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Gene: Ptpn4 (protein tyrosine phosphatase non-receptor type 4) Ictidomys tridecemlineatus

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Symbol:

Ptpn4

Name:

protein tyrosine phosphatase non-receptor type 4

RGD ID:

12674230

Description:

ENCODES a protein that exhibits cytoskeletal protein binding (inferred); glutamate receptor binding (inferred); hydrolase activity (inferred); INVOLVED IN peptidyl-tyrosine phosphorylation (ortholog); ASSOCIATED WITH genetic disease (ortholog); intellectual disability (ortholog); Neurodevelopmental Disorders (ortholog); FOUND IN cytoplasm (inferred); cytoplasmic side of plasma membrane (inferred); cytoskeleton (inferred)

Type:

protein-coding

RefSeq Status:

MODEL

Previously known as:

tyrosine-protein phosphatase non-receptor type 4

RGD Orthologs

Alliance Orthologs

More Info

more info ...

Latest Assembly:

SpeTri2.0 - Squirrel SpeTri2.0 Assembly

Position:

Squirrel Assembly	Chr	Position (strand)	Source	Genome Browsers
Squirrel Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
HiC_Itri_2	NW_024405303	90,976,332 - 91,149,472 (+)	NCBI		HiC_Itri_2
SpeTri2.0 Ensembl	NW_004936469	50,470,256 - 50,594,357 (-)	Ensembl	SpeTri2.0	SpeTri2.0 Ensembl
SpeTri2.0	NW_004936469	50,463,473 - 50,641,419 (-)	NCBI	SpeTri2.0	SpeTri2.0		SpeTri2.0

JBrowse:

View Region in Genome Browser (JBrowse)

Model

Object Symbol	Species	Term	Qualifier	Evidence	With	Reference	Notes	Source	Original Reference(s)
Ptpn4	Squirrel	genetic disease		ISO	RGD:1316480	8554872	ClinVar Annotator: match by term: Inborn genetic diseases	ClinVar
Ptpn4	Squirrel	intellectual disability		ISO	RGD:1316480	8554872	ClinVar Annotator: match by term: Intellectual disability	ClinVar
Ptpn4	Squirrel	Neurodevelopmental Disorders		ISO	RGD:1316480	8554872	ClinVar Annotator: match by term: Neurodevelopmental disorder	ClinVar	PMID:25741868\|PMID:34527963

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)
Ptpn4	Squirrel	peptidyl-tyrosine phosphorylation	acts_upstream_of_or_within	ISO	RGD:1316481	9068941	PMID:33158444	MGI	PMID:33158444

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)
Ptpn4	Squirrel	cytoplasm	located_in	IEA	UniProtKB:P29074\|ensembl:ENSP00000263708	150520179		Ensembl	GO_REF:0000107
Ptpn4	Squirrel	cytoplasm	located_in	IEA	PANTHER:PTN000439733\|PANTHER:PTN001057591	150520179		TreeGrafter	GO_REF:0000118
Ptpn4	Squirrel	cytoplasm	located_in	IEA	UniProtKB-KW:KW-0963	150520179		UniProt	GO_REF:0000043
Ptpn4	Squirrel	cytoplasmic side of plasma membrane	located_in	IEA	UniProtKB:P29074\|ensembl:ENSP00000263708	150520179		Ensembl	GO_REF:0000107
Ptpn4	Squirrel	cytoplasmic side of plasma membrane	located_in	IEA	PANTHER:PTN000439733\|PANTHER:PTN001057591	150520179		TreeGrafter	GO_REF:0000118
Ptpn4	Squirrel	cytoskeleton	located_in	IEA	UniProtKB-SubCell:SL-0090	150520179		UniProt	GO_REF:0000044
Ptpn4	Squirrel	cytoskeleton	located_in	IEA	UniProtKB-KW:KW-0206	150520179		UniProt	GO_REF:0000043
Ptpn4	Squirrel	cytoskeleton	located_in	IEA	InterPro:IPR000299	150520179		InterPro	GO_REF:0000002
Ptpn4	Squirrel	membrane	located_in	IEA	UniProtKB:Q9WU22\|ensembl:ENSMUSP00000067614	150520179		Ensembl	GO_REF:0000107

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)
Ptpn4	Squirrel	cytoskeletal protein binding	enables	IEA	InterPro:IPR012151	150520179		InterPro	GO_REF:0000002
Ptpn4	Squirrel	glutamate receptor binding	enables	IEA	UniProtKB:Q9WU22\|ensembl:ENSMUSP00000067614	150520179		Ensembl	GO_REF:0000107
Ptpn4	Squirrel	hydrolase activity	enables	IEA	UniProtKB-KW:KW-0378	150520179		UniProt	GO_REF:0000043
Ptpn4	Squirrel	non-membrane spanning protein tyrosine phosphatase activity	enables	IEA	UniProtKB:Q9WU22\|ensembl:ENSMUSP00000067614	150520179		Ensembl	GO_REF:0000107
Ptpn4	Squirrel	phosphoprotein phosphatase activity	enables	IEA	UniProtKB-KW:KW-0904	150520179		UniProt	GO_REF:0000043
Ptpn4	Squirrel	protein binding	enables	ISO	UniProtKB:Q92993	9068941	PMID:16169070	IntAct	PMID:16169070
Ptpn4	Squirrel	protein binding	enables	ISO	UniProtKB:O75400-2\|UniProtKB:P06307\|UniProtKB:P13473-2\|UniProtKB:P55212	9068941	PMID:32814053	IntAct	PMID:32814053
Ptpn4	Squirrel	protein binding	enables	ISO	UniProtKB:P16333	9068941	PMID:17474147	IntAct	PMID:17474147
Ptpn4	Squirrel	protein binding	enables	ISO	UniProtKB:P53778	9068941	PMID:25158884	IntAct	PMID:25158884
Ptpn4	Squirrel	protein binding	enables	ISO	UniProtKB:P46108	9068941	PMID:21988832	IntAct	PMID:21988832
Ptpn4	Squirrel	protein binding	enables	ISO	UniProtKB:P24161	9068941	PMID:18614237	IntAct	PMID:18614237
Ptpn4	Squirrel	protein tyrosine phosphatase activity	enables	IEA	InterPro:IPR000242\|InterPro:IPR012151	150520179		InterPro	GO_REF:0000002
Ptpn4	Squirrel	protein tyrosine phosphatase activity	enables	IEA	EC:3.1.3.48	150520179		UniProt	GO_REF:0000003
Ptpn4	Squirrel	protein tyrosine phosphatase activity	enables	IEA	RHEA:10684	150520179		RHEA	GO_REF:0000116
Ptpn4	Squirrel	protein tyrosine phosphatase activity	enables	IEA	PANTHER:PTN000439733\|PANTHER:PTN001057591	150520179		TreeGrafter	GO_REF:0000118

PMID:22301074	PMID:30032202

Ptpn4
(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_024405303	90,976,332 - 91,149,472 (+)	NCBI		HiC_Itri_2
SpeTri2.0 Ensembl	NW_004936469	50,470,256 - 50,594,357 (-)	Ensembl	SpeTri2.0	SpeTri2.0 Ensembl
SpeTri2.0	NW_004936469	50,463,473 - 50,641,419 (-)	NCBI	SpeTri2.0	SpeTri2.0		SpeTri2.0

PTPN4
(Homo sapiens - human)

Human Assembly	Chr	Position (strand)	Source	Genome Browsers
Human Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCh38	2	119,759,922 - 119,984,899 (+)	NCBI	GRCh38	GRCh38	hg38	GRCh38
GRCh38.p14 Ensembl	2	119,759,922 - 119,984,899 (+)	Ensembl	GRCh38		hg38	GRCh38
GRCh37	2	120,517,498 - 120,742,475 (+)	NCBI	GRCh37	GRCh37	hg19	GRCh37
Build 36	2	120,233,677 - 120,451,507 (+)	NCBI	NCBI36	Build 36	hg18	NCBI36
Build 34	2	120,233,436 - 120,451,267	NCBI
Celera	2	113,842,942 - 114,061,903 (+)	NCBI		Celera
Cytogenetic Map	2	q14.2	NCBI
HuRef	2	112,841,586 - 113,066,878 (+)	NCBI		HuRef
CHM1_1	2	120,520,785 - 120,746,914 (+)	NCBI		CHM1_1
T2T-CHM13v2.0	2	120,193,967 - 120,419,641 (+)	NCBI		T2T-CHM13v2.0

Ptpn4
(Mus musculus - house mouse)

Mouse Assembly	Chr	Position (strand)	Source	Genome Browsers
Mouse Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCm39	1	119,580,197 - 119,765,281 (-)	NCBI	GRCm39	GRCm39	mm39
GRCm39 Ensembl	1	119,580,197 - 119,765,343 (-)	Ensembl		GRCm39 Ensembl
GRCm38	1	119,652,467 - 119,837,585 (-)	NCBI	GRCm38	GRCm38	mm10	GRCm38
GRCm38.p6 Ensembl	1	119,652,467 - 119,837,613 (-)	Ensembl	GRCm38		mm10	GRCm38
MGSCv37	1	121,554,669 - 121,733,648 (-)	NCBI	GRCm37	MGSCv37	mm9	NCBIm37
MGSCv36	1	121,487,291 - 121,630,021 (-)	NCBI		MGSCv36	mm8
Celera	1	122,316,986 - 122,496,376 (-)	NCBI		Celera
Cytogenetic Map	1	E2.3	NCBI
cM Map	1	52.39	NCBI

