGGGGTTAGTGGGTTTTGTGTGGTGGCCTTCCTCTGTAATGTCACCCTATGCTGCTTCTACTGTCTGTGAATCTTCC
GTTTTACCTTTTAAAATTCCTGCTGTTGCTTTGCTGGTGTATATTCTCCCTACCTCTCCTCTCTTTCCCTCCCTTTCCCATCTCCCCCTCTCCCTCCTCTTCATTCCTTCCCCATCCCCAAAATCTCT
TTCATTCTCAGAGATAAAAAGACTCTTAACTAGCTCAAGGTTAATGGAGCCATTTTTCCCACAACGGAATTCTGGGTATGACTCTGTCTTCTGGAGTGCAACACAAAGCACTGAAGAATAATGCTCAG
ATATATTAAATAAATTGATGCCATATAGCCTCAGTTGTTAACATTCCCAGAGTCCCTTGTGCTCTACCTATAAGCAGTGGGTGCTTTTCTTTGGTTTCCTTTCAGGTTGGCTGATGGAGCAATATATA
AAGCAATTACCAGTGAGACAGAAAATTCTTTCAAAGGTCAACCAACATTTTTAAGAAACAAAATGGGAGGGGATAATGGAATCTAGAATTGTCATATATATTTGTTTACTTGTGCAATGCTAATATAG
TAACTCGGCTGTCCTTTGAATATCACTGTGTTGAGTAGATTCCTCTAGGACCTTTGATTTCATGAGTTGGGCCCAAACCGTGGTGGAATAATAACAAAAAGAAGTTAAATGCCACAAATTTTAATAGT
GAGCTTACTTGAAGGATTTAAGTAGGTTTAGGAGGTGAAGAAGGCCGATGGAGAAATTTACAGATTAATTTTGGAAGCTCTACTCTAGCTATCGAACAATCAAAGGAATGCACCTATCAGCTACAAAG
AACAGCTAGACAGCTGTTTTTTTTCTTTTATAAATGTTTCTGTGTTGTGTCAAAATGATTTCTGGTGATTTAAACTAACAGATAATCACAGCTGCTGTCTAAATTCATAGTGTTGAAAATTACAAAAT
GAAAAAAAAAAAAAAAACACTTCATTACCTGTGAAGACTGTGTCTGTGTTTTTAACTATTTCTTGTACAAATATATGAAAACTTTTATGAGGAGACTGGTGCCAAGTAGCTGAATAATGGGGAAAGGG
ATATTCTGTTCGTAAAAATCTTAGCAGTGTTACCAACTCTACGATATATATATAAAAAAATAATTAAAACGTTACAAAGCGACAGCTATGGTACATTTGTTTTGTGTGAAGCTAACCGGACCTAACTT
CCTGAGTGCCTGGCTTATTTTGAAACATTTTTTTTCATTGACCATTGATAATGCTGCAAATCAGAAATGTACATACTTCATTTACAACAGGGTTCTTTTTATACTTTTGTAGATTCTCATACATGTCA
CATACATGGTTGTCTTTATGTAACTTAATTTTTTCATCCGCAGGTGCCATTTTCATAATAAACTTCTCTTGGATTTGTTACTA

hide sequence

RefSeq Acc Id:

XM_047431678 ⟹ XP_047287634

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,934,785 - 33,804,173 (+)	NCBI

RefSeq Acc Id:

XM_047431680 ⟹ XP_047287636

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,938,879 - 33,804,173 (+)	NCBI

RefSeq Acc Id:

XM_054376560 ⟹ XP_054232535

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,131,685 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376561 ⟹ XP_054232536

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,131,685 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376562 ⟹ XP_054232537

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,131,685 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376563 ⟹ XP_054232538

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,131,685 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376564 ⟹ XP_054232539

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,131,697 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376565 ⟹ XP_054232540

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,131,685 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376566 ⟹ XP_054232541

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,131,685 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376567 ⟹ XP_054232542

