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Gene: Garre1 (granule associated Rac and RHOG effector 1) Rattus norvegicus

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Symbol:

Garre1

Name:

granule associated Rac and RHOG effector 1

RGD ID:

1308428

Description:

Predicted to enable CCR4-NOT complex binding activity and small GTPase binding activity. Predicted to be involved in Rac protein signal transduction. Predicted to be located in P-body. Orthologous to human GARRE1 (granule associated Rac and RHOG effector 1); INTERACTS WITH 2,3,7,8-tetrachlorodibenzodioxine; bisphenol A; thioacetamide.

Type:

protein-coding

RefSeq Status:

VALIDATED

Previously known as:

granule associated Rac and RHOG effector protein 1; LOC308509; RGD1308428; similar to RIKEN cDNA 4931406P16; uncharacterized protein KIAA0355 homolog; uncharacterized protein LOC308509

RGD Orthologs

Alliance Orthologs

More Info

more info ...

Latest Assembly:

GRCr8 - GRCr8 Assembly

Position:

Rat Assembly	Chr	Position (strand)	Source	Genome Browsers
Rat Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCr8	1	95,999,305 - 96,077,641 (-)	NCBI		GRCr8
mRatBN7.2	1	86,862,121 - 86,939,725 (-)	NCBI	mRatBN7.2	mRatBN7.2
mRatBN7.2 Ensembl	1	86,862,121 - 86,939,687 (-)	Ensembl		mRatBN7.2 Ensembl
UTH_Rnor_SHR_Utx	1	92,265,632 - 92,319,004 (-)	NCBI	Rnor_SHR	UTH_Rnor_SHR_Utx
UTH_Rnor_SHRSP_BbbUtx_1.0	1	100,731,637 - 100,785,002 (-)	NCBI	Rnor_SHRSP	UTH_Rnor_SHRSP_BbbUtx_1.0
UTH_Rnor_WKY_Bbb_1.0	1	94,023,928 - 94,077,305 (-)	NCBI	Rnor_WKY	UTH_Rnor_WKY_Bbb_1.0
Rnor_6.0	1	90,097,331 - 90,176,119 (-)	NCBI	Rnor6.0	Rnor_6.0	rn6	Rnor6.0
Rnor_6.0 Ensembl	1	90,097,334 - 90,176,105 (-)	Ensembl	Rnor6.0		rn6	Rnor6.0
Rnor_5.0	1	91,240,934 - 91,318,702 (-)	NCBI	Rnor5.0	Rnor_5.0	rn5	Rnor5.0
RGSC_v3.4	1	86,694,994 - 86,745,251 (-)	NCBI	RGSC3.4	RGSC_v3.4	rn4	RGSC3.4
RGSC_v3.1	1	86,770,872 - 86,823,077 (-)	NCBI
Celera	1	81,228,351 - 81,280,659 (-)	NCBI		Celera
Cytogenetic Map	1	q21	NCBI

JBrowse:

View Region in Genome Browser (JBrowse)

Model

Object Symbol	Species	Term	Qualifier	Evidence	With	Reference	Notes	Source	Original Reference(s)
Garre1	Rat	hereditary spastic paraplegia 75		ISO	RGD:1318189	8554872	ClinVar Annotator: match by term: Hereditary spastic paraplegia 75	ClinVar	PMID:28492532

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

Object Symbol	Species	Term	Qualifier	Evidence	With	Reference	Notes	Source	Original Reference(s)
Garre1	Rat	2,3,7,8-tetrachlorodibenzodioxine	decreases expression	EXP		6480464	Tetrachlorodibenzodioxin results in decreased expression of GARRE1 mRNA	CTD	PMID:34747641
Garre1	Rat	4-hydroxyphenyl retinamide	increases expression	ISO	RGD:1318190	6480464	Fenretinide results in increased expression of GARRE1 mRNA	CTD	PMID:28973697
Garre1	Rat	all-trans-retinoic acid	decreases expression	ISO	RGD:1318189	6480464	Tretinoin results in decreased expression of GARRE1 mRNA	CTD	PMID:33167477
Garre1	Rat	antirheumatic drug	increases expression	ISO	RGD:1318189	6480464	Antirheumatic Agents results in increased expression of GARRE1 mRNA	CTD	PMID:24449571
Garre1	Rat	benzo[a]pyrene	affects methylation	ISO	RGD:1318189	6480464	Benzo(a)pyrene affects the methylation of GARRE1 5' UTR	CTD	PMID:27901495
Garre1	Rat	bisphenol A	increases expression	EXP		6480464	bisphenol A results in increased expression of GARRE1 mRNA	CTD	PMID:25181051
Garre1	Rat	bisphenol A	decreases methylation	ISO	RGD:1318189	6480464	bisphenol A results in decreased methylation of GARRE1 gene	CTD	PMID:31601247
Garre1	Rat	bisphenol A	decreases expression	EXP		6480464	bisphenol A results in decreased expression of GARRE1 mRNA	CTD	PMID:34947998
Garre1	Rat	cadmium atom	multiple interactions	ISO	RGD:1318189	6480464	[Cadmium Chloride results in increased abundance of Cadmium] which results in decreased expression of GARRE1 more ...	CTD	PMID:35301059
Garre1	Rat	cadmium dichloride	multiple interactions	ISO	RGD:1318189	6480464	[Cadmium Chloride results in increased abundance of Cadmium] which results in decreased expression of GARRE1 more ...	CTD	PMID:35301059
Garre1	Rat	caffeine	decreases phosphorylation	ISO	RGD:1318189	6480464	Caffeine results in decreased phosphorylation of GARRE1 protein	CTD	PMID:35688186
Garre1	Rat	carnosic acid	multiple interactions	ISO	RGD:1318190	6480464	salvin inhibits the reaction [sodium arsenite results in decreased expression of GARRE1 mRNA]	CTD	PMID:35202923
Garre1	Rat	copper(II) sulfate	decreases expression	ISO	RGD:1318189	6480464	Copper Sulfate results in decreased expression of GARRE1 mRNA	CTD	PMID:19549813
Garre1	Rat	cyclosporin A	increases expression	ISO	RGD:1318189	6480464	Cyclosporine results in increased expression of GARRE1 mRNA	CTD	PMID:20106945
Garre1	Rat	doxorubicin	decreases expression	ISO	RGD:1318189	6480464	Doxorubicin results in decreased expression of GARRE1 mRNA	CTD	PMID:29803840
Garre1	Rat	GSK-J4	increases expression	ISO	RGD:1318189	6480464	GSK-J4 results in increased expression of GARRE1 mRNA	CTD	PMID:29301935
Garre1	Rat	hydrogen cyanide	increases expression	ISO	RGD:1318190	6480464	Hydrogen Cyanide results in increased expression of GARRE1 mRNA	CTD	PMID:33914522
Garre1	Rat	leflunomide	increases expression	ISO	RGD:1318189	6480464	Leflunomide results in increased expression of GARRE1 mRNA	CTD	PMID:28988120
Garre1	Rat	methylparaben	increases expression	ISO	RGD:1318189	6480464	methylparaben results in increased expression of GARRE1 mRNA	CTD	PMID:31745603
Garre1	Rat	ozone	multiple interactions	ISO	RGD:1318190	6480464	[Air Pollutants results in increased abundance of [Ozone co-treated with Soot]] which results in decreased more ...	CTD	PMID:34911549
Garre1	Rat	paracetamol	increases expression	ISO	RGD:1318189	6480464	Acetaminophen results in increased expression of GARRE1 mRNA	CTD	PMID:29067470
Garre1	Rat	potassium cyanide	increases expression	ISO	RGD:1318190	6480464	Potassium Cyanide results in increased expression of GARRE1 mRNA	CTD	PMID:33914522
Garre1	Rat	sodium arsenite	multiple interactions	ISO	RGD:1318190	6480464	salvin inhibits the reaction [sodium arsenite results in decreased expression of GARRE1 mRNA]	CTD	PMID:35202923
Garre1	Rat	sodium arsenite	decreases expression	ISO	RGD:1318190	6480464	sodium arsenite results in decreased expression of GARRE1 mRNA	CTD	PMID:35202923
Garre1	Rat	temozolomide	increases expression	ISO	RGD:1318189	6480464	Temozolomide results in increased expression of GARRE1 mRNA	CTD	PMID:31758290
Garre1	Rat	thioacetamide	increases expression	EXP		6480464	Thioacetamide results in increased expression of GARRE1 mRNA	CTD	PMID:34492290
Garre1	Rat	titanium dioxide	increases expression	ISO	RGD:1318190	6480464	titanium dioxide results in increased expression of GARRE1 mRNA	CTD	PMID:35295148
Garre1	Rat	trichostatin A	affects expression	ISO	RGD:1318189	6480464	trichostatin A affects the expression of GARRE1 mRNA	CTD	PMID:28542535
Garre1	Rat	triptonide	decreases expression	ISO	RGD:1318190	6480464	triptonide results in decreased expression of GARRE1 mRNA	CTD	PMID:33045310
Garre1	Rat	urethane	increases expression	ISO	RGD:1318189	6480464	Urethane results in increased expression of GARRE1 mRNA	CTD	PMID:28818685
Garre1	Rat	valproic acid	affects expression	ISO	RGD:1318189	6480464	Valproic Acid affects the expression of GARRE1 mRNA	CTD	PMID:25979313

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)
Garre1	Rat	Rac protein signal transduction	involved_in	ISO	RGD:1318189	1624291	PMID:31871319	RGD	PMID:31871319
Garre1	Rat	Rac protein signal transduction	involved_in	IBA	PANTHER:PTN002311704\|UniProtKB:O15063	1600115	GO_REF:0000033	GO_Central	GO_REF:0000033

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)
Garre1	Rat	P-body	located_in	ISO	RGD:1318189	1624291	PMID:29395067	RGD	PMID:29395067

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)
Garre1	Rat	CCR4-NOT complex binding	enables	ISO	RGD:1318189	1624291	PMID:29395067	RGD	PMID:29395067
Garre1	Rat	CCR4-NOT complex binding	enables	IBA	PANTHER:PTN002311704\|UniProtKB:O15063	1600115	GO_REF:0000033	GO_Central	GO_REF:0000033
Garre1	Rat	protein binding	enables	ISO	RGD:1318189	1624291	UniProtKB:Q8N5S9\|UniProtKB:Q8NDV7\|UniProtKB:Q9UKV8 PMID:28514442, PMID:29395067, PMID:33961781	RGD	PMID:28514442\|PMID:29395067\|PMID:33961781
Garre1	Rat	small GTPase binding	enables	ISO	RGD:1318189	1624291	UniProtKB:P63000 PMID:31871319	RGD	PMID:31871319

#	Reference Title	Reference Citation
1.	Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium.	Gaudet P, etal., Brief Bioinform. 2011 Sep;12(5):449-62. doi: 10.1093/bib/bbr042. Epub 2011 Aug 27.
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:29395067	PMID:31871319

Garre1
(Rattus norvegicus - Norway rat)

Rat Assembly	Chr	Position (strand)	Source	Genome Browsers
Rat Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCr8	1	95,999,305 - 96,077,641 (-)	NCBI		GRCr8
mRatBN7.2	1	86,862,121 - 86,939,725 (-)	NCBI	mRatBN7.2	mRatBN7.2
mRatBN7.2 Ensembl	1	86,862,121 - 86,939,687 (-)	Ensembl		mRatBN7.2 Ensembl
UTH_Rnor_SHR_Utx	1	92,265,632 - 92,319,004 (-)	NCBI	Rnor_SHR	UTH_Rnor_SHR_Utx
UTH_Rnor_SHRSP_BbbUtx_1.0	1	100,731,637 - 100,785,002 (-)	NCBI	Rnor_SHRSP	UTH_Rnor_SHRSP_BbbUtx_1.0
UTH_Rnor_WKY_Bbb_1.0	1	94,023,928 - 94,077,305 (-)	NCBI	Rnor_WKY	UTH_Rnor_WKY_Bbb_1.0
Rnor_6.0	1	90,097,331 - 90,176,119 (-)	NCBI	Rnor6.0	Rnor_6.0	rn6	Rnor6.0
Rnor_6.0 Ensembl	1	90,097,334 - 90,176,105 (-)	Ensembl	Rnor6.0		rn6	Rnor6.0
Rnor_5.0	1	91,240,934 - 91,318,702 (-)	NCBI	Rnor5.0	Rnor_5.0	rn5	Rnor5.0
RGSC_v3.4	1	86,694,994 - 86,745,251 (-)	NCBI	RGSC3.4	RGSC_v3.4	rn4	RGSC3.4
RGSC_v3.1	1	86,770,872 - 86,823,077 (-)	NCBI
Celera	1	81,228,351 - 81,280,659 (-)	NCBI		Celera
Cytogenetic Map	1	q21	NCBI

GARRE1
(Homo sapiens - human)

Human Assembly	Chr	Position (strand)	Source	Genome Browsers
Human Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCh38	19	34,254,554 - 34,355,566 (+)	NCBI	GRCh38	GRCh38	hg38	GRCh38
GRCh38.p14 Ensembl	19	34,254,552 - 34,355,566 (+)	Ensembl	GRCh38		hg38	GRCh38
GRCh37	19	34,745,459 - 34,846,471 (+)	NCBI	GRCh37	GRCh37	hg19	GRCh37
Build 36	19	39,437,296 - 39,538,311 (+)	NCBI	NCBI36	Build 36	hg18	NCBI36
Build 34	19	39,482,420 - 39,538,310	NCBI
Celera	19	31,447,207 - 31,548,203 (+)	NCBI		Celera
Cytogenetic Map	19	q13.11	NCBI
HuRef	19	31,250,818 - 31,351,606 (+)	NCBI		HuRef
CHM1_1	19	34,746,888 - 34,847,982 (+)	NCBI		CHM1_1
T2T-CHM13v2.0	19	36,781,896 - 36,882,838 (+)	NCBI		T2T-CHM13v2.0

Garre1
(Mus musculus - house mouse)

Mouse Assembly	Chr	Position (strand)	Source	Genome Browsers
Mouse Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
GRCm39	7	33,936,132 - 34,012,990 (-)	NCBI	GRCm39	GRCm39	mm39
GRCm39 Ensembl	7	33,936,132 - 34,012,976 (-)	Ensembl		GRCm39 Ensembl
GRCm38	7	34,236,707 - 34,313,554 (-)	NCBI	GRCm38	GRCm38	mm10	GRCm38
GRCm38.p6 Ensembl	7	34,236,707 - 34,313,551 (-)	Ensembl	GRCm38		mm10	GRCm38
MGSCv37	7	35,021,733 - 35,070,628 (-)	NCBI	GRCm37	MGSCv37	mm9	NCBIm37
MGSCv36	7	33,945,474 - 33,994,369 (-)	NCBI		MGSCv36	mm8
Celera	7	29,378,325 - 29,428,158 (-)	NCBI		Celera
Cytogenetic Map	7	B1	NCBI
cM Map	7	19.48	NCBI

Garre1
(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_004955468	3,920,083 - 3,970,981 (+)	Ensembl	ChiLan1.0
ChiLan1.0	NW_004955468	3,883,615 - 3,973,288 (+)	NCBI	ChiLan1.0	ChiLan1.0

GARRE1
(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	20	40,240,834 - 40,341,729 (+)	NCBI		NHGRI_mPanPan1-v2
NHGRI_mPanPan1	19	42,240,884 - 42,341,764 (+)	NCBI		NHGRI_mPanPan1
Mhudiblu_PPA_v0	19	31,191,349 - 31,292,232 (+)	NCBI	Mhudiblu_PPA_v0	Mhudiblu_PPA_v0	panPan3
PanPan1.1	19	39,932,336 - 40,021,261 (+)	NCBI	panpan1.1	PanPan1.1	panPan2
PanPan1.1 Ensembl	19	39,951,290 - 40,021,261 (+)	Ensembl	panpan1.1		panPan2

GARRE1
(Canis lupus familiaris - dog)

Dog Assembly	Chr	Position (strand)	Source	Genome Browsers
Dog Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
CanFam3.1	1	117,957,092 - 118,027,079 (-)	NCBI	CanFam3.1	CanFam3.1	canFam3	CanFam3.1
CanFam3.1 Ensembl	1	117,959,214 - 118,006,439 (-)	Ensembl	CanFam3.1		canFam3	CanFam3.1
Dog10K_Boxer_Tasha	1	117,355,211 - 117,432,512 (-)	NCBI		Dog10K_Boxer_Tasha
ROS_Cfam_1.0	1	118,552,602 - 118,629,960 (-)	NCBI		ROS_Cfam_1.0
ROS_Cfam_1.0 Ensembl	1	118,552,574 - 118,629,880 (-)	Ensembl		ROS_Cfam_1.0 Ensembl
UMICH_Zoey_3.1	1	118,113,758 - 118,191,075 (-)	NCBI		UMICH_Zoey_3.1
UNSW_CanFamBas_1.0	1	117,740,099 - 117,817,214 (-)	NCBI		UNSW_CanFamBas_1.0
UU_Cfam_GSD_1.0	1	118,798,330 - 118,875,722 (-)	NCBI		UU_Cfam_GSD_1.0

Garre1
(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_024409349	9,941,738 - 10,029,149 (+)	NCBI		HiC_Itri_2
SpeTri2.0 Ensembl	NW_004936570	1,615,940 - 1,695,535 (-)	Ensembl	SpeTri2.0	SpeTri2.0 Ensembl
SpeTri2.0	NW_004936570	1,616,736 - 1,704,067 (-)	NCBI	SpeTri2.0	SpeTri2.0		SpeTri2.0