Ptpn4
(Rattus norvegicus - Norway rat)

Rat Assembly	Chr	Position (strand)	Source	Genome Browsers
Rat Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCr8	13	33,324,808 - 33,504,957 (-)	NCBI		GRCr8
mRatBN7.2	13	30,772,012 - 30,952,340 (-)	NCBI	mRatBN7.2	mRatBN7.2
mRatBN7.2 Ensembl	13	30,776,682 - 30,952,170 (-)	Ensembl		mRatBN7.2 Ensembl
UTH_Rnor_SHR_Utx	13	33,353,328 - 33,533,288 (-)	NCBI	Rnor_SHR	UTH_Rnor_SHR_Utx
UTH_Rnor_SHRSP_BbbUtx_1.0	13	34,641,168 - 34,821,122 (-)	NCBI	Rnor_SHRSP	UTH_Rnor_SHRSP_BbbUtx_1.0
UTH_Rnor_WKY_Bbb_1.0	13	31,915,258 - 32,095,209 (-)	NCBI	Rnor_WKY	UTH_Rnor_WKY_Bbb_1.0
Rnor_6.0	13	35,678,240 - 35,858,414 (-)	NCBI	Rnor6.0	Rnor_6.0	rn6	Rnor6.0
Rnor_6.0 Ensembl	13	35,678,240 - 35,858,390 (-)	Ensembl	Rnor6.0		rn6	Rnor6.0
Rnor_5.0	13	40,792,728 - 40,972,784 (-)	NCBI	Rnor5.0	Rnor_5.0	rn5	Rnor5.0
RGSC_v3.4	13	32,430,875 - 32,611,163 (-)	NCBI	RGSC3.4	RGSC_v3.4	rn4	RGSC3.4
RGSC_v3.1	13	32,475,262 - 32,484,043 (-)	NCBI
Celera	13	30,666,333 - 30,846,454 (-)	NCBI		Celera
Cytogenetic Map	13	q11	NCBI

Ptpn4
(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_004955459	9,803,421 - 9,981,392 (-)	Ensembl	ChiLan1.0
ChiLan1.0	NW_004955459	9,803,421 - 9,981,392 (-)	NCBI	ChiLan1.0	ChiLan1.0

PTPN4
(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	13	21,735,494 - 21,982,547 (+)	NCBI		NHGRI_mPanPan1-v2
NHGRI_mPanPan1	2B	21,750,466 - 21,998,093 (+)	NCBI		NHGRI_mPanPan1
Mhudiblu_PPA_v0	2B	6,694,192 - 6,917,265 (+)	NCBI	Mhudiblu_PPA_v0	Mhudiblu_PPA_v0	panPan3
PanPan1.1	2B	120,320,591 - 120,492,423 (+)	NCBI	panpan1.1	PanPan1.1	panPan2
PanPan1.1 Ensembl	2B	120,320,610 - 120,485,676 (+)	Ensembl	panpan1.1		panPan2

PTPN4
(Canis lupus familiaris - dog)

Dog Assembly	Chr	Position (strand)	Source	Genome Browsers
Dog Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
CanFam3.1	19	30,079,221 - 30,285,126 (-)	NCBI	CanFam3.1	CanFam3.1	canFam3	CanFam3.1
CanFam3.1 Ensembl	19	30,086,832 - 30,241,064 (-)	Ensembl	CanFam3.1		canFam3	CanFam3.1
Dog10K_Boxer_Tasha	19	30,335,314 - 30,541,476 (-)	NCBI		Dog10K_Boxer_Tasha
ROS_Cfam_1.0	19	31,454,630 - 31,662,707 (-)	NCBI		ROS_Cfam_1.0
ROS_Cfam_1.0 Ensembl	19	31,461,882 - 31,663,169 (-)	Ensembl		ROS_Cfam_1.0 Ensembl
UMICH_Zoey_3.1	19	30,140,713 - 30,349,797 (-)	NCBI		UMICH_Zoey_3.1
UNSW_CanFamBas_1.0	19	30,310,819 - 30,517,448 (-)	NCBI		UNSW_CanFamBas_1.0
UU_Cfam_GSD_1.0	19	31,493,639 - 31,702,636 (-)	NCBI		UU_Cfam_GSD_1.0

PTPN4
(Sus scrofa - pig)

Pig Assembly	Chr	Position (strand)	Source	Genome Browsers
Pig Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
Sscrofa11.1 Ensembl	15	31,307,447 - 31,502,923 (-)	Ensembl	Sscrofa11.1		susScr11	Sscrofa11.1
Sscrofa11.1	15	31,305,394 - 31,502,978 (-)	NCBI	Sscrofa11.1	Sscrofa11.1	susScr11	Sscrofa11.1
Sscrofa10.2	15	36,235,035 - 36,459,764 (+)	NCBI	Sscrofa10.2	Sscrofa10.2	susScr3

PTPN4
(Chlorocebus sabaeus - green monkey)

Green Monkey Assembly	Chr	Position (strand)	Source	Genome Browsers
Green Monkey Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
ChlSab1.1	10	10,325,263 - 10,554,381 (-)	NCBI	ChlSab1.1	ChlSab1.1	chlSab2
ChlSab1.1 Ensembl	10	10,328,766 - 10,554,258 (-)	Ensembl	ChlSab1.1	ChlSab1.1 Ensembl	chlSab2
Vero_WHO_p1.0	NW_023666061	12,136,097 - 12,365,467 (+)	NCBI	Vero_WHO_p1.0	Vero_WHO_p1.0

Ptpn4
(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_004624732	25,108,192 - 25,278,948 (-)	Ensembl	HetGla_female_1.0	HetGla_female_1.0 Ensembl	hetGla2
HetGla 1.0	NW_004624732	25,099,327 - 25,301,610 (-)	NCBI	HetGla_female_1.0	HetGla 1.0	hetGla2

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


RefSeq Transcripts	XM_013364379	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_013364407	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_021722019	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_021722024	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_021722028	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_021722031	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_021722035	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_021722037	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_021722038	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_040294120	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_040294121	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_040294122	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_040294123	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_040294124	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_040294125	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_040294126	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_040294127	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_040294129	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_040294130	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
GenBank Nucleotide	JAESOR010000362	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles

Ensembl Acc Id:

ENSSTOT00000015984 ⟹ ENSSTOP00000014303

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
SpeTri2.0 Ensembl	NW_004936469	50,470,256 - 50,594,357 (-)	Ensembl

Ensembl Acc Id:

ENSSTOT00000031870 ⟹ ENSSTOP00000027325

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
SpeTri2.0 Ensembl	NW_004936469	50,556,839 - 50,594,338 (-)	Ensembl

Ensembl Acc Id:

ENSSTOT00000043219 ⟹ ENSSTOP00000032054

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
SpeTri2.0 Ensembl	NW_004936469	50,561,327 - 50,594,338 (-)	Ensembl

RefSeq Acc Id:

XM_021722024 ⟹ XP_021577699

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	90,977,125 - 91,147,250 (+)	NCBI
SpeTri2.0	NW_004936469	50,463,473 - 50,615,515 (-)	NCBI

Sequence:

show sequence

TCGAACCCGGGCTGTACTCATGCCAGATCTTGTGTGGACAGTAATGACCTCACGTTTCCGATTGCCTGCTGGCAGAACCTACAATGTACGAGCATCAGAGTTGGCCCGAGACAGACAGAATACAGAGG
TGGTTTGCAACATCCTTCTTCTGGATAACACTGTACAAGCTTTCAAAGTTAATAAAAATGAGCTGGGACAAGTTTTGTTGGATATAGTCTTCAAGCATCTTGATTTGACTGAACGAGACTATTTTGGT
TTACAGTTGGCTGATGATTCCACAGATAACCCAAGGTGGCTGGATCCAAACAAACCAATAAGGAAGCAGCTAAAGAGAGGATCTCCTTACAGTTTGAACTTTAGAGTCAAATTTTTTGTAAGTGACCC
CAACAAGTTACAAGAAGAGTATACAAGGTACCAATATTTTTTGCAAATCAAACAAGACATTCTTACTGGAAGATTACCCTGTCCTTATAATACTGCTGCCCTTTTAGCTTCATTTGCCATTCAGTCTG
AACTTGGAGACTACAGTCAGTCAGAAAACTTGCCAGGCTACCTCTCAGATTATTCTTTCATTCCTAATCAACCTCAAGATTTTGAAAAAGAAATTGCAAAATTACATCACCATCATATGGGCTTATCT
CCTGCAGAAGCAGAATTTAATTACCTGAACACAGCACGTACCTTAGAACTCTATGGAGTTGAATTCCACTATGCAAGGGATCAAAGTAACAATGAAATTATGATTGGTGTGATGTCAGGAGGAATTCT
GATTTATAAGAACCGGGTACGAATGAATACCTTTCCATGGTTGAAGATTGTGAAGATTTCTTTTAAGTGCAAACAGTTTTTTATTCAACTTAGAAAGGAATTGCATGAATCTAGAGAAACACTACTGG
GATTTAATATGGTGAATTACCGAGCTTGTAAGAATTTGTGGAAAGCATGTGTAGAACATCACACATTCTTCCGTTTGGACAGACCACTTCCACCTCAAAAGAATTTTTTTGCACATTATTTTACATTA
GGTTCAAAATTCCGGTACTGTGGGAGAACTGAAGTCCAGTCAGTTCAGTATGGCAAAGAAAAGGCAAATAAAGACAGGGTATTTGCAAGATCCCCAAGTAAGCCTTTGGCACGGAAATTAATGGATTG
GGAAGTAGTAAGCAGAAATTCAATATCTGATGACAGGTTAGAAACACAAAGCCTTCCATCTCGATCTCCACCTGGAACTCCTAATCATCGAAATTCTGCATTCACACAAGAGGGAACCCGATTACGAC
CATCTTCAGTTGGTCATTTGGTAGACCATGTGGTTCACACTTCACCAAGTGAAGATTTTGTGGGTCAGAGATCTCCATCATCTACACAAGCTAATAGCATCATTCTGGAATCATCACCATCACAAGAA
ACACCTGAAGATGGGCAGCCCCCAGCTTTACCACCTAAACAATCTAAGAAAAATAGTTGGAACCAAATTCAATACTCACATTCTCAGCAAGACCTGGAAAATCATACTAATGAAGCATTTGATATACC
ATCTTCCCCTGAAAAATCTACTCCTAATGGTGGTATTCCACATGATAATCTTGTTCTAATAAGAATGAAACCTGATGAAAATGGAAGGTTTGGATTCAATGTAAAGGGAGGATATGATCAGAAGATGC
CTGTAATTGTGTCCCGAGTAGCACCAGGAACACCTGCTGACCTCTGTGTCCCTCGATTGAATGAAGGGGACCAAGTTGTACTAATTAATGGTCGGGACATTACAGAACATACCCATGATCAAGTCGTC
CTATTTATTAAAGCTAGCTGTGAAAGACATTCTGGGGAACTCGTGCTTCTAGTTCGACCCAATGCTGTGTATGATGTAGTGGAAGAAAAACTAGAAAATGAACCAGACTTCCAGTACATTCCTGAGAA
AGCCCCACTAGATAGTGTCCATCAAGATGACCATTCCCTGCGGGAGTCAATGGTCCAGCTAGCTGAGGGGCTTATTACTGGAACGGTCCTGACACAATTTGATCAACTGTATCGTAAAAAACCTGGAA
TGACAATGTCTTGTGCCAAATTACCTCAGAATATTTCCAAAAATAGATACAGAGACATTTCGCCTTATGATGCTACACGGGTCATTTTAAAAGGTAATGAAGACTACATCAATGCAAACTATATAAAT
ATGGAAATTCCTTCTTCAAGCATTATCAATCAGTACATTGCTTGTCAAGGGCCATTACCACACACTTGTGCAGATTTTTGGCAAATGACTTGGGAACAAGGCTCCTCCATGGTTGTAATGTTGACCAC
ACAAGTTGAACGTGGCAGAGTTAAATGTCATCAGTATTGGCCAGAACCCACAGGAAGTTCGTCCTATGGATGCTATCAAGTTACCTGCCATTCAGAAGAAGGAAATGCTGCCTATATCTTCAGGAATA
TGACACTGTTCAATCAAGAGAAAAATGAGAGTCGTCAACTCACTCAGATCCAGTACATAGCCTGGCCTGACCATGGAGTTCCTGATGATTCAAGTGACTTTCTGGATTTTGTTTGTCATGTACGAAAT
AAGAGGGCTGGCAAAGAAGAACCTATTGTTGTTCATTGCAGTGCTGGAATTGGAAGAACTGGGGTTCTTATTACTATGGAAACAGCCATGTGTCTCATTGAATGCAATCAGCCAGTTTATCCACTAGA
TATTGTAAGAACAATGAGAGATCAACGAGCCATGATGATCCAAACACCTAGTCAATACAGATTTGTATGTGAAGCTATTTTGAAGGTTTATGAAGAAGGCTTTATTAAACCCTTAACAACATCGTCAA
ATAAATAAGAAAAGATCTGAAATACATGTTGGAAAACTGCTATTCGTTATATTTCATTATATTCACTGTGCCATGACACTGCTTGCAGGAAATGGCATCTCACAAAAAAATGAAGAACTACAAAAAAA
AAAGAACTTTGAAAACTTTAGCACTGTTGCACTTTATGTTTTAAAAATAAGTCAACCCTTCAGAATCTCTAACTCATGTGTTGGAAGACTATTTCATGCTTTGCTCCGAACAAATAGTGAATAACTGA
GTATGTTCAGGGTAATTTATGAAAATTTGTGGTGGTGCCATGCAGTCCCCTTCTGGTAGAATTGCCACAAGCGAGGCTCAGAATCCTCATCATCTTTGTTGTACATCTGTATCTTGAAAGCAAAAAGA
AGTAAATATCAGGAGTCAGCTCTGGCTTTTTTTTCCAGTGGATCATGTACTTACTAAACTGATTACCAGATTTTATTTTTAAGATTTTAGCAATATCATTCTCAATATTAGCCAATACACTGCCTATG
GATGCAGCACATCTTTCCCTACACGCCCCCTCTAGAGACCTGCTGTTCCGAAGAAGAAAGGTGGAATTTGCTATTCCCAGGAAATGCTGCACATTGTCCATTTACCAGCATCTTATAAAAAGTATAGA
TATGAATCTACAAATTTTCTTGAATTTAATAATGTAATTATATTTATCATAAGGTTGGCTTATTCCAAATCATGTGATTTCATATACTTGATGTAAAGGAATGCATGCATTGTGTCTTAACCCCTTAA
GTGCCTTGAGACATCTTTATATGTCTAATGAAAGGCACTCATTTGACCCCACTAGGAGGTATGTAAGTATATTGTACATTCTTACATTTTTATGCATTTTGAATAAGTTCACATTTTAAAAACAGGCT
TCTTGTATTGAGAGTTATGCAGTCAAAAAAGGGTAAGGAAATTCTATTTCTTACTCAATACTTGTATTTTGCCATAAGAAGCAAAAATACTTCGTGTTCTACTGAGTGCACGCTCTGCTGCTACAGAA
TTGTTCAAAATATGCACATTCCTTTACTGCAGGACAGGGGTTACAATTAAGCAGCTCAACTTAAAAAGATGCTTTATTATTCAAATTTCATATTTATTTTATCCCTGACTTTAGAAGTGGCATCTGAT
AAAATACTGGGACTCTAAGCTATAGAGCAATTAATTAATTTTGATTCATTCCTATCCATAACTAAAATATTTCTCCTTAGCATTCATTTTAGTTAATATGAAGCCTTTTTCGCACTGGTCTTTTGGTT
GGGATTCTTCAAGTGAGAAATTAAATATTATTGAGTCTAAATATAACCCTTCCTTAACTAAAATGAGGGTTTTCTTGTCACTTTGTATACAATTAAATTATTTCAGTTTATATATACTTATTAAATTA
TAAGCATGTTATATAAGGAGTCTTTTGATTATCTAATCTGATTGAGGATCTGATTCCCATTAAGGATATATCTGTTAACCTCTTCAGGTGTTTTGGATTTCAAGTCTACAGAGATAGAACTTTAATAT
TGCCCAATTTAAGTGAAAATTTGCCTGCCTATTTAAATATTATTTTACATAAATATTTTATATGGATATGGTTAAAGTAGATTCATTTACTAGTGGTTTCTGAATATTTATAGTTTTGATAAAGTTTA
GAGTCTAATGGTTGGTATTTTGGAATGCCATTTAGTAAGAAGGGAAAAATGTACATTTAAAAATCTTTAGTAAAATCTAAATGATGTCATTTCACATTCAAAAATCCATCATAATACATTTCAGAAAG
TTAAGCTCCTAAACATTAATAGCCAAGATACCAAATAAATTATATTAAAATACTTCTAAGTCTTTTTTTAAAGAGAGAAGTAAACATAATCTTTATGTTCTTATCTATTTCCTGATTTCAGTCAAGAC
AGTATAAAATAGTAAATGAACTATTGACTTATTTGAACATTCCATTCTGTACCAACAGATAAATGTAAATTAGGCTGCTGTATGATATGACAAGTTGAAAAATGAAAAAGGAAAGACAAGTTGGGGAT
CTACATATGAAATAACTGTTTTTGCACTTATTTTTTGTGTGTATTAAAAAAGTCTCTGCTAACTGGACAGAAAATGACAGTCACAGTCAAAAAGATAACAGTTGTGTAGACATAAACAGACAAATGTC