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,135,797 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376568 ⟹ XP_054232543

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,131,685 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376569 ⟹ XP_054232544

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,131,700 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376570 ⟹ XP_054232545

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,135,797 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376571 ⟹ XP_054232546

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,358,244 - 28,001,533 (+)	NCBI

RefSeq Acc Id:

XM_054376572 ⟹ XP_054232547

Type:

CODING

Position:

Human Assembly	Chr	Position (strand)	Source
T2T-CHM13v2.0	14	27,347,403 - 28,001,533 (+)	NCBI


Protein RefSeqs	NP_001158221	(Get FASTA)	NCBI Sequence Viewer
	NP_001159365	(Get FASTA)	NCBI Sequence Viewer
	NP_001381917	(Get FASTA)	NCBI Sequence Viewer
	NP_001381918	(Get FASTA)	NCBI Sequence Viewer
	NP_071406	(Get FASTA)	NCBI Sequence Viewer
	NP_775182	(Get FASTA)	NCBI Sequence Viewer
	XP_005268048	(Get FASTA)	NCBI Sequence Viewer
	XP_005268049	(Get FASTA)	NCBI Sequence Viewer
	XP_011535369	(Get FASTA)	NCBI Sequence Viewer
	XP_011535371	(Get FASTA)	NCBI Sequence Viewer
	XP_011535373	(Get FASTA)	NCBI Sequence Viewer
	XP_016877071	(Get FASTA)	NCBI Sequence Viewer
	XP_016877072	(Get FASTA)	NCBI Sequence Viewer
	XP_016877073	(Get FASTA)	NCBI Sequence Viewer
	XP_016877074	(Get FASTA)	NCBI Sequence Viewer
	XP_016877076	(Get FASTA)	NCBI Sequence Viewer
	XP_016877077	(Get FASTA)	NCBI Sequence Viewer
	XP_047287634	(Get FASTA)	NCBI Sequence Viewer
	XP_047287636	(Get FASTA)	NCBI Sequence Viewer
	XP_054232535	(Get FASTA)	NCBI Sequence Viewer
	XP_054232536	(Get FASTA)	NCBI Sequence Viewer
	XP_054232537	(Get FASTA)	NCBI Sequence Viewer
	XP_054232538	(Get FASTA)	NCBI Sequence Viewer
	XP_054232539	(Get FASTA)	NCBI Sequence Viewer
	XP_054232540	(Get FASTA)	NCBI Sequence Viewer
	XP_054232541	(Get FASTA)	NCBI Sequence Viewer
	XP_054232542	(Get FASTA)	NCBI Sequence Viewer
	XP_054232543	(Get FASTA)	NCBI Sequence Viewer
	XP_054232544	(Get FASTA)	NCBI Sequence Viewer
	XP_054232545	(Get FASTA)	NCBI Sequence Viewer
	XP_054232546	(Get FASTA)	NCBI Sequence Viewer
	XP_054232547	(Get FASTA)	NCBI Sequence Viewer
GenBank Protein	AAG35180	(Get FASTA)	NCBI Sequence Viewer
	AAO17043	(Get FASTA)	NCBI Sequence Viewer
	AAO17044	(Get FASTA)	NCBI Sequence Viewer
	AHW56533	(Get FASTA)	NCBI Sequence Viewer
	AHW56534	(Get FASTA)	NCBI Sequence Viewer
	AHW56535	(Get FASTA)	NCBI Sequence Viewer
	AHW56536	(Get FASTA)	NCBI Sequence Viewer
	AHW56537	(Get FASTA)	NCBI Sequence Viewer
	AHW56538	(Get FASTA)	NCBI Sequence Viewer
	AHW56657	(Get FASTA)	NCBI Sequence Viewer
	AHW56658	(Get FASTA)	NCBI Sequence Viewer
	AHW56717	(Get FASTA)	NCBI Sequence Viewer
	BAB21221	(Get FASTA)	NCBI Sequence Viewer
	BAC53754	(Get FASTA)	NCBI Sequence Viewer
	BAC53756	(Get FASTA)	NCBI Sequence Viewer
	CAB45154	(Get FASTA)	NCBI Sequence Viewer
	EAW65930	(Get FASTA)	NCBI Sequence Viewer
Ensembl Protein	ENSP00000319610
	ENSP00000319610.5
	ENSP00000348460
	ENSP00000348460.4
	ENSP00000350446
	ENSP00000350446.5
	ENSP00000448373
	ENSP00000448916
	ENSP00000448916.1
	ENSP00000449542.1
	ENSP00000450392
GenBank Protein	Q8IXF0	(Get FASTA)	NCBI Sequence Viewer