GARRE1
(Sus scrofa - pig)

Pig Assembly	Chr	Position (strand)	Source	Genome Browsers
Pig Assembly	Chr	Position (strand)	Source	JBrowse	NCBI	UCSC	Ensembl
Sscrofa11.1 Ensembl	6	43,933,787 - 44,030,653 (+)	Ensembl	Sscrofa11.1		susScr11	Sscrofa11.1
Sscrofa11.1	6	43,933,704 - 44,030,663 (+)	NCBI	Sscrofa11.1	Sscrofa11.1	susScr11	Sscrofa11.1
Sscrofa10.2	6	39,402,288 - 39,475,725 (+)	NCBI	Sscrofa10.2	Sscrofa10.2	susScr3

GARRE1
(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	6	29,299,979 - 29,395,228 (+)	NCBI	ChlSab1.1	ChlSab1.1	chlSab2
ChlSab1.1 Ensembl	6	29,345,262 - 29,395,722 (+)	Ensembl	ChlSab1.1	ChlSab1.1 Ensembl	chlSab2
Vero_WHO_p1.0	NW_023666073	7,116,444 - 7,167,992 (+)	NCBI	Vero_WHO_p1.0	Vero_WHO_p1.0

Garre1
(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_004624794	8,862,276 - 8,913,996 (-)	Ensembl	HetGla_female_1.0	HetGla_female_1.0 Ensembl	hetGla2
HetGla 1.0	NW_004624794	8,861,101 - 8,913,225 (-)	NCBI	HetGla_female_1.0	HetGla 1.0	hetGla2

Variants in Garre1
513 total Variants

Predicted Target Of

	Summary Value
Count of predictions:	541
Count of miRNA genes:	258
Interacting mature miRNAs:	330
Transcripts:	ENSRNOT00000028688
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
2313059	Bss55	Bone structure and strength QTL 55	3.2	0.0001	tibia size trait (VT:0100001)	tibia midshaft cross-sectional area (CMO:0001717)	1	43284731	118944897	Rat
631688	Hcas2	Hepatocarcinoma susceptibility QTL 2	3	0.0001	liver integrity trait (VT:0010547)	liver tumorous lesion number (CMO:0001068)	1	5925874	115540829	Rat
1578649	Bmd8	Bone mineral density QTL 8	4.9		femur mineral mass (VT:0010011)	trabecular volumetric bone mineral density (CMO:0001729)	1	49393172	94393172	Rat
1582234	Gluco18	Glucose level QTL 18	3.4	0.0003	blood glucose amount (VT:0000188)	blood glucose level (CMO:0000046)	1	78479925	123479925	Rat
1358359	Sradr1	Stress Responsive Adrenal Weight QTL 1	4.74		adrenal gland mass (VT:0010420)	both adrenal glands wet weight (CMO:0000164)	1	30882023	123479925	Rat
634314	Niddm44	Non-insulin dependent diabetes mellitus QTL 44			blood glucose amount (VT:0000188)	blood glucose level (CMO:0000046)	1	49393289	199050459	Rat
1578780	Cm52	Cardiac mass QTL 52	3.3	0.0001	heart mass (VT:0007028)	heart wet weight (CMO:0000069)	1	81591954	219808434	Rat
1578654	Bss10	Bone structure and strength QTL 10	4		femur morphology trait (VT:0000559)	femoral neck cortical cross-sectional area (CMO:0001702)	1	49393172	159356837	Rat
2300324	Fetw1	Fetal weight QTL 1	12.1	0.005	fetal growth trait (VT:0004201)	fetal body weight (CMO:0002080)	1	85424647	100358001	Rat
2302059	Pia36	Pristane induced arthritis QTL 36	3.8	0.001	blood immunoglobulin amount (VT:0002460)	serum immunoglobulin G1 level (CMO:0002115)	1	43333002	88333002	Rat
1300121	Hrtrt1	Heart rate QTL 1	3.7		heart pumping trait (VT:2000009)	heart rate (CMO:0000002)	1	65789093	115540829	Rat
7421628	Bp361	Blood pressure QTL 361		0.001	arterial blood pressure trait (VT:2000000)	mean arterial blood pressure (CMO:0000009)	1	66023617	118608521	Rat
631495	Bp96	Blood pressure QTL 96	4.52		arterial blood pressure trait (VT:2000000)	systolic blood pressure (CMO:0000004)	1	22340647	102268831	Rat
70225	Bp58	Blood pressure QTL 58	3.3		arterial blood pressure trait (VT:2000000)	systolic blood pressure (CMO:0000004)	1	32356093	162846471	Rat
631512	Scl6	Serum cholesterol level QTL 6	9.6		blood cholesterol amount (VT:0000180)	serum total cholesterol level (CMO:0000363)	1	72197680	90508767	Rat
2298545	Neuinf8	Neuroinflammation QTL 8	4.6		nervous system integrity trait (VT:0010566)	spinal cord beta-2 microglobulin mRNA level (CMO:0002125)	1	57336763	151090257	Rat
2313072	Bss53	Bone structure and strength QTL 53	4.3	0.0001	tibia length (VT:0004357)	tibia length (CMO:0000450)	1	43284731	118944897	Rat
10059597	Bp377	Blood pressure QTL 377	3.42	0.025	arterial blood pressure trait (VT:2000000)	systolic blood pressure (CMO:0000004)	1	32737458	199368955	Rat
2313078	Bss54	Bone structure and strength QTL 54	3.5	0.0001	tibia area (VT:1000281)	tibia midshaft cross-sectional area (CMO:0001717)	1	43284731	118944897	Rat
1549903	Bp267	Blood pressure QTL 267			arterial blood pressure trait (VT:2000000)	systolic blood pressure (CMO:0000004)	1	77876254	106047988	Rat
2313083	Bmd74	Bone mineral density QTL 74	4	0.0001	tibia mineral mass (VT:1000283)	total volumetric bone mineral density (CMO:0001728)	1	82174743	118944897	Rat
2313402	Anxrr24	Anxiety related response QTL 24			aggression-related behavior trait (VT:0015014)	tameness/aggressiveness composite score (CMO:0002136)	1	48963584	144267916	Rat
4889494	Scort2	Serum corticosterone level QTL 2	4.2		blood corticosterone amount (VT:0005345)	plasma corticosterone level (CMO:0001173)	1	80592172	125592172	Rat
61342	Bp27	Blood pressure QTL 27	3.4	0.0006	arterial blood pressure trait (VT:2000000)	systolic blood pressure (CMO:0000004)	1	56732668	98773277	Rat
1300172	Bp172	Blood pressure QTL 172	3.56		arterial blood pressure trait (VT:2000000)	diastolic blood pressure (CMO:0000005)	1	32737273	90665040	Rat
61344	Bp29	Blood pressure QTL 29	7.5		arterial blood pressure trait (VT:2000000)	systolic blood pressure (CMO:0000004)	1	78350581	123350581	Rat
1358192	Ept13	Estrogen-induced pituitary tumorigenesis QTL 13	3.4		pituitary gland mass (VT:0010496)	pituitary gland wet weight (CMO:0000853)	1	77494165	122494165	Rat
2313094	Bss58	Bone structure and strength QTL 58	3.7	0.0001	tibia strength trait (VT:1000284)	tibia total energy absorbed before break (CMO:0001736)	1	43284731	118944897	Rat
6903308	Scl36	Serum cholesterol QTL 36	2	0.0125	blood cholesterol amount (VT:0000180)	plasma total cholesterol level (CMO:0000585)	1	53863041	90532583	Rat
2300164	Bmd44	Bone mineral density QTL 44	5.4	0.0001	lumbar vertebra mineral mass (VT:0010511)	volumetric bone mineral density (CMO:0001553)	1	56949932	101949932	Rat
2313099	Bss56	Bone structure and strength QTL 56	2.4	0.0001	tibia size trait (VT:0100001)	tibia midshaft endosteal cross-sectional area (CMO:0001716)	1	43284731	118944897	Rat
2313098	Bmd70	Bone mineral density QTL 70	3.6	0.0001	tibia mineral mass (VT:1000283)	compact volumetric bone mineral density (CMO:0001730)	1	43284731	118944897	Rat
738022	Anxrr13	Anxiety related response QTL 13	4.6	0.00039	locomotor behavior trait (VT:0001392)	measurement of voluntary locomotion into, out of, or within a discrete space in an open field apparatus (CMO:0001514)	1	83547917	128547917	Rat
152025249	Scl82	Serum cholesterol level QTL 82	4.77		blood cholesterol amount (VT:0000180)		1	50343510	99980958	Rat
10054135	Gmadr2	Adrenal mass QTL 2	1.97	0.0129	adrenal gland mass (VT:0010420)	both adrenal glands wet weight (CMO:0000164)	1	77857876	122857876	Rat
7411712	Strs4	Sensitivity to stroke QTL 4	8.7		cerebrum integrity trait (VT:0010549)	percentage of study population developing cerebrovascular lesions during a period of time (CMO:0000932)	1	78430536	123430536	Rat
2313051	Bss57	Bone structure and strength QTL 57	3.7	0.0001	tibia strength trait (VT:1000284)	bone polar moment of inertia (CMO:0001558)	1	43284731	118944897	Rat
61433	Cia2	Collagen induced arthritis QTL 2	5		joint integrity trait (VT:0010548)	joint inflammation composite score (CMO:0000919)	1	78430754	91209302	Rat

RH141681

Rat Assembly	Chr	Position (strand)	Source	JBrowse
mRatBN7.2	1	86,863,362 - 86,863,571 (+)	MAPPER	mRatBN7.2
Rnor_6.0	1	90,098,573 - 90,098,781	NCBI	Rnor6.0
Rnor_5.0	1	91,242,176 - 91,242,384	UniSTS	Rnor5.0
RGSC_v3.4	1	86,693,997 - 86,694,205	UniSTS	RGSC3.4
Celera	1	81,229,593 - 81,229,801	UniSTS
RH 3.4 Map	1	854.8	UniSTS
Cytogenetic Map	1	q21	UniSTS

AA894064

Rat Assembly	Chr	Position (strand)	Source	JBrowse
mRatBN7.2	1	86,862,197 - 86,862,308 (+)	MAPPER	mRatBN7.2
Rnor_6.0	1	90,097,408 - 90,097,518	NCBI	Rnor6.0
Rnor_5.0	1	91,241,011 - 91,241,121	UniSTS	Rnor5.0
RGSC_v3.4	1	86,692,832 - 86,692,942	UniSTS	RGSC3.4
Celera	1	81,228,428 - 81,228,538	UniSTS
RH 3.4 Map	1	871.2	UniSTS
Cytogenetic Map	1	q21	UniSTS

RH124518

Rat Assembly	Chr	Position (strand)	Source	JBrowse
mRatBN7.2	1	86,864,127 - 86,864,323 (+)	MAPPER	mRatBN7.2
Rnor_6.0	1	90,099,338 - 90,099,533	NCBI	Rnor6.0
Rnor_5.0	1	91,242,941 - 91,243,136	UniSTS	Rnor5.0
RGSC_v3.4	1	86,694,762 - 86,694,957	UniSTS	RGSC3.4
Celera	1	81,230,358 - 81,230,553	UniSTS
Cytogenetic Map	1	q21	UniSTS

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

alimentary part of gastrointestinal system	appendage	circulatory system	ectoderm	endocrine system	endoderm	exocrine system	hemolymphoid system	hepatobiliary system	integumental system	mesenchyme	mesoderm	nervous system	renal system	reproductive system	respiratory system
9	11	49	113	91	90	59	25	59	6	218	97	93	45	60	31


RefSeq Transcripts	NM_001271233	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_006228848	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_006228850	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_006228851	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_008759155	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_008759156	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_008759157	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_008759158	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_039111613	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_063261647	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_063261650	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_063261654	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_063261655	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	XM_063261657	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
GenBank Nucleotide	CH473979	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	FQ221885	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	FQ223021	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles
	JAXUCZ010000001	(Get FASTA)	NCBI Sequence Viewer	Search GEO for Microarray Profiles

Ensembl Acc Id:

ENSRNOT00000028688 ⟹ ENSRNOP00000028688

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
mRatBN7.2 Ensembl	1	86,863,071 - 86,914,115 (-)	Ensembl
Rnor_6.0 Ensembl	1	90,098,387 - 90,151,405 (-)	Ensembl

Ensembl Acc Id:

ENSRNOT00000076419 ⟹ ENSRNOP00000068202

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
mRatBN7.2 Ensembl	1	86,912,481 - 86,939,687 (-)	Ensembl
Rnor_6.0 Ensembl	1	90,148,362 - 90,176,105 (-)	Ensembl

Ensembl Acc Id:

ENSRNOT00000076987 ⟹ ENSRNOP00000067998

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
mRatBN7.2 Ensembl	1	86,862,121 - 86,914,436 (-)	Ensembl
Rnor_6.0 Ensembl	1	90,097,334 - 90,149,991 (-)	Ensembl

RefSeq Acc Id:

NM_001271233 ⟹ NP_001258162

RefSeq Status:

VALIDATED

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,051,620 (-)	NCBI
mRatBN7.2	1	86,862,121 - 86,914,436 (-)	NCBI
Rnor_6.0	1	90,097,331 - 90,150,317 (-)	NCBI
Rnor_5.0	1	91,240,934 - 91,318,702 (-)	NCBI
Celera	1	81,228,351 - 81,280,659 (-)	NCBI

Sequence:

show sequence

TTATGAATACATCTGTGCTTTCTTGCTTCAGACTTTACAACTGCAGGCCAACCCAGTCTGGAAGCACTTTTTATTAATGTTACAAGGAAACCGCTACCTCAGCAAACAAAAGAAAAGAGAAGACACAC
AGTAACAAATGCCATGTTTAAAGAACACTTGTTCCCAGAAACCTTGCAGGAGATTTGGAAGTTTTTAGCACTGAGAAGAAGCTTTCCAGGTAAATGGATTTGACAGGCAGGCTCTGTCAGAATTCTGC
AGAGGTGTGTTCTTCCTTAAGGACTTCCCGTGAAGTAACCCCTTCCGCCTAAATGCTGTTGACCAGCTGGGGTCCTTTTTGGTATATAAAAGATACATTATATTACATTTTAAAAGTTAAGTTATTTT
TCTGCCATTGTAAATGTAAGTATCAAAATATTCTTGCAAAGCAATTATAAATAAACATTTTCCTCAGCAAGCATATCTTCATCGAGGGTAGGATGCTGAACAGTTACAGAGCATTTTGGACACTGTTA
TTTTTTGTTAGAGTTCCTACCCACACTGAAAATATTAATTATATAAATCTGTTATTTTTCTCACCTTTATGTTGGATCACATGGTCACCTGCCTCATGGAAATAACTTTTTTAAAACTTAGATTTGCA
GAACTCCACTATTTTTATACCTAGCCACAGTTTTGGAAAAAAGGACTCAGAGCGCTGACCTGCCAGTGGTCCCTGGGACAGTTTCCCACCCGCATGTATTGCTGCAGTGCCCAGGACAGTAAGATGGA
CTACAAGCGGCGCTTCCTGCTTGGCGGGTCCAAGCAGAAGGTGCAGCAGCACCAGCAGTACCCGATGCCTGAGCTAGGCCGAGCACTGAGTGCGCCTTTGGCGTCCACGGCCCCCTCTGCTCCGCTGG
GCAGTCTGACCACTGCAGGCAGCTGCCACCATGCCATGCCCCACTCTACTCCCATTGCTGACATCCAGCAGGGCATCTCTAAGTACCTGGATGCCCTCAATGTCTTTTGCCGTGCTAGTACGTTCCTC
ACAGATCTCTTCAGCACCGTGTTCAGGAACTCACACTACTCAAAGGCTGCTATGCAGCTCAAAGACGTGCAGGAGCATGTAATGGAAGCAGCCAGCAGGTTGACCTCAGCCATAAAGCCCGAGATTGC
CAAGATGCTCATGGAACTCAGTGCTGGGGCTGCAAACTTCACAGATCAGAAGGAATTCAGTCTCCAGGACATTGAGGTGTTGGGGCGATGTTTCTTGACAGTGGTGCAAGTCCATTTCCAGTTTTTGA
CTCACGCCTTACAGAAAGTCCAGCCAGTGGCTCACTCTTGCTTTGCAGAGGTAGTTGTGCCAGAAAAAAAGAACAGCAGTAGTCTGTCTGGCATGGGCCACACACCCGAACTGGAGGAAGCTGTGCGA
TCCTGGCGAGGGGCTGCTGAGGCGACATCTAGATTAAGAGAGAGAGGCTGCGATGGACGACTGGCGGGAATAGAAGTCCAACAACTCTTTTGTTCTCAAAGTGCAGCAATTCCTGAGCACCAGCTAAA
AGAGCTAAACTTAAAAATTGACAGTGCTTTGCAGGCATATAAAATAGCTTTGGAAAGCTTAGGCCACTGTGAATATGCAATGAAAGCTGGCTTCCACCTAAACCCAAAGGCCATTGAAGCAAGTTTGC
AGGGCTGCTGTAGTGAGGCGGAAGCTCAGCAGACGGGGCGAAGGCAGACACCCCCACAGCCTATGCAGTGTGAGCTCCCCACGGTCCCTGTGCAAATAGGATCACATTTCCTGAAGGGGGTCTCCTTT
AATGAGTCGGCTGCTGACAATCTGAAGCTTAAGACGCATACCATGTTCCAGCTCATCAAGGAAGCGGGCTGCTACGATGGAATCACACCTAGGGACGACCTTCCTGTGACTGAAGTCCTGAATCAGGT
GTGCCCGTCCACGTGGCGGGGCGCCTGTAAGACTGCCGTGCAGCTGCTGTTTGGCCAGGCTGGGCTGGTAGTTGTTGACACAGCACAGATTGAAAATAAAGAAGCCTATGCACCCCAGATCAGTCTTG
AAGGCTCCAGAATTGTGGTTCAAGTCCCATCCACATGGTGCCTGAAGGAAGACCCTGCCACCATGTCCCTGTTGCAGAGAAGCCTGGATCCTGAGAAGACCCTCGGTCTGGTGGATGTACTCTATACA
GCCGTGCTGGACCTAAACCGCTGGAGAACAGGGAGGGAACAGGCTTTACCCTGTATACAGATCCAGCTGCAAAGGGATATCTGTGATTTTGGGAATCAGGCTGACCTGCCATCTGGAAATGGAAGCAA
ATCCTCAGGCCTGCAGAAGACTTTCTCCAAACTGACATCCCGGTTCACAAAGAAAGTGTCATGCACCAACTCCGGCAGCACACACTATTCCAAAACCATCTTCACAGCTGGTTGTTCAGAGGAGAAGG
CCAAAATGCTCGGCAGTAACATTGATACACGGTTACAGAGCATTTTGAACATTGGTAACTTTCCTAGGACTACAGACCCTTCACAGTCATCTCAGAACTCCAGGAATCCAATGGTCAATGGCTTTCTC
CTGGAGAGACGTGAGAACTTCCTGCATGGGGACGATGGCAAGGATGAGAAGGGCATGAACTTACCCACTGATCAGGAAATGCAGGAAGTGATAGATTTTCTCTCAGGCTTTAACATGGGCCAGTCCCA
TCAGGGGTCCCCACTGGTGACAAGGCGCAACTCTACTGCCACTGCCATGGTGACTGAGCAGAAGACAGGAACCATGCAACCACAGCAGCCATCACTGCCGTTGGCCCCTCCACTACGGCCACCCCAGG
CTGGAGCACACACGCCTCTGGCAGCCCAGCAAGGTCTGGCTCCTCAGCAGCAGTCCCCAAAGCAGCAGCAGCCCCAAGTCCAGTTCTACCAGCACCTGCTGCAACCCATTGGATCACAGCAGACGCCA
CCCCAGTCCCGGGCGCCTGGTAAATGGGGACATGGCTCATCTCAGCACCCATCACAGCCCATGGCAGCGGGTCTGTCTCCTCTTGGTCAGTGGCCTGGCATATCTGATCTCAGCTCTGACTTGTACAG
CTTGGGTCTAGTGAGCAGCTATATGGACAATATGATGTCAGAAGTTTTGGGACAGAAGCCACAGGGACCTAGGAATAACACCTGGCCAAATCGTGACCAAAGTGATGGAGTCTTTGGAATGCTGGGAG
AGATTTTGCCTTTTGATCCTGCAGTGGGCTCAGACCCAGAGTTCGCACGCTACGTGGCAGGAGTGAGCCAGGCAATGCAGCAGAAGCGGCAAGCCCAACATGGCCGCCGGCCAGGCAACCCCCGGGGC
AACTGGCCGCCCATGGATGATGCTCATCGGACCTGGCCTTTGCCAGAGTTCTTTACAGAAGGGGACAGCCTGCACAGTGGCTGGTCAGGTGCTCAGGGAGACTCGGCCAGCTCCAGTGATGAGACCTC
TTCAGCCAATGGGGACAGCCTGTTTTCCATGTTTTCAGGGCCTGACCTTGTTGCTGCTGTCAAACAGAGAAGGAAACACAGCAGTGGAGAGCAGGAGACCAGCACACTGCCCTCACCACCTCTCCTGA
CCACAGTGGAGGATGTGAACCAGGATAACAAAACCAAAACGTGGCCACCCAAAGCACCATGGCAGCACCCTTCCCCGCTGCCCAGCACGCTGCCCAGCCCAGCTGCACCACTCTATGCAGTTGCCAGT
CCTGGCAGCCAGTGGAATGACACCATGCAGATGCTGCAGTCCCCTGTGTGGGCTGCAGCCAGTGACTGCAATACCACCTCCTTCACCTATGTTCAGACACCACCACAGCCCCCACCTCCACCAGCACA
TAAGGCAGCACCCAAGGGCTTCAAGGCCTTCCCTGGGAAGGCTGAACGGAGGCCAGCCTATTTGCCCCAGTACTGACCACAGCTAGCCTGCTGCCCATCAAAGCTTTGGGGCAACTGTCCCCAGGGCT
AACTAGCTGATACTAGCCCCCAGAAGGACCAGTGCACCCTGCCCCAGGGACAGAAATAATCCTTGGGTCAGAAGTGATTGGCAGCTCCAAGTCTTTGAGGCCTGCTTTCTCAAACTTTGAAGGTAGCA
GACCCCTGGGAGGCAGCTGAAGATGGAGATTTCTGACACTCAGGGGATGCTGGCAGTCTATATTTGTTTAATAAGCACCTCAGATAATCCTGGTGCGGGTGGCCAAAGGCCACACTTGGGAAAACACA
GTCTGAAGGTTGTCAGTCCTGCATGTGGGAAAGGCATGAGGCCTGCAGGCTGAGAACAAAACTGACCATTCTTTGAAGCTCTCTCCTCTTTAACATACTGAGTGGGACCCACACCCATCACTGATTTT
ATAGATATTTCTCATGTAGGCTTTCACTTAAAAACGTCTCCTGCCTAAAATGCAGTGGTATCTTAAGATCCCAGGTACACTGGCTGGAGGTTACTTAGCTCAGCACTGTCTTTGGTTAAGCTTAGACA
AGATGCTAGTGATCAGAAGCAGCCCTCTGGCTTCCCATGGCCGGTAGCTCCTCTGAAGTGCACAGGGGTGCAGGTTCATGTAATTCACAGAGCAGGACTGGGAACTGCTGTCAGCATATTCTGGCTGC
CCGCCCGCCCAGGGGGTGCAGCTGGTGCATGCCGAGTGCAGCGTGAAGCTGCAGCCGCTGCCCTCATTTCTTTTTTTTCACCATGACCAGGGCAGCACTAGCACCATGCTCCTCGACGGAAGGGACTG
GGAGGGGAGGGACTGCACCAAGACCCCCACACTCAGAACCACAGTGACATTTGTGAGCTGGCTCAAAGACAAAGGAATTATGGTGTAGACAGGAATTCAAAATCTTTGTTTAGTCACCAACAAAAAAA
ACCTCACTTTTAGTTAACATGTGCCATTAAACAAATGACACTCCGTGGGTTTGGGGAGATTTTCCAGCTAGGATGGATCCAGAATAATTGAATGGTGCTTAAATTGAGAAATAATAAATATATCTATA
TAGAGTAGACATTTCCCACTATATATTAATTGAGGTTGCATAAAGTTCTTTATATAAAACTTATTTAAAATTTTCATATTTCATCTTTGAAAATGTCTAATTGAGAAAAATTCATGATATTTTCTGGT
ATGAAAGTTTGACAGTATTAATTTTTTTATATTTTCTTAAATCATTAAACCATTTTAATATATGTTAACTACTAATAAATGGTTTATTCTTTCTAACTCCATGTAAGCTTTTCCAACGAAGATTGTAA
TAACACATTTATGTTCTCATTTTTCTACAGATAAATTTATATTTAAAAATACCAAAAAAACCCCTATGTATACACACCACACATGCACACACACATTCACACACAAGAAAATTATTGAGGACCTGTAG
GGTGTCTGAGCCCAGCCACCTGCGTCTTTAGTACTGTGTCTCTAGGCTGCCTGAGGCCTCAGCTGTTGTCATTCATGCTGTGGGTGCCATGTCTGCCTGTACTGACGATCCTTCTCAGTGGCTTCGGA
ATATTCACCTCACCATGTTTACAGAGAACTATTTTGTATATAGAGTTTTCCAGGCACGTACTTTGCACCAACCCTGCGTGGCTGCTGTCTGTGTTAGCTGTCACAGTGTGCACACTAATCTGTTCAAA
GTTCTTGTGGCTGTTTTACTTGTAAAAACTTTCTATTTCCTTCAGTAATGTGTCCACAGTGCCCTGTGTTTCGAGTTCTAGTCTACTGCAGTACTCTCATTGTCATAGTGCCTCCCTGAAGACCTCAC
CCTGGGCCAAGGTCGCTCCTCGGTGCCCCAGCACAGGTGACACTGCTAATTGTCATCTCTGGTCTGTTTTTCTCTATTAAGGACAACGTTTTGTCTCTGTGGCTGTGAGACTGTGTGAATCGGTTTGT
GTGGTCTCCACGTAGGTGCTGTCCGCACACCACCTGCTCTAAACACTGGTAATTCCAGGTGCTGCGCTTGGCAGAGGCATCTCTCCAAAGCGCATGTATGTGTGAGTGTCCTTAGCACGGCCAAGCAT
GGCTGCCTTGCTCGGCATCAGCAGGACATCATGTGACTAGTTGTGACCTTCCAAACTGGAACTCTACATTTTGTATCTTACTTTTAAAGCTCCTATAAGTAAAATAACTTGGCTTTATTAAAATATAC
ATTTAATAATA

hide sequence

RefSeq Acc Id:

XM_006228850 ⟹ XP_006228912

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,076,850 (-)	NCBI
mRatBN7.2	1	86,862,123 - 86,939,676 (-)	NCBI
Rnor_6.0	1	90,097,333 - 90,176,111 (-)	NCBI
Rnor_5.0	1	91,240,934 - 91,318,702 (-)	NCBI

Sequence:

show sequence

GACGTCACTTCCGGTGTACACAGCCGGTCCGGGCGGTGCGCCGGGAGCCGGGGCGCGTCGCAGG
TGAGGAAATGACTTAGAGGCCTTATGAATACATCTGTGCTTTCTTGCTTCAGACTTTACAACTGCAGGCCAACCCAGTCTGGAAGCACTTTTTATTAATGTTACAAGGAAACCGCTACCTCAGCAAAC
AAAAGAAAAGAGAAGACACACAGTAACAAATGCCATGTTTAAAGAACACTTGTTCCCAGAAACCTTGCAGGAGATTTGGAAGTTTTTAGCACTGAGAAGAAGCTTTCCAGGTAAATGGATTTGACAGG
CAGGCTCTGTCAGAATTCTGCAGAGGTGTGTTCTTCCTTAAGGACTTCCCGTGAAGTAACCCCTTCCGCCTAAATGCTGTTGACCAGCTGGGGTCCTTTTTGGTATATAAAAGATACATTATATTACA
TTTTAAAAGTTAAGTTATTTTTCTGCCATTGTAAATGTAAGTATCAAAATATTCTTGCAAAGCAATTATAAATAAACATTTTCCTCAGCAAGCATATCTTCATCGAGGGTAGGATGCTGAACAGTTAC
AGAGCATTTTGGACACTGTTATTTTTTGTTAGAGTTCCTACCCACACTGAAAATATTAATTATATAAATCTGTTATTTTTCTCACCTTTATGTTGGATCACATGGTCACCTGCCTCATGGAAATAACT
TTTTTAAAACTTAGATTTGCAGAACTCCACTATTTTTATACCTAGCCACAGTTTTGGAAAAAAGGACTCAGAGCGCTGACCTGCCAGTGGTCCCTGGGACAGTTTCCCACCCGCATGTATTGCTGCAG
TGCCCAGGACAGTAAGATGGACTACAAGCGGCGCTTCCTGCTTGGCGGGTCCAAGCAGAAGGTGCAGCAGCACCAGCAGTACCCGATGCCTGAGCTAGGCCGAGCACTGAGTGCGCCTTTGGCGTCCA
CGGCCCCCTCTGCTCCGCTGGGCAGTCTGACCACTGCAGGCAGCTGCCACCATGCCATGCCCCACTCTACTCCCATTGCTGACATCCAGCAGGGCATCTCTAAGTACCTGGATGCCCTCAATGTCTTT
TGCCGTGCTAGTACGTTCCTCACAGATCTCTTCAGCACCGTGTTCAGGAACTCACACTACTCAAAGGCTGCTATGCAGCTCAAAGACGTGCAGGAGCATGTAATGGAAGCAGCCAGCAGGTTGACCTC
AGCCATAAAGCCCGAGATTGCCAAGATGCTCATGGAACTCAGTGCTGGGGCTGCAAACTTCACAGATCAGAAGGAATTCAGTCTCCAGGACATTGAGGTGTTGGGGCGATGTTTCTTGACAGTGGTGC
AAGTCCATTTCCAGTTTTTGACTCACGCCTTACAGAAAGTCCAGCCAGTGGCTCACTCTTGCTTTGCAGAGGTAGTTGTGCCAGAAAAAAAGAACAGCAGTAGTCTGTCTGGCATGGGCCACACACCC
GAACTGGAGGAAGCTGTGCGATCCTGGCGAGGGGCTGCTGAGGCGACATCTAGATTAAGAGAGAGAGGCTGCGATGGACGACTGGCGGGAATAGAAGTCCAACAACTCTTTTGTTCTCAAAGTGCAGC
AATTCCTGAGCACCAGCTAAAAGAGCTAAACTTAAAAATTGACAGTGCTTTGCAGGCATATAAAATAGCTTTGGAAAGCTTAGGCCACTGTGAATATGCAATGAAAGCTGGCTTCCACCTAAACCCAA
AGGCCATTGAAGCAAGTTTGCAGGGCTGCTGTAGTGAGGCGGAAGCTCAGCAGACGGGGCGAAGGCAGACACCCCCACAGCCTATGCAGTGTGAGCTCCCCACGGTCCCTGTGCAAATAGGATCACAT
TTCCTGAAGGGGGTCTCCTTTAATGAGTCGGCTGCTGACAATCTGAAGCTTAAGACGCATACCATGTTCCAGCTCATCAAGGAAGCGGGCTGCTACGATGGAATCACACCTAGGGACGACCTTCCTGT
GACTGAAGTCCTGAATCAGGTGTGCCCGTCCACGTGGCGGGGCGCCTGTAAGACTGCCGTGCAGCTGCTGTTTGGCCAGGCTGGGCTGGTAGTTGTTGACACAGCACAGATTGAAAATAAAGAAGCCT
ATGCACCCCAGATCAGTCTTGAAGGCTCCAGAATTGTGGTTCAAGTCCCATCCACATGGTGCCTGAAGGAAGACCCTGCCACCATGTCCCTGTTGCAGAGAAGCCTGGATCCTGAGAAGACCCTCGGT
CTGGTGGATGTACTCTATACAGCCGTGCTGGACCTAAACCGCTGGAGAACAGGGAGGGAACAGGCTTTACCCTGTATACAGATCCAGCTGCAAAGGGATATCTGTGATTTTGGGAATCAGGCTGACCT
GCCATCTGGAAATGGAAGCAAATCCTCAGGCCTGCAGAAGACTTTCTCCAAACTGACATCCCGGTTCACAAAGAAAGTGTCATGCACCAACTCCGGCAGCACACACTATTCCAAAACCATCTTCACAG
CTGGTTGTTCAGAGGAGAAGGCCAAAATGCTCGGCAGTAACATTGATACACGGTTACAGAGCATTTTGAACATTGGTAACTTTCCTAGGACTACAGACCCTTCACAGTCATCTCAGAACTCCAGGAAT
CCAATGGTCAATGGCTTTCTCCTGGAGAGACGTGAGAACTTCCTGCATGGGGACGATGGCAAGGATGAGAAGGGCATGAACTTACCCACTGATCAGGAAATGCAGGAAGTGATAGATTTTCTCTCAGG
CTTTAACATGGGCCAGTCCCATCAGGGGTCCCCACTGGTGACAAGGCGCAACTCTACTGCCACTGCCATGGTGACTGAGCAGAAGACAGGAACCATGCAACCACAGCAGCCATCACTGCCGTTGGCCC
CTCCACTACGGCCACCCCAGGCTGGAGCACACACGCCTCTGGCAGCCCAGCAAGGTCTGGCTCCTCAGCAGCAGTCCCCAAAGCAGCAGCAGCCCCAAGTCCAGTTCTACCAGCACCTGCTGCAACCC
ATTGGATCACAGCAGACGCCACCCCAGTCCCGGGCGCCTGGTAAATGGGGACATGGCTCATCTCAGCACCCATCACAGCCCATGGCAGCGGGTCTGTCTCCTCTTGGTCAGTGGCCTGGCATATCTGA
TCTCAGCTCTGACTTGTACAGCTTGGGTCTAGTGAGCAGCTATATGGACAATATGATGTCAGAAGTTTTGGGACAGAAGCCACAGGGACCTAGGAATAACACCTGGCCAAATCGTGACCAAAGTGATG
GAGTCTTTGGAATGCTGGGAGAGATTTTGCCTTTTGATCCTGCAGTGGGCTCAGACCCAGAGTTCGCACGCTACGTGGCAGGAGTGAGCCAGGCAATGCAGCAGAAGCGGCAAGCCCAACATGGCCGC
CGGCCAGGCAACCCCCGGGGCAACTGGCCGCCCATGGATGATGCTCATCGGACCTGGCCTTTGCCAGAGTTCTTTACAGAAGGGGACAGCCTGCACAGTGGCTGGTCAGGTGCTCAGGGAGACTCGGC
CAGCTCCAGTGATGAGACCTCTTCAGCCAATGGGGACAGCCTGTTTTCCATGTTTTCAGGGCCTGACCTTGTTGCTGCTGTCAAACAGAGAAGGAAACACAGCAGTGGAGAGCAGGAGACCAGCACAC
TGCCCTCACCACCTCTCCTGACCACAGTGGAGGATGTGAACCAGGATAACAAAACCAAAACGTGGCCACCCAAAGCACCATGGCAGCACCCTTCCCCGCTGCCCAGCACGCTGCCCAGCCCAGCTGCA
CCACTCTATGCAGTTGCCAGTCCTGGCAGCCAGTGGAATGACACCATGCAGATGCTGCAGTCCCCTGTGTGGGCTGCAGCCAGTGACTGCAATACCACCTCCTTCACCTATGTTCAGACACCACCACA
GCCCCCACCTCCACCAGCACATAAGGCAGCACCCAAGGGCTTCAAGGCCTTCCCTGGGAAGGCTGAACGGAGGCCAGCCTATTTGCCCCAGTACTGACCACAGCTAGCCTGCTGCCCATCAAAGCTTT
GGGGCAACTGTCCCCAGGGCTAACTAGCTGATACTAGCCCCCAGAAGGACCAGTGCACCCTGCCCCAGGGACAGAAATAATCCTTGGGTCAGAAGTGATTGGCAGCTCCAAGTCTTTGAGGCCTGCTT
TCTCAAACTTTGAAGGTAGCAGACCCCTGGGAGGCAGCTGAAGATGGAGATTTCTGACACTCAGGGGATGCTGGCAGTCTATATTTGTTTAATAAGCACCTCAGATAATCCTGGTGCGGGTGGCCAAA
GGCCACACTTGGGAAAACACAGTCTGAAGGTTGTCAGTCCTGCATGTGGGAAAGGCATGAGGCCTGCAGGCTGAGAACAAAACTGACCATTCTTTGAAGCTCTCTCCTCTTTAACATACTGAGTGGGA
CCCACACCCATCACTGATTTTATAGATATTTCTCATGTAGGCTTTCACTTAAAAACGTCTCCTGCCTAAAATGCAGTGGTATCTTAAGATCCCAGGTACACTGGCTGGAGGTTACTTAGCTCAGCACT
GTCTTTGGTTAAGCTTAGACAAGATGCTAGTGATCAGAAGCAGCCCTCTGGCTTCCCATGGCCGGTAGCTCCTCTGAAGTGCACAGGGGTGCAGGTTCATGTAATTCACAGAGCAGGACTGGGAACTG
CTGTCAGCATATTCTGGCTGCCCGCCCGCCCAGGGGGTGCAGCTGGTGCATGCCGAGTGCAGCGTGAAGCTGCAGCCGCTGCCCTCATTTCTTTTTTTTCACCATGACCAGGGCAGCACTAGCACCAT
GCTCCTCGACGGAAGGGACTGGGAGGGGAGGGACTGCACCAAGACCCCCACACTCAGAACCACAGTGACATTTGTGAGCTGGCTCAAAGACAAAGGAATTATGGTGTAGACAGGAATTCAAAATCTTT
GTTTAGTCACCAACAAAAAAAACCTCACTTTTAGTTAACATGTGCCATTAAACAAATGACACTCCGTGGGTTTGGGGAGATTTTCCAGCTAGGATGGATCCAGAATAATTGAATGGTGCTTAAATTGA
GAAATAATAAATATATCTATATAGAGTAGACATTTCCCACTATATATTAATTGAGGTTGCATAAAGTTCTTTATATAAAACTTATTTAAAATTTTCATATTTCATCTTTGAAAATGTCTAATTGAGAA
AAATTCATGATATTTTCTGGTATGAAAGTTTGACAGTATTAATTTTTTTATATTTTCTTAAATCATTAAACCATTTTAATATATGTTAACTACTAATAAATGGTTTATTCTTTCTAACTCCATGTAAG
CTTTTCCAACGAAGATTGTAATAACACATTTATGTTCTCATTTTTCTACAGATAAATTTATATTTAAAAATACCAAAAAAACCCCTATGTATACACACCACACATGCACACACACATTCACACACAAG
AAAATTATTGAGGACCTGTAGGGTGTCTGAGCCCAGCCACCTGCGTCTTTAGTACTGTGTCTCTAGGCTGCCTGAGGCCTCAGCTGTTGTCATTCATGCTGTGGGTGCCATGTCTGCCTGTACTGACG
ATCCTTCTCAGTGGCTTCGGAATATTCACCTCACCATGTTTACAGAGAACTATTTTGTATATAGAGTTTTCCAGGCACGTACTTTGCACCAACCCTGCGTGGCTGCTGTCTGTGTTAGCTGTCACAGT
GTGCACACTAATCTGTTCAAAGTTCTTGTGGCTGTTTTACTTGTAAAAACTTTCTATTTCCTTCAGTAATGTGTCCACAGTGCCCTGTGTTTCGAGTTCTAGTCTACTGCAGTACTCTCATTGTCATA
GTGCCTCCCTGAAGACCTCACCCTGGGCCAAGGTCGCTCCTCGGTGCCCCAGCACAGGTGACACTGCTAATTGTCATCTCTGGTCTGTTTTTCTCTATTAAGGACAACGTTTTGTCTCTGTGGCTGTG
AGACTGTGTGAATCGGTTTGTGTGGTCTCCACGTAGGTGCTGTCCGCACACCACCTGCTCTAAACACTGGTAATTCCAGGTGCTGCGCTTGGCAGAGGCATCTCTCCAAAGCGCATGTATGTGTGAGT
GTCCTTAGCACGGCCAAGCATGGCTGCCTTGCTCGGCATCAGCAGGACATCATGTGACTAGTTGTGACCTTCCAAACTGGAACTCTACATTTTGTATCTTACTTTTAAAGCTCCTATAAGTAAAATAA
CTTGGCTTTATTAAAATATACATTTAATAA