TTGCTTGGCATGTTCTTTAACTACGGCTTTGTTTACATTTCCCAGGTTAACTAATTGTTGGCAATGAGCACTGCTGCCTTTTTCGATCATTAATGCCTGTCTTGAAATGCCAGTGTGTTAGAGGTGTA
GAATTACATTTAAATTTATCATGTATGCATTTTTCATCTGGGAGCTACGCTTTGTCAGTGTTTGTATGTACAAAAGGATCCTTTGTAAAAATATATTAGGATATTACTTAAATTATCCTTCACAGCTT
CTAAAATTACTACTCTAATTAAGCTTCCCTGTTTACCTAACAGCAAAGTCTTTATCCATTACACATAAGAATTTTTTAACCTGTTTCAATCTAAATAGGTTTCTAGAAATAATGGTGGCTCTTGTATA
CCAAGTTGAGTAGTTCTAGACTCCATCCATATCAATGTAATGTTGTGTGGTAAATTTCACGTTTCTTGTGTCTAAGCTGCTCTCCCAGTCCTGGTCACCCCTGCCTCCATACCATTATACACTCAAGA
AAGAATGCTGACTTTTATTCTGACAAGTGGAAATCAGTATTGGTGATTCAAGGAGCTTTTGTAAATGCAAGTATTAGTAGAGAACTTCCCTCTCCGATTTCAAATGTTTTTTTCTGTGTTCATTTCAA
GTTGTTTTTACTTTTTATTTGTATCTTATTAGCATCTGATTTGTGTCGGCATGGTATAGACAGGCTGAAGAATATTTTGGAATAATCTTTGCATTCACAAGAAGAATTGGTTGGATTTGTCAAACTGA
TACAACCATCCAGAATTGAGGCAGAGTAAACATCTCAGAAAAATTTCCTTTGTCTGGCCTATTAGGACAAATAGAAGGAAGACAAATGGTTGATCATTTTGATTTAAGAATAGAGAGAACATTTATTA
TATGAAAACTGACTTCAAATGCACAAAGTTACATTAAGGCATTAAGATGATTGCTTGAAAGTTTCAGGTACAAATGTATGTGTGTGTGTATATATATGTGTATATATATATATATGTGTGTGTGTATA
TATATATTCATAGAGATACTTTAGTGCATTTGTTTACACATTTCATTAAAGTTACTGCCCACAAACAGGAACAACAGACTGTTTAAAGTACAAGGTTGTTGAGCATCAGTTAGCAGGTCTGATCAGGT
CTAATCAGGAATTTGAGAAAAAATCTTGTCTCCTGTCTCAAGTACAACTTGAGAGCAGAAAGGAAATGGAAAGATTTTTTTCCCCCAATCTCCACTTCCCTTATTATAGCAAGGAAACAGAGACCCAG
CAACAGTAATTGATTTAGCAAAGTCTCATTTTGTACAATCTGTTTCCTAATTGTCAATATGGTGTTCTCTATGTTATACTAGAACTTCAGTAATTGTCACCTATGTGAGTATCATAAATTCTTGTGAA
TTTTAGTCTGTTTCAACTTGAGAAGCATACTCAATGTTTTTGCTTCATAACTATGACAACCTTAGGAGATGTCACTTAAGTTAGAAAATAAGTAGGCTGCAGTAGTGATCCTAATTAGGACCCTGACT
CACTCATGCTTCCCTGTCAGAGAACATAAGCTTTTGTGAAGTATTGAGGCTGATACAAATGCAATATAAAAGCATTCTGGACTGCAAGTAGAAGACTAATTTTTAAAAACACTTAAAACACAGAACTA
AGATTTAAATGTATGTCCATTTATAGTGAAATAATTTATCTTCATAATGTGAACATGTAATAGAAATAAAAGCATTATTTGTCTTATAATCTGATCATGAAGGGAGAAGGGAATACGAATTTATAACA
ATGTGCTATTTAATATTTGTATTTTGAAAATATTTAAAATATTCTATTGGTAAGGTTGCCAAAGTAGTTTTGAATTCATAAAAGTTATAATAATGTGGGATATGTTTACAGGTTCTTTGATTTGGTAG
TAATTTTCATAGTTCAGATTAATTTTCATTTAAAGTCATTTGTAGTAAGTACATTATGGTAAATGTTTGTATGAATAAACATCTTGATATGACAAGATGTACATGAGTGATACCATAGCCTGCTTTTA
TATAAGCTGCCACATAAACAAACTGAGTACTTCATATGAAGATTGTTTATTTCCCACATTTGCTTCAGTTGTACAACCACAGTTTCTGGAACTATTTGTTGTGGTGCTTCTTCCAAATGAAATAGCTG
TTTTTACAATCCACTAGGTTAATTTAATCAAATATTGGATTTACCGATCTGTTGGCAAAGATTTATTAGTGTCTCAGTGTGGTCACAATACAAATTGTAGCAACTATTTTATAAAAGTCTTAAACATA
TAGATAAAAGGAATTTTCTTAATCCTAAAGCATTTTGAGGGCTGCTTGCTGATCCATATTTCATCATTTTGAAGAGCCCAAGAAATGAATTCCTAAATTGTATGTTTGGGGTTCAGTTTTCTTTACAA
TGCCTACAACAGTTATCAACATTATTATATGCAGTCTTCAACTATTTTTTAGTAGCAATTATTATTATAAGCCTTTTGATGTTGTTAGAAATAGCAATCCCTATTTCTGCCCAAAATTAGACACTTTT
ATTTCACAATATTGGTGAATTTGTTTTAGGTAGACAACAAAATACTACTTGTTAAATTTGCTGCTATTTATTTTTATGTTTTTCTACTCTAGTATATTTTTGATTTCTGAAATTTAAGTTAAAATTGT
TTTTATTTTAGTCATCCAAGCTAAGTGGTCAGCTATAATACTATCTGCTTGGGTGTAATCTGTCTGCATTAGTTAGACGTAGTTCAGTGCATAAATAAACAAATTTTTCTTTTAATTTGCAAAGTGAA
AGTTACTAGCAATCTTGCAAGTTAAAGCTACAATTTTAGGGAAGAGTTCAAACATTTAATTTCCTGAAACCTTTTAAAATTTCCAGTACAAGAATGGAAATGTTTGAAAGCCTTCTTTAGCTCACAAA
AGTTTTAGTTAAACACTGTAACAGAGTTTTCCTATCTGTTGTTGTGTAAATGATATAGAAAATATTTTTCTATGAAAAAAAGTTGAAAATGTTAACTTCTTTAATTGTTAAAAAGGGATAAAATGATA
TTTGTATGTCTTTCATGCTGTAAAGAAAATGAATGTATCTTTCAAATGTTATTAGAATTATGACGATTCTAAGGATACTCTTATTTTTTAACAAAAAAAGAAAGCCTGCAAAAGGATTGGAAAGAAGA
AAGGGAGGAGTATTACACATTATAAAAATGCAATTTTAGATGAAAAGTAATTTTCATTATAAACAAGAGCGATTGTTGAAGCATATTACAAACATGATGTGCATTCTTTTTTATATTGCTTTGTTTTG
GCTCTAGAAATTTCCAGAAAATTCGCACATACGCCTTTTAAGTGTAAAATATTCTAATTCTAGGCTTCTGGGGTGAATTTTTGTGTGAGGTTAAAAATTCTGGATGAATTTTTGTGTGAGGTTAAACA
TGCTGCTGCATGTGTCTGCCACGGAGAAAAGTTCCCAAGCTTTGTTACTGGGACACCATAAGTGAGGACATCATTGTAAGAATGTGATTTAGTTAAAGCTTGAAAACCTTGCCTGAAATCCACTACAG
TTAATTATGTGTAAAGGTCCCTGACCCAGTAGGTGGTTCTGCCTTTTTATTGTCAAAGTCACAGACCATGGGGTCCAACTCTGACTTGAAGCAGTGGTGTCTTATATGTTAACGATTATTAATGCTGA
TGAACAACAACAAAAAAAAAAACACAACTTTATTTTAAGCCAACTACTACAGGCATGATTTGTTCAGCAGCAGCTTTAAAAAGTAGTATTTACTGTCACTCATTAAACTTGATTCAGTTGGGGTTGGA
AGCAGTGACGAAGGCCTGTAATCCCAGCACTCAGGAGGCTGAGGCAGGAGCATTCATATTCAAGACCAGCCAAGGCAACTTAGTGAAACCTGTCTCAAAATAAAAAACGACTAGGGATGTCACTCTGG
TAGAGCACTCCTGTGTTCAGTCCCCAGTACTGGCAGGAGAAGGACTTGATTCAGTTAGAGTTTCATTCTCTTAGCTTCCTGCTTTTTGTCCTCCACATTTAAAAAAAAATCACTCACCTTCCAGGCAC
ACGGGTGCACGCCTATAATCCCAGTGACTTGGAAGGCCGAGGCAGGAGATTTGAAAGTTCAGAGCCAGCCAAAGTACTTGGAGAAGCCCATAGCAACTTAGACCCTGTCTCAAAAATAAAAGGAGCTG
GGGATGTGGCTCAGTAGTTAAGTGCACCTGGGTTCAAGCCCCAGTACTCCGGCCCCCACTCCAAAAATCACTATGAAATAAATACTCTGAACAACTAAAAGGTGTTACCTTTATTACCTTTTGCAACA
GTTATAAGAAATTAGTATTAGACTCCCTCAACCCTGAGAGGTTCCAAGATTCAACACTATCACTTGCGCTAACCTTAAATGCCGTGTTGCTTAATAAAATTATCAGGAAGCAATTGAGGAAAAGATTG
CCCTGCTCAACCCTTAAACCAAATAGTTTCTGATTTATGGTGTCCCCCAAACCATTATTATCAAAATTGAGCCCATTTTACCTTTTAATAAAATAAGCCTTTCTAGTTTCTACTCTTGAATTTTAGTG
TTCCAATTATTTGCATTCCTGGGCAAGAAAATTTCAACCTCATTCTGTGATTCTCTGGCACCTGTCTTTTCCAATCCTTCAATGAGTTGACAAGATTATTCATTCTTGTATTCTGTAGAATATGTCAC
ATTTCAATTATCAAATTGATTTCTTGAATTTCAAATAGCACTTTATTTCATGCTTACTACTGACTTAATTTATACATCTAAAGATATAATCTACGAGTTTTGTAAATACAGGAAAAAAAATGATTAGT
ATTAGAGCTCTTTAGATTGGACCCAAGTTTAAATGCTTTACAATGATCTCTTGATAGCTTATTTGATATTTAAGAGGTAATTTGTGTGATTTTAGGTTTGCCACCTTTCTGTAATTTATACAGTACAA
TAAAGGCTACACCATTGACTGTT