RefSeq Acc Id:	NP_001158221 ⟸ NM_001164749
- Peptide Label:	isoform 1
- UniProtKB:	Q9H323 (UniProtKB/Swiss-Prot), Q9BY81 (UniProtKB/Swiss-Prot), Q8IXF2 (UniProtKB/Swiss-Prot), Q86US7 (UniProtKB/Swiss-Prot), Q86US6 (UniProtKB/Swiss-Prot), Q9Y4L8 (UniProtKB/Swiss-Prot), Q8IXF0 (UniProtKB/Swiss-Prot), X5D2Q4 (UniProtKB/TrEMBL), X5DNV7 (UniProtKB/TrEMBL)
- Sequence:	show sequence MAPTKPSFQQDPSRRERITAQHPLPNQSECRKIYRYDGIYCESTYQNLQALRKEKSRDAARSRRGKENFEFYELAKLLPLPAAITSQLDKASIIRLTISYLKMRDFANQGDPPWNLRMEGPPPNTSVK VIGAQRRRSPSALAIEVFEAHLGSHILQSLDGFVFALNQEGKFLYISETVSIYLGLSQVELTGSSVFDYVHPGDHVEMAEQLGMKLPPGRGLLSQGTAEDGASSASSSSQSETPEPVESTSPSLLTTD NTLERSFFIRMKSTLTKRGVHIKSSGYKVIHITGRLRLRVSLSHGRTVPSQIMGLVVVAHALPPPTINEVRIDCHMFVTRVNMDLNIIYCENRISDYMDLTPVDIVGKRCYHFIHAEDVEGIRHSHLD LLNKGQCVTKYYRWMQKNGGYIWIQSSATIAINAKNANEKNIIWVNYLLSNPEYKDTPMDIAQLPHLPEKTSESSETSDSESDSKDTSGITEDNENSKSDEKGNQSENSEDPEPDRKKSGNACDNDMN CNDDGHSSSNPDSRDSDDSFEHSDFENPKAGEDGFGALGAMQIKVERYVESESDLRLQNCESLTSDSAKDSDSAGEAGAQASSKHQKRKKRRKRQKGGSASRRRLSSASSPGGLDAGLVEPPRLLSSP NSASVLKIKTEISEPINFDNDSSIWNYPPNREISRNESPYSMTKPPSSEHFPSPQGGGGGGGGGGGLHVAIPDSVLTPPGADGAAARKTQFGASATAALAPVASDPLSPPLSASPRDKHPGNGGGGGG GGGGAGGGGPSASNSLLYTGDLEALQRLQAGNVVLPLVHRVTGTLAATSTAAQRVYTTGTIRYAPAEVTLAMQSNLLPNAHAVNFVDVNSPGFGLDPKTPMEMLYHHVHRLNMSGPFGGAVSAASLTQ MPAGNVFTTAEGLFSTLPFPVYSNGIHAAQTLERKED hide sequence