hide sequence

RefSeq Acc Id:

XM_006228851 ⟹ XP_006228913

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,076,561 (-)	NCBI
mRatBN7.2	1	86,862,123 - 86,939,619 (-)	NCBI
Rnor_6.0	1	90,097,333 - 90,176,037 (-)	NCBI
Rnor_5.0	1	91,240,934 - 91,318,702 (-)	NCBI

Sequence:

show sequence

GCGCCCGCCGGCGCGGGTCGGCGGGCACTGGCTGAGGGTGGCGGGCGGCGAGTCGCAAGAGCGA
CTGGCATCGAGGCGAGCTCGCGGGGTGCCGCTTTCCTCGGCGCCGTCCCTCTCCCGCCTGCTGGGAGGACGCCGAGCTCGGCGGGCGCTGGCCGGGCGGACGGGAGCCTGGAGGGGCCTCTCGGCGCG
CGCCCGGGACTGAGACCCTGAGGGGCGCGTCCGCTCTGAAGGACGCGGCTGCCTTGGGCCGCCGCGGGGGATCCGTTCCCGGAAGCTCGCGGCACCGTGCGCCAAGGGCTAGCGGCCTGTGGGCGACC
TGGGTCCACGGGCACAGGCGGGCGCCGCTGCCCTCAGGCCGCCCCGCGGCTGCCGGGCCCGCCGCGCGCCCCTTCCTAGCTCTCGTTGAGCCCGTGGGCGCGGCGGGGGTCAGTGGAGGGCCCAGGCT
GGGTTAAGGCTGAGGAAGGACCCACACCCGTAGGGCGAGCGCAGGGGTCAGGGGTGTGTCTTCCTGCTCCGCGTGGAGCAGGGGAAAAAGAGCATGCCTGTTTGGCATGATAAGAATTTTGTTTATAC
TTTAACCAAAATTGCCTGGAAAACGCTTAGCCCGGGGAGCCCCCAATTTGAAAATGGATTGTCCGTGCCCTTCCACACCCATTGCCATTATGAAAGCAATTCATTCTAATGTCCTTGTAAAAAACACT
CGCAACTGTATACAAAGTGTCAGGAGGGAAAATGACCGCGGACACACCAGCTACGACTCGGTGACAACCACTGCTAACATTTTGGTGACATCAGAAATGACTTAGAGGCCTTATGAATACATCTGTGC
TTTCTTGCTTCAGACTTTACAACTGCAGGCCAACCCAGTCTGGAAGCACTTTTTATTAATGTTACAAGGAAACCGCTACCTCAGCAAACAAAAGAAAAGAGAAGACACACAGTAACAAATGCCATGTT
TAAAGAACACTTGTTCCCAGAAACCTTGCAGGAGATTTGGAAGTTTTTAGCACTGAGAAGAAGCTTTCCAGGTAAATGGATTTGACAGGCAGGCTCTGTCAGAATTCTGCAGAGGTGTGTTCTTCCTT
AAGGACTTCCCGTGAAGTAACCCCTTCCGCCTAAATGCTGTTGACCAGCTGGGGTCCTTTTTGGTATATAAAAGATACATTATATTACATTTTAAAAGTTAAGTTATTTTTCTGCCATTGTAAATGTA
AGTATCAAAATATTCTTGCAAAGCAATTATAAATAAACATTTTCCTCAGCAAGCATATCTTCATCGAGGGTAGGATGCTGAACAGTTACAGAGCATTTTGGACACTGTTATTTTTTGTTAGAGTTCCT
ACCCACACTGAAAATATTAATTATATAAATCTGTTATTTTTCTCACCTTTATGTTGGATCACATGGTCACCTGCCTCATGGAAATAACTTTTTTAAAACTTAGATTTGCAGAACTCCACTATTTTTAT
ACCTAGCCACAGTTTTGGAAAAAAGGACTCAGAGCGCTGACCTGCCAGTGGTCCCTGGGACAGTTTCCCACCCGCATGTATTGCTGCAGTGCCCAGGACAGTAAGATGGACTACAAGCGGCGCTTCCT
GCTTGGCGGGTCCAAGCAGAAGGTGCAGCAGCACCAGCAGTACCCGATGCCTGAGCTAGGCCGAGCACTGAGTGCGCCTTTGGCGTCCACGGCCCCCTCTGCTCCGCTGGGCAGTCTGACCACTGCAG
GCAGCTGCCACCATGCCATGCCCCACTCTACTCCCATTGCTGACATCCAGCAGGGCATCTCTAAGTACCTGGATGCCCTCAATGTCTTTTGCCGTGCTAGTACGTTCCTCACAGATCTCTTCAGCACC
GTGTTCAGGAACTCACACTACTCAAAGGCTGCTATGCAGCTCAAAGACGTGCAGGAGCATGTAATGGAAGCAGCCAGCAGGTTGACCTCAGCCATAAAGCCCGAGATTGCCAAGATGCTCATGGAACT
CAGTGCTGGGGCTGCAAACTTCACAGATCAGAAGGAATTCAGTCTCCAGGACATTGAGGTGTTGGGGCGATGTTTCTTGACAGTGGTGCAAGTCCATTTCCAGTTTTTGACTCACGCCTTACAGAAAG
TCCAGCCAGTGGCTCACTCTTGCTTTGCAGAGGTAGTTGTGCCAGAAAAAAAGAACAGCAGTAGTCTGTCTGGCATGGGCCACACACCCGAACTGGAGGAAGCTGTGCGATCCTGGCGAGGGGCTGCT
GAGGCGACATCTAGATTAAGAGAGAGAGGCTGCGATGGACGACTGGCGGGAATAGAAGTCCAACAACTCTTTTGTTCTCAAAGTGCAGCAATTCCTGAGCACCAGCTAAAAGAGCTAAACTTAAAAAT
TGACAGTGCTTTGCAGGCATATAAAATAGCTTTGGAAAGCTTAGGCCACTGTGAATATGCAATGAAAGCTGGCTTCCACCTAAACCCAAAGGCCATTGAAGCAAGTTTGCAGGGCTGCTGTAGTGAGG
CGGAAGCTCAGCAGACGGGGCGAAGGCAGACACCCCCACAGCCTATGCAGTGTGAGCTCCCCACGGTCCCTGTGCAAATAGGATCACATTTCCTGAAGGGGGTCTCCTTTAATGAGTCGGCTGCTGAC
AATCTGAAGCTTAAGACGCATACCATGTTCCAGCTCATCAAGGAAGCGGGCTGCTACGATGGAATCACACCTAGGGACGACCTTCCTGTGACTGAAGTCCTGAATCAGGTGTGCCCGTCCACGTGGCG
GGGCGCCTGTAAGACTGCCGTGCAGCTGCTGTTTGGCCAGGCTGGGCTGGTAGTTGTTGACACAGCACAGATTGAAAATAAAGAAGCCTATGCACCCCAGATCAGTCTTGAAGGCTCCAGAATTGTGG
TTCAAGTCCCATCCACATGGTGCCTGAAGGAAGACCCTGCCACCATGTCCCTGTTGCAGAGAAGCCTGGATCCTGAGAAGACCCTCGGTCTGGTGGATGTACTCTATACAGCCGTGCTGGACCTAAAC
CGCTGGAGAACAGGGAGGGAACAGGCTTTACCCTGTATACAGATCCAGCTGCAAAGGGATATCTGTGATTTTGGGAATCAGGCTGACCTGCCATCTGGAAATGGAAGCAAATCCTCAGGCCTGCAGAA
GACTTTCTCCAAACTGACATCCCGGTTCACAAAGAAAGTGTCATGCACCAACTCCGGCAGCACACACTATTCCAAAACCATCTTCACAGCTGGTTGTTCAGAGGAGAAGGCCAAAATGCTCGGCAGTA
ACATTGATACACGGTTACAGAGCATTTTGAACATTGGTAACTTTCCTAGGACTACAGACCCTTCACAGTCATCTCAGAACTCCAGGAATCCAATGGTCAATGGCTTTCTCCTGGAGAGACGTGAGAAC
TTCCTGCATGGGGACGATGGCAAGGATGAGAAGGGCATGAACTTACCCACTGATCAGGAAATGCAGGAAGTGATAGATTTTCTCTCAGGCTTTAACATGGGCCAGTCCCATCAGGGGTCCCCACTGGT
GACAAGGCGCAACTCTACTGCCACTGCCATGGTGACTGAGCAGAAGACAGGAACCATGCAACCACAGCAGCCATCACTGCCGTTGGCCCCTCCACTACGGCCACCCCAGGCTGGAGCACACACGCCTC
TGGCAGCCCAGCAAGGTCTGGCTCCTCAGCAGCAGTCCCCAAAGCAGCAGCAGCCCCAAGTCCAGTTCTACCAGCACCTGCTGCAACCCATTGGATCACAGCAGACGCCACCCCAGTCCCGGGCGCCT
GGTAAATGGGGACATGGCTCATCTCAGCACCCATCACAGCCCATGGCAGCGGGTCTGTCTCCTCTTGGTCAGTGGCCTGGCATATCTGATCTCAGCTCTGACTTGTACAGCTTGGGTCTAGTGAGCAG
CTATATGGACAATATGATGTCAGAAGTTTTGGGACAGAAGCCACAGGGACCTAGGAATAACACCTGGCCAAATCGTGACCAAAGTGATGGAGTCTTTGGAATGCTGGGAGAGATTTTGCCTTTTGATC
CTGCAGTGGGCTCAGACCCAGAGTTCGCACGCTACGTGGCAGGAGTGAGCCAGGCAATGCAGCAGAAGCGGCAAGCCCAACATGGCCGCCGGCCAGGCAACCCCCGGGGCAACTGGCCGCCCATGGAT
GATGCTCATCGGACCTGGCCTTTGCCAGAGTTCTTTACAGAAGGGGACAGCCTGCACAGTGGCTGGTCAGGTGCTCAGGGAGACTCGGCCAGCTCCAGTGATGAGACCTCTTCAGCCAATGGGGACAG
CCTGTTTTCCATGTTTTCAGGGCCTGACCTTGTTGCTGCTGTCAAACAGAGAAGGAAACACAGCAGTGGAGAGCAGGAGACCAGCACACTGCCCTCACCACCTCTCCTGACCACAGTGGAGGATGTGA
ACCAGGATAACAAAACCAAAACGTGGCCACCCAAAGCACCATGGCAGCACCCTTCCCCGCTGCCCAGCACGCTGCCCAGCCCAGCTGCACCACTCTATGCAGTTGCCAGTCCTGGCAGCCAGTGGAAT
GACACCATGCAGATGCTGCAGTCCCCTGTGTGGGCTGCAGCCAGTGACTGCAATACCACCTCCTTCACCTATGTTCAGACACCACCACAGCCCCCACCTCCACCAGCACATAAGGCAGCACCCAAGGG
CTTCAAGGCCTTCCCTGGGAAGGCTGAACGGAGGCCAGCCTATTTGCCCCAGTACTGACCACAGCTAGCCTGCTGCCCATCAAAGCTTTGGGGCAACTGTCCCCAGGGCTAACTAGCTGATACTAGCC
CCCAGAAGGACCAGTGCACCCTGCCCCAGGGACAGAAATAATCCTTGGGTCAGAAGTGATTGGCAGCTCCAAGTCTTTGAGGCCTGCTTTCTCAAACTTTGAAGGTAGCAGACCCCTGGGAGGCAGCT
GAAGATGGAGATTTCTGACACTCAGGGGATGCTGGCAGTCTATATTTGTTTAATAAGCACCTCAGATAATCCTGGTGCGGGTGGCCAAAGGCCACACTTGGGAAAACACAGTCTGAAGGTTGTCAGTC
CTGCATGTGGGAAAGGCATGAGGCCTGCAGGCTGAGAACAAAACTGACCATTCTTTGAAGCTCTCTCCTCTTTAACATACTGAGTGGGACCCACACCCATCACTGATTTTATAGATATTTCTCATGTA
GGCTTTCACTTAAAAACGTCTCCTGCCTAAAATGCAGTGGTATCTTAAGATCCCAGGTACACTGGCTGGAGGTTACTTAGCTCAGCACTGTCTTTGGTTAAGCTTAGACAAGATGCTAGTGATCAGAA
GCAGCCCTCTGGCTTCCCATGGCCGGTAGCTCCTCTGAAGTGCACAGGGGTGCAGGTTCATGTAATTCACAGAGCAGGACTGGGAACTGCTGTCAGCATATTCTGGCTGCCCGCCCGCCCAGGGGGTG
CAGCTGGTGCATGCCGAGTGCAGCGTGAAGCTGCAGCCGCTGCCCTCATTTCTTTTTTTTCACCATGACCAGGGCAGCACTAGCACCATGCTCCTCGACGGAAGGGACTGGGAGGGGAGGGACTGCAC
CAAGACCCCCACACTCAGAACCACAGTGACATTTGTGAGCTGGCTCAAAGACAAAGGAATTATGGTGTAGACAGGAATTCAAAATCTTTGTTTAGTCACCAACAAAAAAAACCTCACTTTTAGTTAAC
ATGTGCCATTAAACAAATGACACTCCGTGGGTTTGGGGAGATTTTCCAGCTAGGATGGATCCAGAATAATTGAATGGTGCTTAAATTGAGAAATAATAAATATATCTATATAGAGTAGACATTTCCCA
CTATATATTAATTGAGGTTGCATAAAGTTCTTTATATAAAACTTATTTAAAATTTTCATATTTCATCTTTGAAAATGTCTAATTGAGAAAAATTCATGATATTTTCTGGTATGAAAGTTTGACAGTAT
TAATTTTTTTATATTTTCTTAAATCATTAAACCATTTTAATATATGTTAACTACTAATAAATGGTTTATTCTTTCTAACTCCATGTAAGCTTTTCCAACGAAGATTGTAATAACACATTTATGTTCTC
ATTTTTCTACAGATAAATTTATATTTAAAAATACCAAAAAAACCCCTATGTATACACACCACACATGCACACACACATTCACACACAAGAAAATTATTGAGGACCTGTAGGGTGTCTGAGCCCAGCCA
CCTGCGTCTTTAGTACTGTGTCTCTAGGCTGCCTGAGGCCTCAGCTGTTGTCATTCATGCTGTGGGTGCCATGTCTGCCTGTACTGACGATCCTTCTCAGTGGCTTCGGAATATTCACCTCACCATGT
TTACAGAGAACTATTTTGTATATAGAGTTTTCCAGGCACGTACTTTGCACCAACCCTGCGTGGCTGCTGTCTGTGTTAGCTGTCACAGTGTGCACACTAATCTGTTCAAAGTTCTTGTGGCTGTTTTA
CTTGTAAAAACTTTCTATTTCCTTCAGTAATGTGTCCACAGTGCCCTGTGTTTCGAGTTCTAGTCTACTGCAGTACTCTCATTGTCATAGTGCCTCCCTGAAGACCTCACCCTGGGCCAAGGTCGCTC
CTCGGTGCCCCAGCACAGGTGACACTGCTAATTGTCATCTCTGGTCTGTTTTTCTCTATTAAGGACAACGTTTTGTCTCTGTGGCTGTGAGACTGTGTGAATCGGTTTGTGTGGTCTCCACGTAGGTG
CTGTCCGCACACCACCTGCTCTAAACACTGGTAATTCCAGGTGCTGCGCTTGGCAGAGGCATCTCTCCAAAGCGCATGTATGTGTGAGTGTCCTTAGCACGGCCAAGCATGGCTGCCTTGCTCGGCAT
CAGCAGGACATCATGTGACTAGTTGTGACCTTCCAAACTGGAACTCTACATTTTGTATCTTACTTTTAAAGCTCCTATAAGTAAAATAACTTGGCTTTATTAAAATATACATTTAATAA