hide sequence

RefSeq Acc Id:

XM_021722038 ⟹ XP_021577713

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	90,976,332 - 91,149,472 (+)	NCBI
SpeTri2.0	NW_004936469	50,463,473 - 50,641,419 (-)	NCBI

Sequence:

show sequence

CCTGCGTGTCCCTCTACTCTGGGGCTGGTGTAATCTCTATTCCCTGCGCTAGCAGGGAAGGGGC
GTGGCCTCACCTCTCGCGAGACCGCCTCCTGTTGCCTTTGCCGCTGCTCCTGGCAGCTGACTGGTCGCGCTTGCGCAGCCGCCATGTTCGGTTGCTATGCTGCGGCCTAGGAGACCGGTTGTGCTTGA
GGGAGGAGGAGGAGACGGAGACGGAGGAGGAGGAGGAGGAAGAAGAGGAGGCGGAGAAGGAGGGGGGTGACTGAGCGCCTCTTGCACTCTCACACACAAACCCTGCCCAGGATTGCCCGCCCGCTCCA
GGCGTGCTGCGTGCTTTTCCGCTCCTCATCCCCCCCACCCCCCCACATTGTTCTCTCAGGACTCCTGGGTCCCCAGGGGCTGAAACTGGGCCTGAGCTGGGGCGGGAAGAGATTTGGCTTTGGCCGGA
GGGTCAGAGATCTGGGGCCAGGCCCCCCGCCCCAGATCCCCTCCCCCACGTCGCTTTTTGGGGGGTGTGGATTATCTCATCCCCGCAGGGAGGTGGGAGAGGGCGCCGGCTGCCCGCCTCCCTGCCAC
TTCCCGGGCTGCGCTGGCCCGCGGCAGCCCCGCAGCATGAGGTGGTGCTGGCGGCTCCCGGCCGTGGCACGGCCGCTGCGGCGGCTGCTGCTAGGGGAGCGCTGAGGGAGCCCCCGGAGCGGCGCGGC
GCGGCAGACGCGCTTCTCCCGGGTGCGTCCGGGCCTCGAGGTTTTTTTTTTCTAAAGCCGAGAGGACGCGGTGTGATACGAAGATCTTGTGTGGACAGTAATGACCTCACGTTTCCGATTGCCTGCTG
GCAGAACCTACAATGTACGAGCATCAGAGTTGGCCCGAGACAGACAGAATACAGAGGTGGTTTGCAACATCCTTCTTCTGGATAACACTGTACAAGCTTTCAAAGTTAATAAAAATGAGCTGGGACAA
GTTTTGTTGGATATAGTCTTCAAGCATCTTGATTTGACTGAACGAGACTATTTTGGTTTACAGTTGGCTGATGATTCCACAGATAACCCAAGGTGGCTGGATCCAAACAAACCAATAAGGAAGCAGCT
AAAGAGAGGATCTCCTTACAGTTTGAACTTTAGAGTCAAATTTTTTGTAAGTGACCCCAACAAGTTACAAGAAGAGTATACAAGGTACCAATATTTTTTGCAAATCAAACAAGACATTCTTACTGGAA
GATTACCCTGTCCTTATAATACTGCTGCCCTTTTAGCTTCATTTGCCATTCAGTCTGAACTTGGAGACTACAGTCAGTCAGAAAACTTGCCAGGCTACCTCTCAGATTATTCTTTCATTCCTAATCAA
CCTCAAGATTTTGAAAAAGAAATTGCAAAATTACATCACCATCATATGGGCTTATCTCCTGCAGAAGCAGAATTTAATTACCTGAACACAGCACGTACCTTAGAACTCTATGGAGTTGAATTCCACTA
TGCAAGGGATCAAAGTAACAATGAAATTATGATTGGTGTGATGTCAGGAGGAATTCTGATTTATAAGAACCGGGTACGAATGAATACCTTTCCATGGTTGAAGATTGTGAAGATTTCTTTTAAGTGCA
AACAGTTTTTTATTCAACTTAGAAAGGAATTGCATGAATCTAGAGAAACACTACTGGGATTTAATATGGTGAATTACCGAGCTTGTAAGAATTTGTGGAAAGCATGTGTAGAACATCACACATTCTTC
CGTTTGGACAGACCACTTCCACCTCAAAAGAATTTTTTTGCACATTATTTTACATTAGGTTCAAAATTCCGGTACTGTGGGAGAACTGAAGTCCAGTCAGTTCAGTATGGCAAAGAAAAGGCAAATAA
AGACAGGGTATTTGCAAGATCCCCAAGTAAGCCTTTGGCACGGAAATTAATGGATTGGGAAGTAGTAAGCAGAAATTCAATATCTGATGACAGGTTAGAAACACAAAGCCTTCCATCTCGATCTCCAC
CTGGAACTCCTAATCATCGAAATTCTGCATTCACACAAGAGGGAACCCGATTACGACCATCTTCAGTTGGTCATTTGGTAGACCATGTGGTTCACACTTCACCAAGTGAAGATTTTGTGGGTCAGAGA
TCTCCATCATCTACACAAGCTAATAGCATCATTCTGGAATCATCACCATCACAAGAAACACCTGAAGATGGGCAGCCCCCAGCTTTACCACCTAAACAATCTAAGAAAAATAGTTGGAACCAAATTCA
ATACTCACATTCTCAGCAAGACCTGGAAAATCATACTAATGAAGCATTTGATATACCATCTTCCCCTGAAAAATCTACTCCTAATGGTGGTATTCCACATGATAATCTTGTTCTAATAAGAATGAAAC
CTGATGAAAATGGAAGGTTTGGATTCAATGTAAAGGGAGGATATGATCAGAAGATGCCTGTAATTGTGTCCCGAGTAGCACCAGGAACACCTGCTGACCTCTGTGTCCCTCGATTGAATGAAGGGGAC
CAAGTTGTACTAATTAATGGTCGGGACATTACAGAACATACCCATGATCAAGTCGTCCTATTTATTAAAGCTAGCTGTGAAAGACATTCTGGGGAACTCGTGCTTCTAGTTCGACCCAATGCTGTGTA
TGATGTAGTGGAAGAAAAACTAGAAAATGAACCAGACTTCCAGTACATTCCTGAGAAAGCCCCACTAGATAGTGTCCATCAAGATGACCATTCCCTGCGGGAGTCAATGGTCCAGCTAGCTGAGGGGC
TTATTACTGGAACGGTCCTGACACAATTTGATCAACTGTATCGTAAAAAACCTGGAATGACAATGTCTTGTGCCAAATTACCTCAGAATATTTCCAAAAATAGATACAGAGACATTTCGCCTTATGAT
GCTACACGGGTCATTTTAAAAGGTAATGAAGACTACATCAATGCAAACTATATAAATATGGAAATTCCTTCTTCAAGCATTATCAATCAGTACATTGCTTGTCAAGGGCCATTACCACACACTTGTGC
AGATTTTTGGCAAATGACTTGGGAACAAGGCTCCTCCATGGTTGTAATGTTGACCACACAAGTTGAACGTGGCAGAGTTAAATGTCATCAGTATTGGCCAGAACCCACAGGAAGTTCGTCCTATGGAT
GCTATCAAGTTACCTGCCATTCAGAAGAAGGAAATGCTGCCTATATCTTCAGGAATATGACACTGTTCAATCAAGAGAAAAATGAGAGTCGTCAACTCACTCAGATCCAGTACATAGCCTGGCCTGAC
CATGGAGTTCCTGATGATTCAAGTGACTTTCTGGATTTTGTTTGTCATGTACGAAATAAGAGGGCTGGCAAAGAAGAACCTATTGTTGTTCATTGCAGTGCTGGAATTGGAAGAACTGGGGTTCTTAT
TACTATGGAAACAGCCATGTGTCTCATTGAATGCAATCAGCCAGTTTATCCACTAGATATTGTAAGAACAATGAGAGATCAACGAGCCATGATGATCCAAACACCTAGTCAATACAGATTTGTATGTG
AAGCTATTTTGAAGGTTTATGAAGAAGGCTTTATTAAACCCTTAACAACATCGTCAAATAAATAAGAAAAGATCTGAAATACATGTTGGAAAACTGCTATTCGTTATATTTCATTATATTCACTGTGC
CATGACACTGCTTGCAGGAAATGGCATCTCACAAAAAAATGAAGAACTACAAAAAAAAAAGAACTTTGAAAACTTTAGCACTGTTGCACTTTATGTTTTAAAAATAAGTCAACCCTTCAGAATCTCTA
ACTCATGTGTTGGAAGACTATTTCATGCTTTGCTCCGAACAAATAGTGAATAACTGAGTATGTTCAGGGTAATTTATGAAAATTTGTGGTGGTGCCATGCAGTCCCCTTCTGGTAGAATTGCCACAAG
CGAGGCTCAGAATCCTCATCATCTTTGTTGTACATCTGTATCTTGAAAGCAAAAAGAAGTAAATATCAGGAGTCAGCTCTGGCTTTTTTTTCCAGTGGATCATGTACTTACTAAACTGATTACCAGAT
TTTATTTTTAAGATTTTAGCAATATCATTCTCAATATTAGCCAATACACTGCCTATGGATGCAGCACATCTTTCCCTACACGCCCCCTCTAGAGACCTGCTGTTCCGAAGAAGAAAGGTGGAATTTGC
TATTCCCAGGAAATGCTGCACATTGTCCATTTACCAGCATCTTATAAAAAGTATAGATATGAATCTACAAATTTTCTTGAATTTAATAATGTAATTATATTTATCATAAGGTTGGCTTATTCCAAATC
ATGTGATTTCATATACTTGATGTAAAGGAATGCATGCATTGTGTCTTAACCCCTTAAGTGCCTTGAGACATCTTTATATGTCTAATGAAAGGCACTCATTTGACCCCACTAGGAGGTATGTAAGTATA
TTGTACATTCTTACATTTTTATGCATTTTGAATAAGTTCACATTTTAAAAACAGGCTTCTTGTATTGAGAGTTATGCAGTCAAAAAAGGGTAAGGAAATTCTATTTCTTACTCAATACTTGTATTTTG
CCATAAGAAGCAAAAATACTTCGTGTTCTACTGAGTGCACGCTCTGCTGCTACAGAATTGTTCAAAATATGCACATTCCTTTACTGCAGGACAGGGGTTACAATTAAGCAGCTCAACTTAAAAAGATG
CTTTATTATTCAAATTTCATATTTATTTTATCCCTGACTTTAGAAGTGGCATCTGATAAAATACTGGGACTCTAAGCTATAGAGCAATTAATTAATTTTGATTCATTCCTATCCATAACTAAAATATT
TCTCCTTAGCATTCATTTTAGTTAATATGAAGCCTTTTTCGCACTGGTCTTTTGGTTGGGATTCTTCAAGTGAGAAATTAAATATTATTGAGTCTAAATATAACCCTTCCTTAACTAAAATGAGGGTT
TTCTTGTCACTTTGTATACAATTAAATTATTTCAGTTTATATATACTTATTAAATTATAAGCATGTTATATAAGGAGTCTTTTGATTATCTAATCTGATTGAGGATCTGATTCCCATTAAGGATATAT
CTGTTAACCTCTTCAGGTGTTTTGGATTTCAAGTCTACAGAGATAGAACTTTAATATTGCCCAATTTAAGTGAAAATTTGCCTGCCTATTTAAATATTATTTTACATAAATATTTTATATGGATATGG
TTAAAGTAGATTCATTTACTAGTGGTTTCTGAATATTTATAGTTTTGATAAAGTTTAGAGTCTAATGGTTGGTATTTTGGAATGCCATTTAGTAAGAAGGGAAAAATGTACATTTAAAAATCTTTAGT