RefSeq Acc Id:	NP_775182 ⟸ NM_173159
- Peptide Label:	isoform 3
- UniProtKB:	X5DR67 (UniProtKB/TrEMBL)
- Sequence:	show sequence MAPTKPSFQQDPSRRERLQALRKEKSRDAARSRRGKENFEFYELAKLLPLPAAITSQLDKASII RLTISYLKMRDFANQGDPPWNLRMEGPPPNTSVKGIQMWKSELCMRKTPCEVIGAQRRRSPSALAIEVFEAHLGSHILQSLDGFVFALNQEGKFLYISETVSIYLGLSQVELTGSSVFDYVHPGDHVE MAEQLGMKLPPGRGLLSQGTAEDGASSASSSSQSETPEPVESTSPSLLTTDNTLERSFFIRMKSTLTKRGVHIKSSGYKVIHITGRLRLRVSLSHGRTVPSQIMGLVVVAHALPPPTINEVRIDCHMF VTRVNMDLNIIYCENRISDYMDLTPVDIVGKRCYHFIHAEDVEGIRHSHLDLLNKGQCVTKYYRWMQKNGGYIWIQSSATIAINAKNANEKNIIWVNYLLSNPEYKDTPMDIAQLPHLPEKTSESSET SDSESDSKDTSGITEDNENSKSDEKGNQSENSEDPEPDRKKSGNACDNDMNCNDDGHSSSNPDSRDSDDSFEHSDFENPKAGEDGFGALGAMQIKVERYVESESDLRLQNCESLTSDSAKDSDSAGEA GAQASSKHQKRKKRRKRQKGGSASRRRLSSASSPGGLDAGLVEPPRLLSSPNSASVLKIKTEISEPINFDNDSSIWNYPPNREISRNESPYSMTKPPSSEHFPSPQGGGGGGGGGGGLHVAIPDSVLT PPGADGAAARKTQFGASATAALAPVASDPLSPPLSASPRDKHPGNGGGGGGGGGGAGGGGPSASNSLLYTGDLEALQRLQAGNVVLPLVHRVTGTLAATSTAAQRVYTTGTIRYAPAEVTLAMQSNLL PNAHAVNFVDVNSPGFGLDPKTPMEMLYHHVHRLNMSGPFGGAVSAASLTQMPAGNVFTTAEGLFSTLPFPVYSNGIHAAQTLERKED hide sequence

RefSeq Acc Id:	NP_001159365 ⟸ NM_001165893
- Peptide Label:	isoform 4
- UniProtKB:	X5D988 (UniProtKB/TrEMBL), X5DNV7 (UniProtKB/TrEMBL)
- Sequence:	show sequence MAPTKPSFQQDPSRRERLQALRKEKSRDAARSRRGKENFEFYELAKLLPLPAAITSQLDKASIIRLTISYLKMRDFANQGDPPWNLRMEGPPPNTSVKVIGAQRRRSPSALAIEVFEAHLGSHILQSL DGFVFALNQEGKFLYISETVSIYLGLSQVELTGSSVFDYVHPGDHVEMAEQLGMKLPPGRGLLSQGTAEDGASSASSSSQSETPEPVESTSPSLLTTDNTLERSFFIRMKSTLTKRGVHIKSSGYKVI HITGRLRLRVSLSHGRTVPSQIMGLVVVAHALPPPTINEVRIDCHMFVTRVNMDLNIIYCENRISDYMDLTPVDIVGKRCYHFIHAEDVEGIRHSHLDLLNKGQCVTKYYRWMQKNGGYIWIQSSATI AINAKNANEKNIIWVNYLLSNPEYKDTPMDIAQLPHLPEKTSESSETSDSESDSKDTSGITEDNENSKSDEKGNQSENSEDPEPDRKKSGNACDNDMNCNDDGHSSSNPDSRDSDDSFEHSDFENPKA GEDGFGALGAMQIKVERYVESESDLRLQNCESLTSDSAKDSDSAGEAGAQASSKHQKRKKRRKRQKGGSASRRRLSSASSPGGLDAGLVEPPRLLSSPNSASVLKIKTEISEPINFDNDSSIWNYPPN REISRNESPYSMTKPPSSEHFPSPQGGGGGGGGGGGLHVAIPDSVLTPPGADGAAARKTQFGASATAALAPVASDPLSPPLSASPRDKHPGNGGGGGGGGGGAGGGGPSASNSLLYTGDLEALQRLQA GNVVLPLVHRVTGTLAATSTAAQRVYTTGTIRYAPAEVTLAMQSNLLPNAHAVNFVDVNSPGFGLDPKTPMEMLYHHVHRLNMSGPFGGAVSAASLTQMPAGNVFTTAEGLFSTLPFPVYSNGIHAAQ TLERKED hide sequence