hide sequence

RefSeq Acc Id:

XM_008759155 ⟹ XP_008757377

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,076,908 (-)	NCBI
mRatBN7.2	1	86,862,123 - 86,939,725 (-)	NCBI
Rnor_6.0	1	90,097,331 - 90,176,119 (-)	NCBI

Sequence:

show sequence

CGACAGCAGACGTCACTTCCGGTGTACACAGCCGGTCCGGGCGGTGCGCCGGGAGCCGGGGCGCGTCGCAGGAAATGACTTAGAGGCCTTATGAATACATCTGTGCTTTCTTGCTTCAGACTTTACAA
CTGCAGGCCAACCCAGTCTGGAAGCACTTTTTATTAATGTTACAAGGAAACCGCTACCTCAGCAAACAAAAGAAAAGAGAAGACACACAGTAACAAATGCCATGTTTAAAGAACACTTGTTCCCAGAA
ACCTTGCAGGAGATTTGGAAGTTTTTAGCACTGAGAAGAAGCTTTCCAGGTAAATGGATTTGACAGGCAGGCTCTGTCAGAATTCTGCAGAGGTGTGTTCTTCCTTAAGGACTTCCCGTGAAGTAACC
CCTTCCGCCTAAATGCTGTTGACCAGCTGGGGTCCTTTTTGGTATATAAAAGATACATTATATTACATTTTAAAAGTTAAGTTATTTTTCTGCCATTGTAAATGTAAGTATCAAAATATTCTTGCAAA
GCAATTATAAATAAACATTTTCCTCAGCAAGCATATCTTCATCGAGGGTAGGATGCTGAACAGTTACAGAGCATTTTGGACACTGTTATTTTTTGTTAGAGTTCCTACCCACACTGAAAATATTAATT
ATATAAATCTGTTATTTTTCTCACCTTTATGTTGGATCACATGGTCACCTGCCTCATGGAAATAACTTTTTTAAAACTTAGATTTGCAGAACTCCACTATTTTTATACCTAGCCACAGTTTTGGAAAA
AAGGACTCAGAGCGCTGACCTGCCAGTGGTCCCTGGGACAGTTTCCCACCCGCATGTATTGCTGCAGTGCCCAGGACAGTAAGATGGACTACAAGCGGCGCTTCCTGCTTGGCGGGTCCAAGCAGAAG
GTGCAGCAGCACCAGCAGTACCCGATGCCTGAGCTAGGCCGAGCACTGAGTGCGCCTTTGGCGTCCACGGCCCCCTCTGCTCCGCTGGGCAGTCTGACCACTGCAGGCAGCTGCCACCATGCCATGCC
CCACTCTACTCCCATTGCTGACATCCAGCAGGGCATCTCTAAGTACCTGGATGCCCTCAATGTCTTTTGCCGTGCTAGTACGTTCCTCACAGATCTCTTCAGCACCGTGTTCAGGAACTCACACTACT
CAAAGGCTGCTATGCAGCTCAAAGACGTGCAGGAGCATGTAATGGAAGCAGCCAGCAGGTTGACCTCAGCCATAAAGCCCGAGATTGCCAAGATGCTCATGGAACTCAGTGCTGGGGCTGCAAACTTC
ACAGATCAGAAGGAATTCAGTCTCCAGGACATTGAGGTGTTGGGGCGATGTTTCTTGACAGTGGTGCAAGTCCATTTCCAGTTTTTGACTCACGCCTTACAGAAAGTCCAGCCAGTGGCTCACTCTTG
CTTTGCAGAGGTAGTTGTGCCAGAAAAAAAGAACAGCAGTAGTCTGTCTGGCATGGGCCACACACCCGAACTGGAGGAAGCTGTGCGATCCTGGCGAGGGGCTGCTGAGGCGACATCTAGATTAAGAG
AGAGAGGCTGCGATGGACGACTGGCGGGAATAGAAGTCCAACAACTCTTTTGTTCTCAAAGTGCAGCAATTCCTGAGCACCAGCTAAAAGAGCTAAACTTAAAAATTGACAGTGCTTTGCAGGCATAT
AAAATAGCTTTGGAAAGCTTAGGCCACTGTGAATATGCAATGAAAGCTGGCTTCCACCTAAACCCAAAGGCCATTGAAGCAAGTTTGCAGGGCTGCTGTAGTGAGGCGGAAGCTCAGCAGACGGGGCG
AAGGCAGACACCCCCACAGCCTATGCAGTGTGAGCTCCCCACGGTCCCTGTGCAAATAGGATCACATTTCCTGAAGGGGGTCTCCTTTAATGAGTCGGCTGCTGACAATCTGAAGCTTAAGACGCATA
CCATGTTCCAGCTCATCAAGGAAGCGGGCTGCTACGATGGAATCACACCTAGGGACGACCTTCCTGTGACTGAAGTCCTGAATCAGGTGTGCCCGTCCACGTGGCGGGGCGCCTGTAAGACTGCCGTG
CAGCTGCTGTTTGGCCAGGCTGGGCTGGTAGTTGTTGACACAGCACAGATTGAAAATAAAGAAGCCTATGCACCCCAGATCAGTCTTGAAGGCTCCAGAATTGTGGTTCAAGTCCCATCCACATGGTG
CCTGAAGGAAGACCCTGCCACCATGTCCCTGTTGCAGAGAAGCCTGGATCCTGAGAAGACCCTCGGTCTGGTGGATGTACTCTATACAGCCGTGCTGGACCTAAACCGCTGGAGAACAGGGAGGGAAC
AGGCTTTACCCTGTATACAGATCCAGCTGCAAAGGGATATCTGTGATTTTGGGAATCAGGCTGACCTGCCATCTGGAAATGGAAGCAAATCCTCAGGCCTGCAGAAGACTTTCTCCAAACTGACATCC
CGGTTCACAAAGAAAGTGTCATGCACCAACTCCGGCAGCACACACTATTCCAAAACCATCTTCACAGCTGGTTGTTCAGAGGAGAAGGCCAAAATGCTCGGCAGTAACATTGATACACGGTTACAGAG
CATTTTGAACATTGGTAACTTTCCTAGGACTACAGACCCTTCACAGTCATCTCAGAACTCCAGGAATCCAATGGTCAATGGCTTTCTCCTGGAGAGACGTGAGAACTTCCTGCATGGGGACGATGGCA
AGGATGAGAAGGGCATGAACTTACCCACTGATCAGGAAATGCAGGAAGTGATAGATTTTCTCTCAGGCTTTAACATGGGCCAGTCCCATCAGGGGTCCCCACTGGTGACAAGGCGCAACTCTACTGCC
ACTGCCATGGTGACTGAGCAGAAGACAGGAACCATGCAACCACAGCAGCCATCACTGCCGTTGGCCCCTCCACTACGGCCACCCCAGGCTGGAGCACACACGCCTCTGGCAGCCCAGCAAGGTCTGGC
TCCTCAGCAGCAGTCCCCAAAGCAGCAGCAGCCCCAAGTCCAGTTCTACCAGCACCTGCTGCAACCCATTGGATCACAGCAGACGCCACCCCAGTCCCGGGCGCCTGGTAAATGGGGACATGGCTCAT
CTCAGCACCCATCACAGCCCATGGCAGCGGGTCTGTCTCCTCTTGGTCAGTGGCCTGGCATATCTGATCTCAGCTCTGACTTGTACAGCTTGGGTCTAGTGAGCAGCTATATGGACAATATGATGTCA
GAAGTTTTGGGACAGAAGCCACAGGGACCTAGGAATAACACCTGGCCAAATCGTGACCAAAGTGATGGAGTCTTTGGAATGCTGGGAGAGATTTTGCCTTTTGATCCTGCAGTGGGCTCAGACCCAGA
GTTCGCACGCTACGTGGCAGGAGTGAGCCAGGCAATGCAGCAGAAGCGGCAAGCCCAACATGGCCGCCGGCCAGGCAACCCCCGGGGCAACTGGCCGCCCATGGATGATGCTCATCGGACCTGGCCTT
TGCCAGAGTTCTTTACAGAAGGGGACAGCCTGCACAGTGGCTGGTCAGGTGCTCAGGGAGACTCGGCCAGCTCCAGTGATGAGACCTCTTCAGCCAATGGGGACAGCCTGTTTTCCATGTTTTCAGGG
CCTGACCTTGTTGCTGCTGTCAAACAGAGAAGGAAACACAGCAGTGGAGAGCAGGAGACCAGCACACTGCCCTCACCACCTCTCCTGACCACAGTGGAGGATGTGAACCAGGATAACAAAACCAAAAC
GTGGCCACCCAAAGCACCATGGCAGCACCCTTCCCCGCTGCCCAGCACGCTGCCCAGCCCAGCTGCACCACTCTATGCAGTTGCCAGTCCTGGCAGCCAGTGGAATGACACCATGCAGATGCTGCAGT
CCCCTGTGTGGGCTGCAGCCAGTGACTGCAATACCACCTCCTTCACCTATGTTCAGACACCACCACAGCCCCCACCTCCACCAGCACATAAGGCAGCACCCAAGGGCTTCAAGGCCTTCCCTGGGAAG
GCTGAACGGAGGCCAGCCTATTTGCCCCAGTACTGACCACAGCTAGCCTGCTGCCCATCAAAGCTTTGGGGCAACTGTCCCCAGGGCTAACTAGCTGATACTAGCCCCCAGAAGGACCAGTGCACCCT
GCCCCAGGGACAGAAATAATCCTTGGGTCAGAAGTGATTGGCAGCTCCAAGTCTTTGAGGCCTGCTTTCTCAAACTTTGAAGGTAGCAGACCCCTGGGAGGCAGCTGAAGATGGAGATTTCTGACACT
CAGGGGATGCTGGCAGTCTATATTTGTTTAATAAGCACCTCAGATAATCCTGGTGCGGGTGGCCAAAGGCCACACTTGGGAAAACACAGTCTGAAGGTTGTCAGTCCTGCATGTGGGAAAGGCATGAG
GCCTGCAGGCTGAGAACAAAACTGACCATTCTTTGAAGCTCTCTCCTCTTTAACATACTGAGTGGGACCCACACCCATCACTGATTTTATAGATATTTCTCATGTAGGCTTTCACTTAAAAACGTCTC
CTGCCTAAAATGCAGTGGTATCTTAAGATCCCAGGTACACTGGCTGGAGGTTACTTAGCTCAGCACTGTCTTTGGTTAAGCTTAGACAAGATGCTAGTGATCAGAAGCAGCCCTCTGGCTTCCCATGG
CCGGTAGCTCCTCTGAAGTGCACAGGGGTGCAGGTTCATGTAATTCACAGAGCAGGACTGGGAACTGCTGTCAGCATATTCTGGCTGCCCGCCCGCCCAGGGGGTGCAGCTGGTGCATGCCGAGTGCA
GCGTGAAGCTGCAGCCGCTGCCCTCATTTCTTTTTTTTCACCATGACCAGGGCAGCACTAGCACCATGCTCCTCGACGGAAGGGACTGGGAGGGGAGGGACTGCACCAAGACCCCCACACTCAGAACC
ACAGTGACATTTGTGAGCTGGCTCAAAGACAAAGGAATTATGGTGTAGACAGGAATTCAAAATCTTTGTTTAGTCACCAACAAAAAAAACCTCACTTTTAGTTAACATGTGCCATTAAACAAATGACA
CTCCGTGGGTTTGGGGAGATTTTCCAGCTAGGATGGATCCAGAATAATTGAATGGTGCTTAAATTGAGAAATAATAAATATATCTATATAGAGTAGACATTTCCCACTATATATTAATTGAGGTTGCA
TAAAGTTCTTTATATAAAACTTATTTAAAATTTTCATATTTCATCTTTGAAAATGTCTAATTGAGAAAAATTCATGATATTTTCTGGTATGAAAGTTTGACAGTATTAATTTTTTTATATTTTCTTAA
ATCATTAAACCATTTTAATATATGTTAACTACTAATAAATGGTTTATTCTTTCTAACTCCATGTAAGCTTTTCCAACGAAGATTGTAATAACACATTTATGTTCTCATTTTTCTACAGATAAATTTAT
ATTTAAAAATACCAAAAAAACCCCTATGTATACACACCACACATGCACACACACATTCACACACAAGAAAATTATTGAGGACCTGTAGGGTGTCTGAGCCCAGCCACCTGCGTCTTTAGTACTGTGTC
TCTAGGCTGCCTGAGGCCTCAGCTGTTGTCATTCATGCTGTGGGTGCCATGTCTGCCTGTACTGACGATCCTTCTCAGTGGCTTCGGAATATTCACCTCACCATGTTTACAGAGAACTATTTTGTATA
TAGAGTTTTCCAGGCACGTACTTTGCACCAACCCTGCGTGGCTGCTGTCTGTGTTAGCTGTCACAGTGTGCACACTAATCTGTTCAAAGTTCTTGTGGCTGTTTTACTTGTAAAAACTTTCTATTTCC
TTCAGTAATGTGTCCACAGTGCCCTGTGTTTCGAGTTCTAGTCTACTGCAGTACTCTCATTGTCATAGTGCCTCCCTGAAGACCTCACCCTGGGCCAAGGTCGCTCCTCGGTGCCCCAGCACAGGTGA
CACTGCTAATTGTCATCTCTGGTCTGTTTTTCTCTATTAAGGACAACGTTTTGTCTCTGTGGCTGTGAGACTGTGTGAATCGGTTTGTGTGGTCTCCACGTAGGTGCTGTCCGCACACCACCTGCTCT
AAACACTGGTAATTCCAGGTGCTGCGCTTGGCAGAGGCATCTCTCCAAAGCGCATGTATGTGTGAGTGTCCTTAGCACGGCCAAGCATGGCTGCCTTGCTCGGCATCAGCAGGACATCATGTGACTAG
TTGTGACCTTCCAAACTGGAACTCTACATTTTGTATCTTACTTTTAAAGCTCCTATAAGTAAAATAACTTGGCTTTATTAAAATATACATTTAATAATA

hide sequence

RefSeq Acc Id:

XM_008759156 ⟹ XP_008757378

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,071,140 (-)	NCBI
mRatBN7.2	1	86,862,123 - 86,933,538 (-)	NCBI
Rnor_6.0	1	90,097,333 - 90,169,594 (-)	NCBI

Sequence:

show sequence

TAGGCTGATCTCATCTCTCAACAGTTCTCCTGCCTCAGTTTCTGGATTGGTGTAGTGTAAGCACGAGCCACCACAGTAAGCTTACAATTCAGTTTTACTGTGTTAATATAAAGCCCTTAGAACAGGTC
CCGGTGGGAATGTGTTTTTGTTACACTGGGCAGTACAGTAAAGTGAGCCTGTAGCTTACATCCGTCACAGCATTTGCAGTTCATTCGGTGAGACAAGCACAAGCAGCAGCTACAGCAAAGGCAGCCAG
AGCTCAGGAAAAGCTCCATGGGAGTTAAGGTGGTCCAATCAACATGGCTTTAATGAGATAATGAAAGTTTAATTCCAGGCAAGGTTTTACTATGTAGCCCAAGCTGACCAGGTACTCACTGTGTAGAC
TAGGATGGCCTTGAACTCAGTGATCCTGTGTCTTAGCATTCCAGATGATGGGATGACAACATATACCAGCATTACCATTCACAGCTGAGCTAATGGATCTTGAATATAGCTAACTTTGTAGAAAAAAT
AAAATGAGGGTAAGGGTCTTTTTTTGGGGACAAGATCTGGCTAAGTAGTGTATCTTGGCTAGCTGGAAACTATTTTCCCTGTCTGCCTCCTTAGTGCTGGGGTTAAGAGCTTATGTGCCCCGAGCTCA
CCACAGGCCTTGTTTCAAGGTTGATGTGATGTGTCTCCTAGATAACCAGACACAAAGAATTGAAAACAGGAAAGTTCTCAGAGGGGTCAAAAGTGGGTTATTTTAGTGATGGCATGTCATTGGTGTGT
GGCAGCTTTCCTTGCTGTCTGTGTGCTGATGGTAGTACCATTTATAAAATTATACATGTTACTCTTTTTTTGTCTTTGAACTCATGTCTAGTTTAGGTAATGAGCTTCTTAATGCAATATATGTGGGT
CTCTTCTAAGATGATTCTTGTAGTTCATGGTGCCATTGGTTTTCTTTTCTTCTCTTGTCTTTTCTTTTTGGGACAGGGTTTCACTATGTAGCCCCCGACTGGTGTCATTTGTTTTCTTAACAAAAACC
TGTGTATTTAGTGTATGTTTTAAGACTCATCCCTTGATATGGCATTCCTTTAAAAATTCTTTAATTGCATTTGAAAATTTATTTATGTGTATGTGTGGGCATGAGTACCATGACATACATGTGGATGT
CAGAGGACAATTTGCAGGAATTGGATTTTGGCTTCTACATTTGTGTGTCTTGGGAATCGGATCATCAGGCTTGGAAGCAAGAAACTTAACCCACTGACCCATTGAGCCATCTTACTGGTCCTACTTTT
CTTTTAACTGCCCCCCCACCAACCCTCTCTTGTGGGGCAGGGGCTCACTATGGAGCTCTGGCAGGCCTGGAACTTGCTGTTTAGACCAGGCTGACCTGGAACTCACAGAGTTCTGTCAGCAATGGGAA
GGTTTTAATGTAGAATTAGCGTTAGATACCACTAGAAAAACAATCACATTTTCTTACTAAAAATGACTTGGGAGTTAGATACTAATGAGATTCAGTTATGGTTAAGGAACCTGGGAGAGCTCAATCTT
CCCTACCCCATCACCCTGGTTCCAGAGGCAGAGGAAACTTGCCTCCTGGTTCCCAGACTTGGGTGTTCTAGGCAAGGAGAGGTGAAATTGGGCCCTCTGAGCAGCTCCCAAGGACTTGTGCTGCCCCT
GAGTCTCCAGGGAGAGGGAGATGCTGTGCTTAAGTAACTTTGTCCTGTGCTTTGTGAAAGGTCATAGTGCCCTGTCCTCAGCTGTGCCCACCACTTCCTTCTAGCTTGGAGCTGAAGGAGGAGTCAGT
GATGGGCTGAGAAGAGGGAAAGAGCTATGACCTCCTTTTCTGCTGGAGCACACCAGGTGGCACGTTTAGTTTGTTGCCTGGATTTTGGGAATTGGGGCCACAACTGCAGGAAGGAAATGACTTAGAGG
CCTTATGAATACATCTGTGCTTTCTTGCTTCAGACTTTACAACTGCAGGCCAACCCAGTCTGGAAGCACTTTTTATTAATGTTACAAGGAAACCGCTACCTCAGCAAACAAAAGAAAAGAGAAGACAC
ACAGTAACAAATGCCATGTTTAAAGAACACTTGTTCCCAGAAACCTTGCAGGAGATTTGGAAGTTTTTAGCACTGAGAAGAAGCTTTCCAGGTAAATGGATTTGACAGGCAGGCTCTGTCAGAATTCT
GCAGAGGTGTGTTCTTCCTTAAGGACTTCCCGTGAAGTAACCCCTTCCGCCTAAATGCTGTTGACCAGCTGGGGTCCTTTTTGGTATATAAAAGATACATTATATTACATTTTAAAAGTTAAGTTATT
TTTCTGCCATTGTAAATGTAAGTATCAAAATATTCTTGCAAAGCAATTATAAATAAACATTTTCCTCAGCAAGCATATCTTCATCGAGGGTAGGATGCTGAACAGTTACAGAGCATTTTGGACACTGT
TATTTTTTGTTAGAGTTCCTACCCACACTGAAAATATTAATTATATAAATCTGTTATTTTTCTCACCTTTATGTTGGATCACATGGTCACCTGCCTCATGGAAATAACTTTTTTAAAACTTAGATTTG
CAGAACTCCACTATTTTTATACCTAGCCACAGTTTTGGAAAAAAGGACTCAGAGCGCTGACCTGCCAGTGGTCCCTGGGACAGTTTCCCACCCGCATGTATTGCTGCAGTGCCCAGGACAGTAAGATG
GACTACAAGCGGCGCTTCCTGCTTGGCGGGTCCAAGCAGAAGGTGCAGCAGCACCAGCAGTACCCGATGCCTGAGCTAGGCCGAGCACTGAGTGCGCCTTTGGCGTCCACGGCCCCCTCTGCTCCGCT
GGGCAGTCTGACCACTGCAGGCAGCTGCCACCATGCCATGCCCCACTCTACTCCCATTGCTGACATCCAGCAGGGCATCTCTAAGTACCTGGATGCCCTCAATGTCTTTTGCCGTGCTAGTACGTTCC
TCACAGATCTCTTCAGCACCGTGTTCAGGAACTCACACTACTCAAAGGCTGCTATGCAGCTCAAAGACGTGCAGGAGCATGTAATGGAAGCAGCCAGCAGGTTGACCTCAGCCATAAAGCCCGAGATT
GCCAAGATGCTCATGGAACTCAGTGCTGGGGCTGCAAACTTCACAGATCAGAAGGAATTCAGTCTCCAGGACATTGAGGTGTTGGGGCGATGTTTCTTGACAGTGGTGCAAGTCCATTTCCAGTTTTT
GACTCACGCCTTACAGAAAGTCCAGCCAGTGGCTCACTCTTGCTTTGCAGAGGTAGTTGTGCCAGAAAAAAAGAACAGCAGTAGTCTGTCTGGCATGGGCCACACACCCGAACTGGAGGAAGCTGTGC
GATCCTGGCGAGGGGCTGCTGAGGCGACATCTAGATTAAGAGAGAGAGGCTGCGATGGACGACTGGCGGGAATAGAAGTCCAACAACTCTTTTGTTCTCAAAGTGCAGCAATTCCTGAGCACCAGCTA
AAAGAGCTAAACTTAAAAATTGACAGTGCTTTGCAGGCATATAAAATAGCTTTGGAAAGCTTAGGCCACTGTGAATATGCAATGAAAGCTGGCTTCCACCTAAACCCAAAGGCCATTGAAGCAAGTTT
GCAGGGCTGCTGTAGTGAGGCGGAAGCTCAGCAGACGGGGCGAAGGCAGACACCCCCACAGCCTATGCAGTGTGAGCTCCCCACGGTCCCTGTGCAAATAGGATCACATTTCCTGAAGGGGGTCTCCT
TTAATGAGTCGGCTGCTGACAATCTGAAGCTTAAGACGCATACCATGTTCCAGCTCATCAAGGAAGCGGGCTGCTACGATGGAATCACACCTAGGGACGACCTTCCTGTGACTGAAGTCCTGAATCAG
GTGTGCCCGTCCACGTGGCGGGGCGCCTGTAAGACTGCCGTGCAGCTGCTGTTTGGCCAGGCTGGGCTGGTAGTTGTTGACACAGCACAGATTGAAAATAAAGAAGCCTATGCACCCCAGATCAGTCT
TGAAGGCTCCAGAATTGTGGTTCAAGTCCCATCCACATGGTGCCTGAAGGAAGACCCTGCCACCATGTCCCTGTTGCAGAGAAGCCTGGATCCTGAGAAGACCCTCGGTCTGGTGGATGTACTCTATA
CAGCCGTGCTGGACCTAAACCGCTGGAGAACAGGGAGGGAACAGGCTTTACCCTGTATACAGATCCAGCTGCAAAGGGATATCTGTGATTTTGGGAATCAGGCTGACCTGCCATCTGGAAATGGAAGC
AAATCCTCAGGCCTGCAGAAGACTTTCTCCAAACTGACATCCCGGTTCACAAAGAAAGTGTCATGCACCAACTCCGGCAGCACACACTATTCCAAAACCATCTTCACAGCTGGTTGTTCAGAGGAGAA
GGCCAAAATGCTCGGCAGTAACATTGATACACGGTTACAGAGCATTTTGAACATTGGTAACTTTCCTAGGACTACAGACCCTTCACAGTCATCTCAGAACTCCAGGAATCCAATGGTCAATGGCTTTC
TCCTGGAGAGACGTGAGAACTTCCTGCATGGGGACGATGGCAAGGATGAGAAGGGCATGAACTTACCCACTGATCAGGAAATGCAGGAAGTGATAGATTTTCTCTCAGGCTTTAACATGGGCCAGTCC
CATCAGGGGTCCCCACTGGTGACAAGGCGCAACTCTACTGCCACTGCCATGGTGACTGAGCAGAAGACAGGAACCATGCAACCACAGCAGCCATCACTGCCGTTGGCCCCTCCACTACGGCCACCCCA
GGCTGGAGCACACACGCCTCTGGCAGCCCAGCAAGGTCTGGCTCCTCAGCAGCAGTCCCCAAAGCAGCAGCAGCCCCAAGTCCAGTTCTACCAGCACCTGCTGCAACCCATTGGATCACAGCAGACGC
CACCCCAGTCCCGGGCGCCTGGTAAATGGGGACATGGCTCATCTCAGCACCCATCACAGCCCATGGCAGCGGGTCTGTCTCCTCTTGGTCAGTGGCCTGGCATATCTGATCTCAGCTCTGACTTGTAC
AGCTTGGGTCTAGTGAGCAGCTATATGGACAATATGATGTCAGAAGTTTTGGGACAGAAGCCACAGGGACCTAGGAATAACACCTGGCCAAATCGTGACCAAAGTGATGGAGTCTTTGGAATGCTGGG
AGAGATTTTGCCTTTTGATCCTGCAGTGGGCTCAGACCCAGAGTTCGCACGCTACGTGGCAGGAGTGAGCCAGGCAATGCAGCAGAAGCGGCAAGCCCAACATGGCCGCCGGCCAGGCAACCCCCGGG
GCAACTGGCCGCCCATGGATGATGCTCATCGGACCTGGCCTTTGCCAGAGTTCTTTACAGAAGGGGACAGCCTGCACAGTGGCTGGTCAGGTGCTCAGGGAGACTCGGCCAGCTCCAGTGATGAGACC
TCTTCAGCCAATGGGGACAGCCTGTTTTCCATGTTTTCAGGGCCTGACCTTGTTGCTGCTGTCAAACAGAGAAGGAAACACAGCAGTGGAGAGCAGGAGACCAGCACACTGCCCTCACCACCTCTCCT
GACCACAGTGGAGGATGTGAACCAGGATAACAAAACCAAAACGTGGCCACCCAAAGCACCATGGCAGCACCCTTCCCCGCTGCCCAGCACGCTGCCCAGCCCAGCTGCACCACTCTATGCAGTTGCCA
GTCCTGGCAGCCAGTGGAATGACACCATGCAGATGCTGCAGTCCCCTGTGTGGGCTGCAGCCAGTGACTGCAATACCACCTCCTTCACCTATGTTCAGACACCACCACAGCCCCCACCTCCACCAGCA
CATAAGGCAGCACCCAAGGGCTTCAAGGCCTTCCCTGGGAAGGCTGAACGGAGGCCAGCCTATTTGCCCCAGTACTGACCACAGCTAGCCTGCTGCCCATCAAAGCTTTGGGGCAACTGTCCCCAGGG
CTAACTAGCTGATACTAGCCCCCAGAAGGACCAGTGCACCCTGCCCCAGGGACAGAAATAATCCTTGGGTCAGAAGTGATTGGCAGCTCCAAGTCTTTGAGGCCTGCTTTCTCAAACTTTGAAGGTAG
CAGACCCCTGGGAGGCAGCTGAAGATGGAGATTTCTGACACTCAGGGGATGCTGGCAGTCTATATTTGTTTAATAAGCACCTCAGATAATCCTGGTGCGGGTGGCCAAAGGCCACACTTGGGAAAACA
CAGTCTGAAGGTTGTCAGTCCTGCATGTGGGAAAGGCATGAGGCCTGCAGGCTGAGAACAAAACTGACCATTCTTTGAAGCTCTCTCCTCTTTAACATACTGAGTGGGACCCACACCCATCACTGATT
TTATAGATATTTCTCATGTAGGCTTTCACTTAAAAACGTCTCCTGCCTAAAATGCAGTGGTATCTTAAGATCCCAGGTACACTGGCTGGAGGTTACTTAGCTCAGCACTGTCTTTGGTTAAGCTTAGA
CAAGATGCTAGTGATCAGAAGCAGCCCTCTGGCTTCCCATGGCCGGTAGCTCCTCTGAAGTGCACAGGGGTGCAGGTTCATGTAATTCACAGAGCAGGACTGGGAACTGCTGTCAGCATATTCTGGCT
GCCCGCCCGCCCAGGGGGTGCAGCTGGTGCATGCCGAGTGCAGCGTGAAGCTGCAGCCGCTGCCCTCATTTCTTTTTTTTCACCATGACCAGGGCAGCACTAGCACCATGCTCCTCGACGGAAGGGAC
TGGGAGGGGAGGGACTGCACCAAGACCCCCACACTCAGAACCACAGTGACATTTGTGAGCTGGCTCAAAGACAAAGGAATTATGGTGTAGACAGGAATTCAAAATCTTTGTTTAGTCACCAACAAAAA
AAACCTCACTTTTAGTTAACATGTGCCATTAAACAAATGACACTCCGTGGGTTTGGGGAGATTTTCCAGCTAGGATGGATCCAGAATAATTGAATGGTGCTTAAATTGAGAAATAATAAATATATCTA
TATAGAGTAGACATTTCCCACTATATATTAATTGAGGTTGCATAAAGTTCTTTATATAAAACTTATTTAAAATTTTCATATTTCATCTTTGAAAATGTCTAATTGAGAAAAATTCATGATATTTTCTG
GTATGAAAGTTTGACAGTATTAATTTTTTTATATTTTCTTAAATCATTAAACCATTTTAATATATGTTAACTACTAATAAATGGTTTATTCTTTCTAACTCCATGTAAGCTTTTCCAACGAAGATTGT
AATAACACATTTATGTTCTCATTTTTCTACAGATAAATTTATATTTAAAAATACCAAAAAAACCCCTATGTATACACACCACACATGCACACACACATTCACACACAAGAAAATTATTGAGGACCTGT
AGGGTGTCTGAGCCCAGCCACCTGCGTCTTTAGTACTGTGTCTCTAGGCTGCCTGAGGCCTCAGCTGTTGTCATTCATGCTGTGGGTGCCATGTCTGCCTGTACTGACGATCCTTCTCAGTGGCTTCG
GAATATTCACCTCACCATGTTTACAGAGAACTATTTTGTATATAGAGTTTTCCAGGCACGTACTTTGCACCAACCCTGCGTGGCTGCTGTCTGTGTTAGCTGTCACAGTGTGCACACTAATCTGTTCA
AAGTTCTTGTGGCTGTTTTACTTGTAAAAACTTTCTATTTCCTTCAGTAATGTGTCCACAGTGCCCTGTGTTTCGAGTTCTAGTCTACTGCAGTACTCTCATTGTCATAGTGCCTCCCTGAAGACCTC
ACCCTGGGCCAAGGTCGCTCCTCGGTGCCCCAGCACAGGTGACACTGCTAATTGTCATCTCTGGTCTGTTTTTCTCTATTAAGGACAACGTTTTGTCTCTGTGGCTGTGAGACTGTGTGAATCGGTTT
GTGTGGTCTCCACGTAGGTGCTGTCCGCACACCACCTGCTCTAAACACTGGTAATTCCAGGTGCTGCGCTTGGCAGAGGCATCTCTCCAAAGCGCATGTATGTGTGAGTGTCCTTAGCACGGCCAAGC
ATGGCTGCCTTGCTCGGCATCAGCAGGACATCATGTGACTAGTTGTGACCTTCCAAACTGGAACTCTACATTTTGTATCTTACTTTTAAAGCTCCTATAAGTAAAATAACTTGGCTTTATTAAAATAT
ACATTTAATAA

hide sequence

RefSeq Acc Id:

XM_008759157 ⟹ XP_008757379

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,076,834 (-)	NCBI
mRatBN7.2	1	86,862,123 - 86,939,649 (-)	NCBI
Rnor_6.0	1	90,097,333 - 90,176,107 (-)	NCBI

Sequence:

show sequence

TCACTTCCGGTGTACACAGCCGGTCCGGGCGGTGCGCCGGGAGCCGGGGCGCGTCGCAGATTTG
GGGACCTCCAGGCCCTGAACCCTGTCTCCTATAGATGCCAGGGATCACTCAACTCACCTAATCCTCTGGAAATGACTTAGAGGCCTTATGAATACATCTGTGCTTTCTTGCTTCAGACTTTACAACTG
CAGGCCAACCCAGTCTGGAAGCACTTTTTATTAATGTTACAAGGAAACCGCTACCTCAGCAAACAAAAGAAAAGAGAAGACACACAGTAACAAATGCCATGTTTAAAGAACACTTGTTCCCAGAAACC
TTGCAGGAGATTTGGAAGTTTTTAGCACTGAGAAGAAGCTTTCCAGGTAAATGGATTTGACAGGCAGGCTCTGTCAGAATTCTGCAGAGGTGTGTTCTTCCTTAAGGACTTCCCGTGAAGTAACCCCT
TCCGCCTAAATGCTGTTGACCAGCTGGGGTCCTTTTTGGTATATAAAAGATACATTATATTACATTTTAAAAGTTAAGTTATTTTTCTGCCATTGTAAATGTAAGTATCAAAATATTCTTGCAAAGCA
ATTATAAATAAACATTTTCCTCAGCAAGCATATCTTCATCGAGGGTAGGATGCTGAACAGTTACAGAGCATTTTGGACACTGTTATTTTTTGTTAGAGTTCCTACCCACACTGAAAATATTAATTATA
TAAATCTGTTATTTTTCTCACCTTTATGTTGGATCACATGGTCACCTGCCTCATGGAAATAACTTTTTTAAAACTTAGATTTGCAGAACTCCACTATTTTTATACCTAGCCACAGTTTTGGAAAAAAG
GACTCAGAGCGCTGACCTGCCAGTGGTCCCTGGGACAGTTTCCCACCCGCATGTATTGCTGCAGTGCCCAGGACAGTAAGATGGACTACAAGCGGCGCTTCCTGCTTGGCGGGTCCAAGCAGAAGGTG
CAGCAGCACCAGCAGTACCCGATGCCTGAGCTAGGCCGAGCACTGAGTGCGCCTTTGGCGTCCACGGCCCCCTCTGCTCCGCTGGGCAGTCTGACCACTGCAGGCAGCTGCCACCATGCCATGCCCCA
CTCTACTCCCATTGCTGACATCCAGCAGGGCATCTCTAAGTACCTGGATGCCCTCAATGTCTTTTGCCGTGCTAGTACGTTCCTCACAGATCTCTTCAGCACCGTGTTCAGGAACTCACACTACTCAA
AGGCTGCTATGCAGCTCAAAGACGTGCAGGAGCATGTAATGGAAGCAGCCAGCAGGTTGACCTCAGCCATAAAGCCCGAGATTGCCAAGATGCTCATGGAACTCAGTGCTGGGGCTGCAAACTTCACA
GATCAGAAGGAATTCAGTCTCCAGGACATTGAGGTGTTGGGGCGATGTTTCTTGACAGTGGTGCAAGTCCATTTCCAGTTTTTGACTCACGCCTTACAGAAAGTCCAGCCAGTGGCTCACTCTTGCTT
TGCAGAGGTAGTTGTGCCAGAAAAAAAGAACAGCAGTAGTCTGTCTGGCATGGGCCACACACCCGAACTGGAGGAAGCTGTGCGATCCTGGCGAGGGGCTGCTGAGGCGACATCTAGATTAAGAGAGA
GAGGCTGCGATGGACGACTGGCGGGAATAGAAGTCCAACAACTCTTTTGTTCTCAAAGTGCAGCAATTCCTGAGCACCAGCTAAAAGAGCTAAACTTAAAAATTGACAGTGCTTTGCAGGCATATAAA
ATAGCTTTGGAAAGCTTAGGCCACTGTGAATATGCAATGAAAGCTGGCTTCCACCTAAACCCAAAGGCCATTGAAGCAAGTTTGCAGGGCTGCTGTAGTGAGGCGGAAGCTCAGCAGACGGGGCGAAG
GCAGACACCCCCACAGCCTATGCAGTGTGAGCTCCCCACGGTCCCTGTGCAAATAGGATCACATTTCCTGAAGGGGGTCTCCTTTAATGAGTCGGCTGCTGACAATCTGAAGCTTAAGACGCATACCA
TGTTCCAGCTCATCAAGGAAGCGGGCTGCTACGATGGAATCACACCTAGGGACGACCTTCCTGTGACTGAAGTCCTGAATCAGGTGTGCCCGTCCACGTGGCGGGGCGCCTGTAAGACTGCCGTGCAG
CTGCTGTTTGGCCAGGCTGGGCTGGTAGTTGTTGACACAGCACAGATTGAAAATAAAGAAGCCTATGCACCCCAGATCAGTCTTGAAGGCTCCAGAATTGTGGTTCAAGTCCCATCCACATGGTGCCT
GAAGGAAGACCCTGCCACCATGTCCCTGTTGCAGAGAAGCCTGGATCCTGAGAAGACCCTCGGTCTGGTGGATGTACTCTATACAGCCGTGCTGGACCTAAACCGCTGGAGAACAGGGAGGGAACAGG
CTTTACCCTGTATACAGATCCAGCTGCAAAGGGATATCTGTGATTTTGGGAATCAGGCTGACCTGCCATCTGGAAATGGAAGCAAATCCTCAGGCCTGCAGAAGACTTTCTCCAAACTGACATCCCGG
TTCACAAAGAAAGTGTCATGCACCAACTCCGGCAGCACACACTATTCCAAAACCATCTTCACAGCTGGTTGTTCAGAGGAGAAGGCCAAAATGCTCGGCAGTAACATTGATACACGGTTACAGAGCAT
TTTGAACATTGGTAACTTTCCTAGGACTACAGACCCTTCACAGTCATCTCAGAACTCCAGGAATCCAATGGTCAATGGCTTTCTCCTGGAGAGACGTGAGAACTTCCTGCATGGGGACGATGGCAAGG
ATGAGAAGGGCATGAACTTACCCACTGATCAGGAAATGCAGGAAGTGATAGATTTTCTCTCAGGCTTTAACATGGGCCAGTCCCATCAGGGGTCCCCACTGGTGACAAGGCGCAACTCTACTGCCACT
GCCATGGTGACTGAGCAGAAGACAGGAACCATGCAACCACAGCAGCCATCACTGCCGTTGGCCCCTCCACTACGGCCACCCCAGGCTGGAGCACACACGCCTCTGGCAGCCCAGCAAGGTCTGGCTCC
TCAGCAGCAGTCCCCAAAGCAGCAGCAGCCCCAAGTCCAGTTCTACCAGCACCTGCTGCAACCCATTGGATCACAGCAGACGCCACCCCAGTCCCGGGCGCCTGGTAAATGGGGACATGGCTCATCTC
AGCACCCATCACAGCCCATGGCAGCGGGTCTGTCTCCTCTTGGTCAGTGGCCTGGCATATCTGATCTCAGCTCTGACTTGTACAGCTTGGGTCTAGTGAGCAGCTATATGGACAATATGATGTCAGAA
GTTTTGGGACAGAAGCCACAGGGACCTAGGAATAACACCTGGCCAAATCGTGACCAAAGTGATGGAGTCTTTGGAATGCTGGGAGAGATTTTGCCTTTTGATCCTGCAGTGGGCTCAGACCCAGAGTT
CGCACGCTACGTGGCAGGAGTGAGCCAGGCAATGCAGCAGAAGCGGCAAGCCCAACATGGCCGCCGGCCAGGCAACCCCCGGGGCAACTGGCCGCCCATGGATGATGCTCATCGGACCTGGCCTTTGC
CAGAGTTCTTTACAGAAGGGGACAGCCTGCACAGTGGCTGGTCAGGTGCTCAGGGAGACTCGGCCAGCTCCAGTGATGAGACCTCTTCAGCCAATGGGGACAGCCTGTTTTCCATGTTTTCAGGGCCT
GACCTTGTTGCTGCTGTCAAACAGAGAAGGAAACACAGCAGTGGAGAGCAGGAGACCAGCACACTGCCCTCACCACCTCTCCTGACCACAGTGGAGGATGTGAACCAGGATAACAAAACCAAAACGTG
GCCACCCAAAGCACCATGGCAGCACCCTTCCCCGCTGCCCAGCACGCTGCCCAGCCCAGCTGCACCACTCTATGCAGTTGCCAGTCCTGGCAGCCAGTGGAATGACACCATGCAGATGCTGCAGTCCC
CTGTGTGGGCTGCAGCCAGTGACTGCAATACCACCTCCTTCACCTATGTTCAGACACCACCACAGCCCCCACCTCCACCAGCACATAAGGCAGCACCCAAGGGCTTCAAGGCCTTCCCTGGGAAGGCT
GAACGGAGGCCAGCCTATTTGCCCCAGTACTGACCACAGCTAGCCTGCTGCCCATCAAAGCTTTGGGGCAACTGTCCCCAGGGCTAACTAGCTGATACTAGCCCCCAGAAGGACCAGTGCACCCTGCC
CCAGGGACAGAAATAATCCTTGGGTCAGAAGTGATTGGCAGCTCCAAGTCTTTGAGGCCTGCTTTCTCAAACTTTGAAGGTAGCAGACCCCTGGGAGGCAGCTGAAGATGGAGATTTCTGACACTCAG
GGGATGCTGGCAGTCTATATTTGTTTAATAAGCACCTCAGATAATCCTGGTGCGGGTGGCCAAAGGCCACACTTGGGAAAACACAGTCTGAAGGTTGTCAGTCCTGCATGTGGGAAAGGCATGAGGCC
TGCAGGCTGAGAACAAAACTGACCATTCTTTGAAGCTCTCTCCTCTTTAACATACTGAGTGGGACCCACACCCATCACTGATTTTATAGATATTTCTCATGTAGGCTTTCACTTAAAAACGTCTCCTG
CCTAAAATGCAGTGGTATCTTAAGATCCCAGGTACACTGGCTGGAGGTTACTTAGCTCAGCACTGTCTTTGGTTAAGCTTAGACAAGATGCTAGTGATCAGAAGCAGCCCTCTGGCTTCCCATGGCCG
GTAGCTCCTCTGAAGTGCACAGGGGTGCAGGTTCATGTAATTCACAGAGCAGGACTGGGAACTGCTGTCAGCATATTCTGGCTGCCCGCCCGCCCAGGGGGTGCAGCTGGTGCATGCCGAGTGCAGCG
TGAAGCTGCAGCCGCTGCCCTCATTTCTTTTTTTTCACCATGACCAGGGCAGCACTAGCACCATGCTCCTCGACGGAAGGGACTGGGAGGGGAGGGACTGCACCAAGACCCCCACACTCAGAACCACA
GTGACATTTGTGAGCTGGCTCAAAGACAAAGGAATTATGGTGTAGACAGGAATTCAAAATCTTTGTTTAGTCACCAACAAAAAAAACCTCACTTTTAGTTAACATGTGCCATTAAACAAATGACACTC
CGTGGGTTTGGGGAGATTTTCCAGCTAGGATGGATCCAGAATAATTGAATGGTGCTTAAATTGAGAAATAATAAATATATCTATATAGAGTAGACATTTCCCACTATATATTAATTGAGGTTGCATAA
AGTTCTTTATATAAAACTTATTTAAAATTTTCATATTTCATCTTTGAAAATGTCTAATTGAGAAAAATTCATGATATTTTCTGGTATGAAAGTTTGACAGTATTAATTTTTTTATATTTTCTTAAATC
ATTAAACCATTTTAATATATGTTAACTACTAATAAATGGTTTATTCTTTCTAACTCCATGTAAGCTTTTCCAACGAAGATTGTAATAACACATTTATGTTCTCATTTTTCTACAGATAAATTTATATT
TAAAAATACCAAAAAAACCCCTATGTATACACACCACACATGCACACACACATTCACACACAAGAAAATTATTGAGGACCTGTAGGGTGTCTGAGCCCAGCCACCTGCGTCTTTAGTACTGTGTCTCT
AGGCTGCCTGAGGCCTCAGCTGTTGTCATTCATGCTGTGGGTGCCATGTCTGCCTGTACTGACGATCCTTCTCAGTGGCTTCGGAATATTCACCTCACCATGTTTACAGAGAACTATTTTGTATATAG
AGTTTTCCAGGCACGTACTTTGCACCAACCCTGCGTGGCTGCTGTCTGTGTTAGCTGTCACAGTGTGCACACTAATCTGTTCAAAGTTCTTGTGGCTGTTTTACTTGTAAAAACTTTCTATTTCCTTC
AGTAATGTGTCCACAGTGCCCTGTGTTTCGAGTTCTAGTCTACTGCAGTACTCTCATTGTCATAGTGCCTCCCTGAAGACCTCACCCTGGGCCAAGGTCGCTCCTCGGTGCCCCAGCACAGGTGACAC
TGCTAATTGTCATCTCTGGTCTGTTTTTCTCTATTAAGGACAACGTTTTGTCTCTGTGGCTGTGAGACTGTGTGAATCGGTTTGTGTGGTCTCCACGTAGGTGCTGTCCGCACACCACCTGCTCTAAA
CACTGGTAATTCCAGGTGCTGCGCTTGGCAGAGGCATCTCTCCAAAGCGCATGTATGTGTGAGTGTCCTTAGCACGGCCAAGCATGGCTGCCTTGCTCGGCATCAGCAGGACATCATGTGACTAGTTG
TGACCTTCCAAACTGGAACTCTACATTTTGTATCTTACTTTTAAAGCTCCTATAAGTAAAATAACTTGGCTTTATTAAAATATACATTTAATAA

hide sequence

RefSeq Acc Id:

XM_039111613 ⟹ XP_038967541

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,076,296 (-)	NCBI
mRatBN7.2	1	86,862,123 - 86,939,619 (-)	NCBI

RefSeq Acc Id:

XM_063261647 ⟹ XP_063117717

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,076,372 (-)	NCBI

RefSeq Acc Id:

XM_063261650 ⟹ XP_063117720

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,076,372 (-)	NCBI

RefSeq Acc Id:

XM_063261654 ⟹ XP_063117724

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,077,641 (-)	NCBI

RefSeq Acc Id:

XM_063261655 ⟹ XP_063117725

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	95,999,305 - 96,076,372 (-)	NCBI

RefSeq Acc Id:

XM_063261657 ⟹ XP_063117727

Type:

CODING

Position:

Rat Assembly	Chr	Position (strand)	Source
GRCr8	1	96,007,679 - 96,076,372 (-)	NCBI


Protein RefSeqs	NP_001258162	(Get FASTA)	NCBI Sequence Viewer
	XP_006228912	(Get FASTA)	NCBI Sequence Viewer
	XP_006228913	(Get FASTA)	NCBI Sequence Viewer
	XP_008757377	(Get FASTA)	NCBI Sequence Viewer
	XP_008757378	(Get FASTA)	NCBI Sequence Viewer
	XP_008757379	(Get FASTA)	NCBI Sequence Viewer
	XP_038967541	(Get FASTA)	NCBI Sequence Viewer
	XP_063117717	(Get FASTA)	NCBI Sequence Viewer
	XP_063117720	(Get FASTA)	NCBI Sequence Viewer
	XP_063117724	(Get FASTA)	NCBI Sequence Viewer
	XP_063117725	(Get FASTA)	NCBI Sequence Viewer
	XP_063117727	(Get FASTA)	NCBI Sequence Viewer
GenBank Protein	EDM07644	(Get FASTA)	NCBI Sequence Viewer
Ensembl Protein	ENSRNOP00000028688.7
	ENSRNOP00000067998
	ENSRNOP00000067998.1
	ENSRNOP00000068202.1