AAAATCTAAATGATGTCATTTCACATTCAAAAATCCATCATAATACATTTCAGAAAGTTAAGCTCCTAAACATTAATAGCCAAGATACCAAATAAATTATATTAAAATACTTCTAAGTCTTTTTTTAA
AGAGAGAAGTAAACATAATCTTTATGTTCTTATCTATTTCCTGATTTCAGTCAAGACAGTATAAAATAGTAAATGAACTATTGACTTATTTGAACATTCCATTCTGTACCAACAGATAAATGTAAATT
AGGCTGCTGTATGATATGACAAGTTGAAAAATGAAAAAGGAAAGACAAGTTGGGGATCTACATATGAAATAACTGTTTTTGCACTTATTTTTTGTGTGTATTAAAAAAGTCTCTGCTAACTGGACAGA
AAATGACAGTCACAGTCAAAAAGATAACAGTTGTGTAGACATAAACAGACAAATGTCTTGCTTGGCATGTTCTTTAACTACGGCTTTGTTTACATTTCCCAGGTTAACTAATTGTTGGCAATGAGCAC
TGCTGCCTTTTTCGATCATTAATGCCTGTCTTGAAATGCCAGTGTGTTAGAGGTGTAGAATTACATTTAAATTTATCATGTATGCATTTTTCATCTGGGAGCTACGCTTTGTCAGTGTTTGTATGTAC
AAAAGGATCCTTTGTAAAAATATATTAGGATATTACTTAAATTATCCTTCACAGCTTCTAAAATTACTACTCTAATTAAGCTTCCCTGTTTACCTAACAGCAAAGTCTTTATCCATTACACATAAGAA
TTTTTTAACCTGTTTCAATCTAAATAGGTTTCTAGAAATAATGGTGGCTCTTGTATACCAAGTTGAGTAGTTCTAGACTCCATCCATATCAATGTAATGTTGTGTGGTAAATTTCACGTTTCTTGTGT
CTAAGCTGCTCTCCCAGTCCTGGTCACCCCTGCCTCCATACCATTATACACTCAAGAAAGAATGCTGACTTTTATTCTGACAAGTGGAAATCAGTATTGGTGATTCAAGGAGCTTTTGTAAATGCAAG
TATTAGTAGAGAACTTCCCTCTCCGATTTCAAATGTTTTTTTCTGTGTTCATTTCAAGTTGTTTTTACTTTTTATTTGTATCTTATTAGCATCTGATTTGTGTCGGCATGGTATAGACAGGCTGAAGA
ATATTTTGGAATAATCTTTGCATTCACAAGAAGAATTGGTTGGATTTGTCAAACTGATACAACCATCCAGAATTGAGGCAGAGTAAACATCTCAGAAAAATTTCCTTTGTCTGGCCTATTAGGACAAA
TAGAAGGAAGACAAATGGTTGATCATTTTGATTTAAGAATAGAGAGAACATTTATTATATGAAAACTGACTTCAAATGCACAAAGTTACATTAAGGCATTAAGATGATTGCTTGAAAGTTTCAGGTAC
AAATGTATGTGTGTGTGTATATATATGTGTATATATATATATATGTGTGTGTGTATATATATATTCATAGAGATACTTTAGTGCATTTGTTTACACATTTCATTAAAGTTACTGCCCACAAACAGGAA
CAACAGACTGTTTAAAGTACAAGGTTGTTGAGCATCAGTTAGCAGGTCTGATCAGGTCTAATCAGGAATTTGAGAAAAAATCTTGTCTCCTGTCTCAAGTACAACTTGAGAGCAGAAAGGAAATGGAA
AGATTTTTTTCCCCCAATCTCCACTTCCCTTATTATAGCAAGGAAACAGAGACCCAGCAACAGTAATTGATTTAGCAAAGTCTCATTTTGTACAATCTGTTTCCTAATTGTCAATATGGTGTTCTCTA
TGTTATACTAGAACTTCAGTAATTGTCACCTATGTGAGTATCATAAATTCTTGTGAATTTTAGTCTGTTTCAACTTGAGAAGCATACTCAATGTTTTTGCTTCATAACTATGACAACCTTAGGAGATG
TCACTTAAGTTAGAAAATAAGTAGGCTGCAGTAGTGATCCTAATTAGGACCCTGACTCACTCATGCTTCCCTGTCAGAGAACATAAGCTTTTGTGAAGTATTGAGGCTGATACAAATGCAATATAAAA
GCATTCTGGACTGCAAGTAGAAGACTAATTTTTAAAAACACTTAAAACACAGAACTAAGATTTAAATGTATGTCCATTTATAGTGAAATAATTTATCTTCATAATGTGAACATGTAATAGAAATAAAA
GCATTATTTGTCTTATAATCTGATCATGAAGGGAGAAGGGAATACGAATTTATAACAATGTGCTATTTAATATTTGTATTTTGAAAATATTTAAAATATTCTATTGGTAAGGTTGCCAAAGTAGTTTT
GAATTCATAAAAGTTATAATAATGTGGGATATGTTTACAGGTTCTTTGATTTGGTAGTAATTTTCATAGTTCAGATTAATTTTCATTTAAAGTCATTTGTAGTAAGTACATTATGGTAAATGTTTGTA
TGAATAAACATCTTGATATGACAAGATGTACATGAGTGATACCATAGCCTGCTTTTATATAAGCTGCCACATAAACAAACTGAGTACTTCATATGAAGATTGTTTATTTCCCACATTTGCTTCAGTTG
TACAACCACAGTTTCTGGAACTATTTGTTGTGGTGCTTCTTCCAAATGAAATAGCTGTTTTTACAATCCACTAGGTTAATTTAATCAAATATTGGATTTACCGATCTGTTGGCAAAGATTTATTAGTG
TCTCAGTGTGGTCACAATACAAATTGTAGCAACTATTTTATAAAAGTCTTAAACATATAGATAAAAGGAATTTTCTTAATCCTAAAGCATTTTGAGGGCTGCTTGCTGATCCATATTTCATCATTTTG
AAGAGCCCAAGAAATGAATTCCTAAATTGTATGTTTGGGGTTCAGTTTTCTTTACAATGCCTACAACAGTTATCAACATTATTATATGCAGTCTTCAACTATTTTTTAGTAGCAATTATTATTATAAG
CCTTTTGATGTTGTTAGAAATAGCAATCCCTATTTCTGCCCAAAATTAGACACTTTTATTTCACAATATTGGTGAATTTGTTTTAGGTAGACAACAAAATACTACTTGTTAAATTTGCTGCTATTTAT
TTTTATGTTTTTCTACTCTAGTATATTTTTGATTTCTGAAATTTAAGTTAAAATTGTTTTTATTTTAGTCATCCAAGCTAAGTGGTCAGCTATAATACTATCTGCTTGGGTGTAATCTGTCTGCATTA
GTTAGACGTAGTTCAGTGCATAAATAAACAAATTTTTCTTTTAATTTGCAAAGTGAAAGTTACTAGCAATCTTGCAAGTTAAAGCTACAATTTTAGGGAAGAGTTCAAACATTTAATTTCCTGAAACC
TTTTAAAATTTCCAGTACAAGAATGGAAATGTTTGAAAGCCTTCTTTAGCTCACAAAAGTTTTAGTTAAACACTGTAACAGAGTTTTCCTATCTGTTGTTGTGTAAATGATATAGAAAATATTTTTCT
ATGAAAAAAAGTTGAAAATGTTAACTTCTTTAATTGTTAAAAAGGGATAAAATGATATTTGTATGTCTTTCATGCTGTAAAGAAAATGAATGTATCTTTCAAATGTTATTAGAATTATGACGATTCTA
AGGATACTCTTATTTTTTAACAAAAAAAGAAAGCCTGCAAAAGGATTGGAAAGAAGAAAGGGAGGAGTATTACACATTATAAAAATGCAATTTTAGATGAAAAGTAATTTTCATTATAAACAAGAGCG
ATTGTTGAAGCATATTACAAACATGATGTGCATTCTTTTTTATATTGCTTTGTTTTGGCTCTAGAAATTTCCAGAAAATTCGCACATACGCCTTTTAAGTGTAAAATATTCTAATTCTAGGCTTCTGG
GGTGAATTTTTGTGTGAGGTTAAAAATTCTGGATGAATTTTTGTGTGAGGTTAAACATGCTGCTGCATGTGTCTGCCACGGAGAAAAGTTCCCAAGCTTTGTTACTGGGACACCATAAGTGAGGACAT
CATTGTAAGAATGTGATTTAGTTAAAGCTTGAAAACCTTGCCTGAAATCCACTACAGTTAATTATGTGTAAAGGTCCCTGACCCAGTAGGTGGTTCTGCCTTTTTATTGTCAAAGTCACAGACCATGG
GGTCCAACTCTGACTTGAAGCAGTGGTGTCTTATATGTTAACGATTATTAATGCTGATGAACAACAACAAAAAAAAAAACACAACTTTATTTTAAGCCAACTACTACAGGCATGATTTGTTCAGCAGC
AGCTTTAAAAAGTAGTATTTACTGTCACTCATTAAACTTGATTCAGTTGGGGTTGGAAGCAGTGACGAAGGCCTGTAATCCCAGCACTCAGGAGGCTGAGGCAGGAGCATTCATATTCAAGACCAGCC
AAGGCAACTTAGTGAAACCTGTCTCAAAATAAAAAACGACTAGGGATGTCACTCTGGTAGAGCACTCCTGTGTTCAGTCCCCAGTACTGGCAGGAGAAGGACTTGATTCAGTTAGAGTTTCATTCTCT
TAGCTTCCTGCTTTTTGTCCTCCACATTTAAAAAAAAATCACTCACCTTCCAGGCACACGGGTGCACGCCTATAATCCCAGTGACTTGGAAGGCCGAGGCAGGAGATTTGAAAGTTCAGAGCCAGCCA
AAGTACTTGGAGAAGCCCATAGCAACTTAGACCCTGTCTCAAAAATAAAAGGAGCTGGGGATGTGGCTCAGTAGTTAAGTGCACCTGGGTTCAAGCCCCAGTACTCCGGCCCCCACTCCAAAAATCAC
TATGAAATAAATACTCTGAACAACTAAAAGGTGTTACCTTTATTACCTTTTGCAACAGTTATAAGAAATTAGTATTAGACTCCCTCAACCCTGAGAGGTTCCAAGATTCAACACTATCACTTGCGCTA
ACCTTAAATGCCGTGTTGCTTAATAAAATTATCAGGAAGCAATTGAGGAAAAGATTGCCCTGCTCAACCCTTAAACCAAATAGTTTCTGATTTATGGTGTCCCCCAAACCATTATTATCAAAATTGAG
CCCATTTTACCTTTTAATAAAATAAGCCTTTCTAGTTTCTACTCTTGAATTTTAGTGTTCCAATTATTTGCATTCCTGGGCAAGAAAATTTCAACCTCATTCTGTGATTCTCTGGCACCTGTCTTTTC
CAATCCTTCAATGAGTTGACAAGATTATTCATTCTTGTATTCTGTAGAATATGTCACATTTCAATTATCAAATTGATTTCTTGAATTTCAAATAGCACTTTATTTCATGCTTACTACTGACTTAATTT
ATACATCTAAAGATATAATCTACGAGTTTTGTAAATACAGGAAAAAAAATGATTAGTATTAGAGCTCTTTAGATTGGACCCAAGTTTAAATGCTTTACAATGATCTCTTGATAGCTTATTTGATATTT
AAGAGGTAATTTGTGTGATTTTAGGTTTGCCACCTTTCTGTAATTTATACAGTACAATAAAGGCTACACCATTGACTGTT