RefSeq Acc Id:	NP_071406 ⟸ NM_022123
- Peptide Label:	isoform 2
- UniProtKB:	X5DNV7 (UniProtKB/TrEMBL)
- Sequence:	show sequence MAPTKPSFQQDPSRRERLQALRKEKSRDAARSRRGKENFEFYELAKLLPLPAAITSQLDKASII RLTISYLKMRDFANQGDPPWNLRMEGPPPNTSVKGAQRRRSPSALAIEVFEAHLGSHILQSLDGFVFALNQEGKFLYISETVSIYLGLSQVELTGSSVFDYVHPGDHVEMAEQLGMKLPPGRGLLSQG TAEDGASSASSSSQSETPEPVESTSPSLLTTDNTLERSFFIRMKSTLTKRGVHIKSSGYKVIHITGRLRLRVSLSHGRTVPSQIMGLVVVAHALPPPTINEVRIDCHMFVTRVNMDLNIIYCENRISD YMDLTPVDIVGKRCYHFIHAEDVEGIRHSHLDLLNKGQCVTKYYRWMQKNGGYIWIQSSATIAINAKNANEKNIIWVNYLLSNPEYKDTPMDIAQLPHLPEKTSESSETSDSESDSKDTSGITEDNEN SKSDEKGNQSENSEDPEPDRKKSGNACDNDMNCNDDGHSSSNPDSRDSDDSFEHSDFENPKAGEDGFGALGAMQIKVERYVESESDLRLQNCESLTSDSAKDSDSAGEAGAQASSKHQKRKKRRKRQK GGSASRRRLSSASSPGGLDAGLVEPPRLLSSPNSASVLKIKTEISEPINFDNDSSIWNYPPNREISRNESPYSMTKPPSSEHFPSPQGGGGGGGGGGGLHVAIPDSVLTPPGADGAAARKTQFGASAT AALAPVASDPLSPPLSASPRDKHPGNGGGGGGGGGGAGGGGPSASNSLLYTGDLEALQRLQAGNVVLPLVHRVTGTLAATSTAAQRVYTTGTIRYAPAEVTLAMQSNLLPNAHAVNFVDVNSPGFGLD PKTPMEMLYHHVHRLNMSGPFGGAVSAASLTQMPAGNVFTTAEGLFSTLPFPVYSNGIHAAQTLERKED hide sequence