RefSeq Acc Id:

NP_001258162 ⟸ NM_001271233

- UniProtKB:

A0A8J8XFB5 (UniProtKB/TrEMBL), A6JA91 (UniProtKB/TrEMBL)

- Sequence:

show sequence

MYCCSAQDSKMDYKRRFLLGGSKQKVQQHQQYPMPELGRALSAPLASTAPSAPLGSLTTAGSCHHAMPHSTPIADIQQGISKYLDALNVFCRASTFLTDLFSTVFRNSHYSKAAMQLKDVQEHVMEAA
SRLTSAIKPEIAKMLMELSAGAANFTDQKEFSLQDIEVLGRCFLTVVQVHFQFLTHALQKVQPVAHSCFAEVVVPEKKNSSSLSGMGHTPELEEAVRSWRGAAEATSRLRERGCDGRLAGIEVQQLFC
SQSAAIPEHQLKELNLKIDSALQAYKIALESLGHCEYAMKAGFHLNPKAIEASLQGCCSEAEAQQTGRRQTPPQPMQCELPTVPVQIGSHFLKGVSFNESAADNLKLKTHTMFQLIKEAGCYDGITPR
DDLPVTEVLNQVCPSTWRGACKTAVQLLFGQAGLVVVDTAQIENKEAYAPQISLEGSRIVVQVPSTWCLKEDPATMSLLQRSLDPEKTLGLVDVLYTAVLDLNRWRTGREQALPCIQIQLQRDICDFG
NQADLPSGNGSKSSGLQKTFSKLTSRFTKKVSCTNSGSTHYSKTIFTAGCSEEKAKMLGSNIDTRLQSILNIGNFPRTTDPSQSSQNSRNPMVNGFLLERRENFLHGDDGKDEKGMNLPTDQEMQEVI
DFLSGFNMGQSHQGSPLVTRRNSTATAMVTEQKTGTMQPQQPSLPLAPPLRPPQAGAHTPLAAQQGLAPQQQSPKQQQPQVQFYQHLLQPIGSQQTPPQSRAPGKWGHGSSQHPSQPMAAGLSPLGQW
PGISDLSSDLYSLGLVSSYMDNMMSEVLGQKPQGPRNNTWPNRDQSDGVFGMLGEILPFDPAVGSDPEFARYVAGVSQAMQQKRQAQHGRRPGNPRGNWPPMDDAHRTWPLPEFFTEGDSLHSGWSGA
QGDSASSSDETSSANGDSLFSMFSGPDLVAAVKQRRKHSSGEQETSTLPSPPLLTTVEDVNQDNKTKTWPPKAPWQHPSPLPSTLPSPAAPLYAVASPGSQWNDTMQMLQSPVWAAASDCNTTSFTYV
QTPPQPPPPPAHKAAPKGFKAFPGKAERRPAYLPQY

hide sequence

RefSeq Acc Id:	XP_006228912 ⟸ XM_006228850
- Peptide Label:	isoform X1
- UniProtKB:	A0A8J8XFB5 (UniProtKB/TrEMBL), A6JA91 (UniProtKB/TrEMBL)
- Sequence:	show sequence MYCCSAQDSKMDYKRRFLLGGSKQKVQQHQQYPMPELGRALSAPLASTAPSAPLGSLTTAGSCH HAMPHSTPIADIQQGISKYLDALNVFCRASTFLTDLFSTVFRNSHYSKAAMQLKDVQEHVMEAASRLTSAIKPEIAKMLMELSAGAANFTDQKEFSLQDIEVLGRCFLTVVQVHFQFLTHALQKVQPV AHSCFAEVVVPEKKNSSSLSGMGHTPELEEAVRSWRGAAEATSRLRERGCDGRLAGIEVQQLFCSQSAAIPEHQLKELNLKIDSALQAYKIALESLGHCEYAMKAGFHLNPKAIEASLQGCCSEAEAQ QTGRRQTPPQPMQCELPTVPVQIGSHFLKGVSFNESAADNLKLKTHTMFQLIKEAGCYDGITPRDDLPVTEVLNQVCPSTWRGACKTAVQLLFGQAGLVVVDTAQIENKEAYAPQISLEGSRIVVQVP STWCLKEDPATMSLLQRSLDPEKTLGLVDVLYTAVLDLNRWRTGREQALPCIQIQLQRDICDFGNQADLPSGNGSKSSGLQKTFSKLTSRFTKKVSCTNSGSTHYSKTIFTAGCSEEKAKMLGSNIDT RLQSILNIGNFPRTTDPSQSSQNSRNPMVNGFLLERRENFLHGDDGKDEKGMNLPTDQEMQEVIDFLSGFNMGQSHQGSPLVTRRNSTATAMVTEQKTGTMQPQQPSLPLAPPLRPPQAGAHTPLAAQ QGLAPQQQSPKQQQPQVQFYQHLLQPIGSQQTPPQSRAPGKWGHGSSQHPSQPMAAGLSPLGQWPGISDLSSDLYSLGLVSSYMDNMMSEVLGQKPQGPRNNTWPNRDQSDGVFGMLGEILPFDPAVG SDPEFARYVAGVSQAMQQKRQAQHGRRPGNPRGNWPPMDDAHRTWPLPEFFTEGDSLHSGWSGAQGDSASSSDETSSANGDSLFSMFSGPDLVAAVKQRRKHSSGEQETSTLPSPPLLTTVEDVNQDN KTKTWPPKAPWQHPSPLPSTLPSPAAPLYAVASPGSQWNDTMQMLQSPVWAAASDCNTTSFTYVQTPPQPPPPPAHKAAPKGFKAFPGKAERRPAYLPQY hide sequence

RefSeq Acc Id:	XP_006228913 ⟸ XM_006228851
- Peptide Label:	isoform X1
- UniProtKB:	A0A8J8XFB5 (UniProtKB/TrEMBL), A6JA91 (UniProtKB/TrEMBL)
- Sequence:	show sequence MYCCSAQDSKMDYKRRFLLGGSKQKVQQHQQYPMPELGRALSAPLASTAPSAPLGSLTTAGSCHHAMPHSTPIADIQQGISKYLDALNVFCRASTFLTDLFSTVFRNSHYSKAAMQLKDVQEHVMEAA SRLTSAIKPEIAKMLMELSAGAANFTDQKEFSLQDIEVLGRCFLTVVQVHFQFLTHALQKVQPVAHSCFAEVVVPEKKNSSSLSGMGHTPELEEAVRSWRGAAEATSRLRERGCDGRLAGIEVQQLFC SQSAAIPEHQLKELNLKIDSALQAYKIALESLGHCEYAMKAGFHLNPKAIEASLQGCCSEAEAQQTGRRQTPPQPMQCELPTVPVQIGSHFLKGVSFNESAADNLKLKTHTMFQLIKEAGCYDGITPR DDLPVTEVLNQVCPSTWRGACKTAVQLLFGQAGLVVVDTAQIENKEAYAPQISLEGSRIVVQVPSTWCLKEDPATMSLLQRSLDPEKTLGLVDVLYTAVLDLNRWRTGREQALPCIQIQLQRDICDFG NQADLPSGNGSKSSGLQKTFSKLTSRFTKKVSCTNSGSTHYSKTIFTAGCSEEKAKMLGSNIDTRLQSILNIGNFPRTTDPSQSSQNSRNPMVNGFLLERRENFLHGDDGKDEKGMNLPTDQEMQEVI DFLSGFNMGQSHQGSPLVTRRNSTATAMVTEQKTGTMQPQQPSLPLAPPLRPPQAGAHTPLAAQQGLAPQQQSPKQQQPQVQFYQHLLQPIGSQQTPPQSRAPGKWGHGSSQHPSQPMAAGLSPLGQW PGISDLSSDLYSLGLVSSYMDNMMSEVLGQKPQGPRNNTWPNRDQSDGVFGMLGEILPFDPAVGSDPEFARYVAGVSQAMQQKRQAQHGRRPGNPRGNWPPMDDAHRTWPLPEFFTEGDSLHSGWSGA QGDSASSSDETSSANGDSLFSMFSGPDLVAAVKQRRKHSSGEQETSTLPSPPLLTTVEDVNQDNKTKTWPPKAPWQHPSPLPSTLPSPAAPLYAVASPGSQWNDTMQMLQSPVWAAASDCNTTSFTYV QTPPQPPPPPAHKAAPKGFKAFPGKAERRPAYLPQY hide sequence

RefSeq Acc Id:	XP_008757377 ⟸ XM_008759155
- Peptide Label:	isoform X1
- UniProtKB:	A0A8J8XFB5 (UniProtKB/TrEMBL), A6JA91 (UniProtKB/TrEMBL)
- Sequence:	show sequence MYCCSAQDSKMDYKRRFLLGGSKQKVQQHQQYPMPELGRALSAPLASTAPSAPLGSLTTAGSCH HAMPHSTPIADIQQGISKYLDALNVFCRASTFLTDLFSTVFRNSHYSKAAMQLKDVQEHVMEAASRLTSAIKPEIAKMLMELSAGAANFTDQKEFSLQDIEVLGRCFLTVVQVHFQFLTHALQKVQPV AHSCFAEVVVPEKKNSSSLSGMGHTPELEEAVRSWRGAAEATSRLRERGCDGRLAGIEVQQLFCSQSAAIPEHQLKELNLKIDSALQAYKIALESLGHCEYAMKAGFHLNPKAIEASLQGCCSEAEAQ QTGRRQTPPQPMQCELPTVPVQIGSHFLKGVSFNESAADNLKLKTHTMFQLIKEAGCYDGITPRDDLPVTEVLNQVCPSTWRGACKTAVQLLFGQAGLVVVDTAQIENKEAYAPQISLEGSRIVVQVP STWCLKEDPATMSLLQRSLDPEKTLGLVDVLYTAVLDLNRWRTGREQALPCIQIQLQRDICDFGNQADLPSGNGSKSSGLQKTFSKLTSRFTKKVSCTNSGSTHYSKTIFTAGCSEEKAKMLGSNIDT RLQSILNIGNFPRTTDPSQSSQNSRNPMVNGFLLERRENFLHGDDGKDEKGMNLPTDQEMQEVIDFLSGFNMGQSHQGSPLVTRRNSTATAMVTEQKTGTMQPQQPSLPLAPPLRPPQAGAHTPLAAQ QGLAPQQQSPKQQQPQVQFYQHLLQPIGSQQTPPQSRAPGKWGHGSSQHPSQPMAAGLSPLGQWPGISDLSSDLYSLGLVSSYMDNMMSEVLGQKPQGPRNNTWPNRDQSDGVFGMLGEILPFDPAVG SDPEFARYVAGVSQAMQQKRQAQHGRRPGNPRGNWPPMDDAHRTWPLPEFFTEGDSLHSGWSGAQGDSASSSDETSSANGDSLFSMFSGPDLVAAVKQRRKHSSGEQETSTLPSPPLLTTVEDVNQDN KTKTWPPKAPWQHPSPLPSTLPSPAAPLYAVASPGSQWNDTMQMLQSPVWAAASDCNTTSFTYVQTPPQPPPPPAHKAAPKGFKAFPGKAERRPAYLPQY hide sequence

RefSeq Acc Id:	XP_008757379 ⟸ XM_008759157
- Peptide Label:	isoform X1
- UniProtKB:	A0A8J8XFB5 (UniProtKB/TrEMBL), A6JA91 (UniProtKB/TrEMBL)
- Sequence:	show sequence MYCCSAQDSKMDYKRRFLLGGSKQKVQQHQQYPMPELGRALSAPLASTAPSAPLGSLTTAGSCHHAMPHSTPIADIQQGISKYLDALNVFCRASTFLTDLFSTVFRNSHYSKAAMQLKDVQEHVMEAA SRLTSAIKPEIAKMLMELSAGAANFTDQKEFSLQDIEVLGRCFLTVVQVHFQFLTHALQKVQPVAHSCFAEVVVPEKKNSSSLSGMGHTPELEEAVRSWRGAAEATSRLRERGCDGRLAGIEVQQLFC SQSAAIPEHQLKELNLKIDSALQAYKIALESLGHCEYAMKAGFHLNPKAIEASLQGCCSEAEAQQTGRRQTPPQPMQCELPTVPVQIGSHFLKGVSFNESAADNLKLKTHTMFQLIKEAGCYDGITPR DDLPVTEVLNQVCPSTWRGACKTAVQLLFGQAGLVVVDTAQIENKEAYAPQISLEGSRIVVQVPSTWCLKEDPATMSLLQRSLDPEKTLGLVDVLYTAVLDLNRWRTGREQALPCIQIQLQRDICDFG NQADLPSGNGSKSSGLQKTFSKLTSRFTKKVSCTNSGSTHYSKTIFTAGCSEEKAKMLGSNIDTRLQSILNIGNFPRTTDPSQSSQNSRNPMVNGFLLERRENFLHGDDGKDEKGMNLPTDQEMQEVI DFLSGFNMGQSHQGSPLVTRRNSTATAMVTEQKTGTMQPQQPSLPLAPPLRPPQAGAHTPLAAQQGLAPQQQSPKQQQPQVQFYQHLLQPIGSQQTPPQSRAPGKWGHGSSQHPSQPMAAGLSPLGQW PGISDLSSDLYSLGLVSSYMDNMMSEVLGQKPQGPRNNTWPNRDQSDGVFGMLGEILPFDPAVGSDPEFARYVAGVSQAMQQKRQAQHGRRPGNPRGNWPPMDDAHRTWPLPEFFTEGDSLHSGWSGA QGDSASSSDETSSANGDSLFSMFSGPDLVAAVKQRRKHSSGEQETSTLPSPPLLTTVEDVNQDNKTKTWPPKAPWQHPSPLPSTLPSPAAPLYAVASPGSQWNDTMQMLQSPVWAAASDCNTTSFTYV QTPPQPPPPPAHKAAPKGFKAFPGKAERRPAYLPQY hide sequence

Protein Domains

DUF4745

Name	Modeler	Protein Id	AA Range	Protein Structure
AF-F1M037-F1-model_v2	AlphaFold	F1M037	1-1060	view protein structure

eQTL		View at Phenogen
WGCNA		View at Phenogen
Tissue/Strain Expression		View at Phenogen

RGD ID:

13689951

Promoter ID:

EPDNEW_R474

Type:

multiple initiation site

Name:

RGD1308428_1

Description:

similar to RIKEN cDNA 4931406P16

SO ACC ID:

SO:0000170

Source:

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

Experiment Methods:

Single-end sequencing.

Position:

Rat Assembly	Chr	Position (strand)	Source
Rnor_6.0	1	90,176,105 - 90,176,165	EPDNEW

Database	Acc Id	Source(s)
BioCyc Gene	G2FUF-60018	BioCyc
Ensembl Genes	ENSRNOG00000021129	Ensembl, ENTREZGENE, UniProtKB/TrEMBL
Ensembl Transcript	ENSRNOT00000028688.7	UniProtKB/TrEMBL
	ENSRNOT00000076419.2	UniProtKB/TrEMBL
	ENSRNOT00000076987	ENTREZGENE
	ENSRNOT00000076987.3	UniProtKB/TrEMBL
InterPro	DUF4745	UniProtKB/TrEMBL
	KIAA0355-like	UniProtKB/TrEMBL
KEGG Report	rno:308509	UniProtKB/TrEMBL
NCBI Gene	308509	ENTREZGENE
PANTHER	GRANULE ASSOCIATED RAC AND RHOG EFFECTOR PROTEIN 1	UniProtKB/TrEMBL
	PTHR15703	UniProtKB/TrEMBL
Pfam	DUF4745	UniProtKB/TrEMBL
PhenoGen	Garre1	PhenoGen
RatGTEx	ENSRNOG00000021129	RatGTEx
UniProt	A0A096MJN7_RAT	UniProtKB/TrEMBL
	A0A8J8XFB5	ENTREZGENE, UniProtKB/TrEMBL
	A6JA89	ENTREZGENE, UniProtKB/TrEMBL
	A6JA91	ENTREZGENE, UniProtKB/TrEMBL
	F1M037_RAT	UniProtKB/TrEMBL
UniProt Secondary	A0A096MJ57	UniProtKB/TrEMBL

Nomenclature History

Date	Current Symbol	Current Name	Previous Symbol	Previous Name	Description	Reference	Status
2020-04-17	Garre1	granule associated Rac and RHOG effector 1	RGD1308428	similar to RIKEN cDNA 4931406P16	Nomenclature updated to reflect human and mouse nomenclature	1299863	APPROVED
2008-04-30	RGD1308428	similar to RIKEN cDNA 4931406P16	RGD1308428_predicted	similar to RIKEN cDNA 4931406P16 (predicted)	'predicted' is removed	2292626	APPROVED
2005-01-20	RGD1308428_predicted	similar to RIKEN cDNA 4931406P16 (predicted)	LOC308509_predicted		Symbol and Name status set to approved	1331353	APPROVED
2005-01-12	LOC308509_predicted	similar to RIKEN cDNA 4931406P16 (predicted)			Symbol and Name status set to provisional	70820	PROVISIONAL

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