hide sequence

RefSeq Acc Id:

XM_040294120 ⟹ XP_040150054

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	90,976,669 - 91,147,211 (+)	NCBI

RefSeq Acc Id:

XM_040294121 ⟹ XP_040150055

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	90,977,125 - 91,147,250 (+)	NCBI

RefSeq Acc Id:

XM_040294122 ⟹ XP_040150056

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	90,977,125 - 91,147,250 (+)	NCBI

RefSeq Acc Id:

XM_040294123 ⟹ XP_040150057

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	90,977,125 - 91,147,250 (+)	NCBI

RefSeq Acc Id:

XM_040294124 ⟹ XP_040150058

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	90,976,669 - 91,147,211 (+)	NCBI

RefSeq Acc Id:

XM_040294125 ⟹ XP_040150059

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	90,977,125 - 91,147,250 (+)	NCBI

RefSeq Acc Id:

XM_040294126 ⟹ XP_040150060

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	90,977,125 - 91,147,250 (+)	NCBI

RefSeq Acc Id:

XM_040294127 ⟹ XP_040150061

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	90,976,669 - 91,147,211 (+)	NCBI

RefSeq Acc Id:

XM_040294129 ⟹ XP_040150063

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	91,023,411 - 91,147,250 (+)	NCBI

RefSeq Acc Id:

XM_040294130 ⟹ XP_040150064

Type:

CODING

Position:

Squirrel Assembly	Chr	Position (strand)	Source
HiC_Itri_2	NW_024405303	91,023,433 - 91,147,250 (+)	NCBI


Protein RefSeqs	XP_021577699	(Get FASTA)	NCBI Sequence Viewer
	XP_021577713	(Get FASTA)	NCBI Sequence Viewer
	XP_040150054	(Get FASTA)	NCBI Sequence Viewer
	XP_040150055	(Get FASTA)	NCBI Sequence Viewer
	XP_040150056	(Get FASTA)	NCBI Sequence Viewer
	XP_040150057	(Get FASTA)	NCBI Sequence Viewer
	XP_040150058	(Get FASTA)	NCBI Sequence Viewer
	XP_040150059	(Get FASTA)	NCBI Sequence Viewer
	XP_040150060	(Get FASTA)	NCBI Sequence Viewer
	XP_040150061	(Get FASTA)	NCBI Sequence Viewer
	XP_040150063	(Get FASTA)	NCBI Sequence Viewer
	XP_040150064	(Get FASTA)	NCBI Sequence Viewer
Ensembl Protein	ENSSTOP00000014303.3
	ENSSTOP00000027325.1
	ENSSTOP00000032054.1
GenBank Protein	KAG3274252	(Get FASTA)	NCBI Sequence Viewer
	KAG3274253	(Get FASTA)	NCBI Sequence Viewer
	KAG3274254	(Get FASTA)	NCBI Sequence Viewer
	KAG3274255	(Get FASTA)	NCBI Sequence Viewer
	KAG3274256	(Get FASTA)	NCBI Sequence Viewer
	KAG3274257	(Get FASTA)	NCBI Sequence Viewer
	KAG3274258	(Get FASTA)	NCBI Sequence Viewer
	KAG3274259	(Get FASTA)	NCBI Sequence Viewer
	KAG3274260	(Get FASTA)	NCBI Sequence Viewer