RefSeq Acc Id:	XP_005268048 ⟸ XM_005267991
- Peptide Label:	isoform X4
- UniProtKB:	F8VR32 (UniProtKB/TrEMBL)
- Sequence:	show sequence MIRIFPDFSVQVTAAAAGGAAAGVPAGAGMGRAGAAANGTPQNVQGITSYQQRITAQHPLPNQSECRKIYRYDGIYCESTYQNLQALRKEKSRDAARSRRGKENFEFYELAKLLPLPAAITSQLDKAS IIRLTISYLKMRDFANQGDPPWNLRMEGPPPNTSVKVIGAQRRRSPSALAIEVFEAHLGSHILQSLDGFVFALNQEGKFLYISETVSIYLGLSQVELTGSSVFDYVHPGDHVEMAEQLGMKLPPGRGL LSQGTAEDGASSASSSSQSETPEPVESTSPSLLTTDNTLERSFFIRMKSTLTKRGVHIKSSGYKVIHITGRLRLRVSLSHGRTVPSQIMGLVVVAHALPPPTINEVRIDCHMFVTRVNMDLNIIYCEN RISDYMDLTPVDIVGKRCYHFIHAEDVEGIRHSHLDLLNKGQCVTKYYRWMQKNGGYIWIQSSATIAINAKNANEKNIIWVNYLLSNPEYKDTPMDIAQLPHLPEKTSESSETSDSESDSKDTSGITE DNENSKSDEKGNQSENSEDPEPDRKKSGNACDNDMNCNDDGHSSSNPDSRDSDDSFEHSDFENPKAGEDGFGALGAMQIKVERYVESESDLRLQNCESLTSDSAKDSDSAGEAGAQASSKHQKRKKRR KRQKGGSASRRRLSSASSPGGLDAGLVEPPRLLSSPNSASVLKIKTEISEPINFDNDSSIWNYPPNREISRNESPYSMTKPPSSEHFPSPQGGGGGGGGGGGLHVAIPDSVLTPPGADGAAARKTQFG ASATAALAPVASDPLSPPLSASPRDKHPGNGGGGGGGGGGAGGGGPSASNSLLYTGDLEALQRLQAGNVVLPLVHRVTGTLAATSTAAQRVYTTGTIRYAPAEVTLAMQSNLLPNAHAVNFVDVNSPG FGLDPKTPMEMLYHHVHRLNMSGPFGGAVSAASLTQMPAGNVFTTAEGLFSTLPFPVYSNGIHAAQTLERKED hide sequence

Protein Domains

bHLH PAC PAS

Name	Modeler	Protein Id	AA Range	Protein Structure
AF-Q8IXF0-F1-model_v2	AlphaFold	Q8IXF0	1-933	view protein structure

RGD ID:

6791773

Promoter ID:

HG_KWN:19191

Type:

CpG-Island

SO ACC ID:

SO:0000170

Source:

MPROMDB

Tissues & Cell Lines:

Lymphoblastoid

Transcripts:

ENST00000341321, ENST00000346562, NM_001164749, NM_001165893, NM_173159

Position:

Human Assembly	Chr	Position (strand)	Source
Build 36	14	32,478,371 - 32,478,871 (+)	MPROMDB

RGD ID:

7227387

Promoter ID:

EPDNEW_H19440

Type:

initiation region

Name:

NPAS3_1

Description:

neuronal PAS domain protein 3

SO ACC ID:

SO:0000170

Source:

EPDNEW (Eukaryotic Promoter Database, http://epd.vital-it.ch/)

Experiment Methods:

Single-end sequencing.

Position:

Human Assembly	Chr	Position (strand)	Source
GRCh38	14	32,939,311 - 32,939,371	EPDNEW