RefSeq Acc Id:	XP_021577713 ⟸ XM_021722038
- Peptide Label:	isoform X6
- UniProtKB:	I3MQQ0 (UniProtKB/TrEMBL)
- Sequence:	show sequence MTSRFRLPAGRTYNVRASELARDRQNTEVVCNILLLDNTVQAFKVNKNELGQVLLDIVFKHLDLTERDYFGLQLADDSTDNPRWLDPNKPIRKQLKRGSPYSLNFRVKFFVSDPNKLQEEYTRYQYFL QIKQDILTGRLPCPYNTAALLASFAIQSELGDYSQSENLPGYLSDYSFIPNQPQDFEKEIAKLHHHHMGLSPAEAEFNYLNTARTLELYGVEFHYARDQSNNEIMIGVMSGGILIYKNRVRMNTFPWL KIVKISFKCKQFFIQLRKELHESRETLLGFNMVNYRACKNLWKACVEHHTFFRLDRPLPPQKNFFAHYFTLGSKFRYCGRTEVQSVQYGKEKANKDRVFARSPSKPLARKLMDWEVVSRNSISDDRLE TQSLPSRSPPGTPNHRNSAFTQEGTRLRPSSVGHLVDHVVHTSPSEDFVGQRSPSSTQANSIILESSPSQETPEDGQPPALPPKQSKKNSWNQIQYSHSQQDLENHTNEAFDIPSSPEKSTPNGGIPH DNLVLIRMKPDENGRFGFNVKGGYDQKMPVIVSRVAPGTPADLCVPRLNEGDQVVLINGRDITEHTHDQVVLFIKASCERHSGELVLLVRPNAVYDVVEEKLENEPDFQYIPEKAPLDSVHQDDHSLR ESMVQLAEGLITGTVLTQFDQLYRKKPGMTMSCAKLPQNISKNRYRDISPYDATRVILKGNEDYINANYINMEIPSSSIINQYIACQGPLPHTCADFWQMTWEQGSSMVVMLTTQVERGRVKCHQYWP EPTGSSSYGCYQVTCHSEEGNAAYIFRNMTLFNQEKNESRQLTQIQYIAWPDHGVPDDSSDFLDFVCHVRNKRAGKEEPIVVHCSAGIGRTGVLITMETAMCLIECNQPVYPLDIVRTMRDQRAMMIQ TPSQYRFVCEAILKVYEEGFIKPLTTSSNK hide sequence

RefSeq Acc Id:

XP_021577699 ⟸ XM_021722024

- Peptide Label:

isoform X5

- Sequence:

show sequence

MPDLVWTVMTSRFRLPAGRTYNVRASELARDRQNTEVVCNILLLDNTVQAFKVNKNELGQVLLD
IVFKHLDLTERDYFGLQLADDSTDNPRWLDPNKPIRKQLKRGSPYSLNFRVKFFVSDPNKLQEEYTRYQYFLQIKQDILTGRLPCPYNTAALLASFAIQSELGDYSQSENLPGYLSDYSFIPNQPQDF
EKEIAKLHHHHMGLSPAEAEFNYLNTARTLELYGVEFHYARDQSNNEIMIGVMSGGILIYKNRVRMNTFPWLKIVKISFKCKQFFIQLRKELHESRETLLGFNMVNYRACKNLWKACVEHHTFFRLDR
PLPPQKNFFAHYFTLGSKFRYCGRTEVQSVQYGKEKANKDRVFARSPSKPLARKLMDWEVVSRNSISDDRLETQSLPSRSPPGTPNHRNSAFTQEGTRLRPSSVGHLVDHVVHTSPSEDFVGQRSPSS
TQANSIILESSPSQETPEDGQPPALPPKQSKKNSWNQIQYSHSQQDLENHTNEAFDIPSSPEKSTPNGGIPHDNLVLIRMKPDENGRFGFNVKGGYDQKMPVIVSRVAPGTPADLCVPRLNEGDQVVL
INGRDITEHTHDQVVLFIKASCERHSGELVLLVRPNAVYDVVEEKLENEPDFQYIPEKAPLDSVHQDDHSLRESMVQLAEGLITGTVLTQFDQLYRKKPGMTMSCAKLPQNISKNRYRDISPYDATRV
ILKGNEDYINANYINMEIPSSSIINQYIACQGPLPHTCADFWQMTWEQGSSMVVMLTTQVERGRVKCHQYWPEPTGSSSYGCYQVTCHSEEGNAAYIFRNMTLFNQEKNESRQLTQIQYIAWPDHGVP
DDSSDFLDFVCHVRNKRAGKEEPIVVHCSAGIGRTGVLITMETAMCLIECNQPVYPLDIVRTMRDQRAMMIQTPSQYRFVCEAILKVYEEGFIKPLTTSSNK

hide sequence

RefSeq Acc Id:	XP_040150054 ⟸ XM_040294120
- Peptide Label:	isoform X1

RefSeq Acc Id:	XP_040150058 ⟸ XM_040294124
- Peptide Label:	isoform X4

RefSeq Acc Id:	XP_040150061 ⟸ XM_040294127
- Peptide Label:	isoform X4

Protein Domains

FERM PDZ Tyrosine specific protein phosphatases Tyrosine-protein phosphatase

Database	Acc Id	Source(s)
Ensembl Genes	ENSSTOG00000015978	Ensembl, UniProtKB/TrEMBL
Ensembl Transcript	ENSSTOT00000015984.3	UniProtKB/TrEMBL
	ENSSTOT00000031870.1	UniProtKB/TrEMBL
	ENSSTOT00000043219.1	UniProtKB/TrEMBL
Gene3D-CATH	1.20.80.10	UniProtKB/TrEMBL
	2.30.29.30	UniProtKB/TrEMBL
	2.30.42.10	UniProtKB/TrEMBL
	3.90.190.10	UniProtKB/TrEMBL
	Phosphatidylinositol 3-kinase Catalytic Subunit, Chain A, domain 1	UniProtKB/TrEMBL
InterPro	Band_41_domain	UniProtKB/TrEMBL
	FERM-adjacent	UniProtKB/TrEMBL
	FERM/acyl-CoA-bd_prot_sf	UniProtKB/TrEMBL
	FERM_2	UniProtKB/TrEMBL
	FERM_central	UniProtKB/TrEMBL
	FERM_CS	UniProtKB/TrEMBL
	FERM_domain	UniProtKB/TrEMBL
	FERM_N	UniProtKB/TrEMBL
	FERM_PH-like_C	UniProtKB/TrEMBL
	PDZ	UniProtKB/TrEMBL
	PDZ_sf	UniProtKB/TrEMBL
	PH-like_dom_sf	UniProtKB/TrEMBL
	Prot-tyrosine_phosphatase-like	UniProtKB/TrEMBL
	PTPase_domain	UniProtKB/TrEMBL
	PTPN3/4_FERM_C	UniProtKB/TrEMBL
	Tyr_Pase_AS	UniProtKB/TrEMBL
	Tyr_Pase_cat	UniProtKB/TrEMBL
	Tyr_Pase_non-rcpt_typ-3/4	UniProtKB/TrEMBL
	TYR_PHOSPHATASE_dom	UniProtKB/TrEMBL
	Ubiquitin-like_domsf	UniProtKB/TrEMBL
NCBI Gene	Ptpn4	ENTREZGENE
PANTHER	TYROSINE-PROTEIN PHOSPHATASE	UniProtKB/TrEMBL
	TYROSINE-PROTEIN PHOSPHATASE NON-RECEPTOR TYPE 4	UniProtKB/TrEMBL
Pfam	FERM_C	UniProtKB/TrEMBL
	FERM_M	UniProtKB/TrEMBL
	FERM_N	UniProtKB/TrEMBL
	PDZ	UniProtKB/TrEMBL
	PF08736	UniProtKB/TrEMBL
	Y_phosphatase	UniProtKB/TrEMBL
PIRSF	Tyr-Ptase_nr3	UniProtKB/TrEMBL
PRINTS	BAND41	UniProtKB/TrEMBL
	PRTYPHPHTASE	UniProtKB/TrEMBL
PROSITE	FERM_1	UniProtKB/TrEMBL
	FERM_2	UniProtKB/TrEMBL
	FERM_3	UniProtKB/TrEMBL
	PDZ	UniProtKB/TrEMBL
	TYR_PHOSPHATASE_1	UniProtKB/TrEMBL
	TYR_PHOSPHATASE_2	UniProtKB/TrEMBL
	TYR_PHOSPHATASE_PTP	UniProtKB/TrEMBL
SMART	B41	UniProtKB/TrEMBL
	FERM_C	UniProtKB/TrEMBL
	PDZ	UniProtKB/TrEMBL
	PTPc	UniProtKB/TrEMBL
	PTPc_motif	UniProtKB/TrEMBL
	SM01195	UniProtKB/TrEMBL
Superfamily-SCOP	PH domain-like	UniProtKB/TrEMBL
	SSF47031	UniProtKB/TrEMBL
	SSF50156	UniProtKB/TrEMBL
	SSF52799	UniProtKB/TrEMBL
	SSF54236	UniProtKB/TrEMBL
UniProt	A0A287D1F1_ICTTR	UniProtKB/TrEMBL
	A0A287DEU4_ICTTR	UniProtKB/TrEMBL
	I3MQQ0	ENTREZGENE, UniProtKB/TrEMBL

Nomenclature History

Date	Current Symbol	Current Name	Previous Symbol	Previous Name	Description	Reference	Status
2019-02-19	Ptpn4	protein tyrosine phosphatase non-receptor type 4		protein tyrosine phosphatase, non-receptor type 4	Symbol and/or name change	5135510	APPROVED

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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Imported Disease Annotations - ClinVar