Database	Acc Id	Source(s)
COSMIC	NPAS3	COSMIC
Ensembl Genes	ENSG00000151322	Ensembl, ENTREZGENE, UniProtKB/Swiss-Prot
Ensembl Transcript	ENST00000346562	ENTREZGENE
	ENST00000346562.6	UniProtKB/Swiss-Prot
	ENST00000356141	ENTREZGENE
	ENST00000356141.9	UniProtKB/Swiss-Prot
	ENST00000357798	ENTREZGENE
	ENST00000357798.9	UniProtKB/Swiss-Prot
	ENST00000547068.5	UniProtKB/Swiss-Prot
	ENST00000548645	ENTREZGENE
	ENST00000548645.5	UniProtKB/Swiss-Prot
	ENST00000551492	ENTREZGENE
	ENST00000551634	ENTREZGENE
Gene3D-CATH	4.10.280.10	UniProtKB/Swiss-Prot
	PAS domain	UniProtKB/Swiss-Prot
GTEx	ENSG00000151322	GTEx
HGNC ID	HGNC:19311	ENTREZGENE
Human Proteome Map	NPAS3	Human Proteome Map
InterPro	bHLH_dom	UniProtKB/Swiss-Prot
	HLH_DNA-bd_sf	UniProtKB/Swiss-Prot
	PAS	UniProtKB/Swiss-Prot
	PAS-like_dom_sf	UniProtKB/Swiss-Prot
	PAS_fold	UniProtKB/Swiss-Prot
	PAS_fold_3	UniProtKB/Swiss-Prot
KEGG Report	hsa:64067	UniProtKB/Swiss-Prot
NCBI Gene	64067	ENTREZGENE
OMIM	609430	OMIM
PANTHER	HYPOXIA-INDUCIBLE FACTOR 1 ALPHA	UniProtKB/Swiss-Prot
	NEURONAL PAS DOMAIN-CONTAINING PROTEIN 3	UniProtKB/Swiss-Prot
Pfam	PAS	UniProtKB/Swiss-Prot
	PAS_3	UniProtKB/Swiss-Prot
PharmGKB	PA134968746	PharmGKB
PROSITE	BHLH	UniProtKB/Swiss-Prot
	PAS	UniProtKB/Swiss-Prot
SMART	HLH	UniProtKB/Swiss-Prot
	PAS	UniProtKB/Swiss-Prot
Superfamily-SCOP	SSF47459	UniProtKB/Swiss-Prot
	SSF55785	UniProtKB/Swiss-Prot
UniProt	A0A7P0T8Q6_HUMAN	UniProtKB/TrEMBL
	A0A7P0TA87_HUMAN	UniProtKB/TrEMBL
	F8VR32	ENTREZGENE, UniProtKB/TrEMBL
	F8VS42	ENTREZGENE, UniProtKB/TrEMBL
	F8W0C2_HUMAN	UniProtKB/TrEMBL
	H0YHB6_HUMAN	UniProtKB/TrEMBL
	H0YHU7_HUMAN	UniProtKB/TrEMBL
	H0YI42_HUMAN	UniProtKB/TrEMBL
	NPAS3_HUMAN	UniProtKB/Swiss-Prot
	Q86US6	ENTREZGENE
	Q86US7	ENTREZGENE
	Q8IXF0	ENTREZGENE
	Q8IXF2	ENTREZGENE
	Q9BY81	ENTREZGENE
	Q9H323	ENTREZGENE
	Q9Y4L8	ENTREZGENE
	X5D2Q4	ENTREZGENE, UniProtKB/TrEMBL
	X5D7M0	ENTREZGENE, UniProtKB/TrEMBL
	X5D985	ENTREZGENE, UniProtKB/TrEMBL
	X5D988	ENTREZGENE, UniProtKB/TrEMBL
	X5D9I7_HUMAN	UniProtKB/TrEMBL
	X5DNV7	ENTREZGENE, UniProtKB/TrEMBL
	X5DR67	ENTREZGENE, UniProtKB/TrEMBL
	X5DRF3_HUMAN	UniProtKB/TrEMBL
	X5DRK2_HUMAN	UniProtKB/TrEMBL
UniProt Secondary	Q86US6	UniProtKB/Swiss-Prot
	Q86US7	UniProtKB/Swiss-Prot
	Q8IXF2	UniProtKB/Swiss-Prot
	Q9BY81	UniProtKB/Swiss-Prot
	Q9H323	UniProtKB/Swiss-Prot
	Q9Y4L8	UniProtKB/Swiss-Prot

Gene Annotator (Functional Annotation) unavailable	Gene Annotator (Annotation Distribution) unavailable	Variant Visualizer (Genomic Variants) unavailable


InterViewer (Protein-Protein Interactions) unavailable	Gviewer (Genome Viewer) unavailable	Variant Visualizer (Damaging Variants) unavailable


Gene Annotator (Annotation Comparison) unavailable	OLGA (Gene List Generator) unavailable
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MOET (Multi-Ontology Enrichement) unavailable	GOLF (Gene-Ortholog Location Finder) unavailable

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