CGDB Gene Information

Tag Content
CGDB ID CGD-MuP-066925
Ensembl Accession ENSMPUP00000000120.1
Protein Name PER2
Ensembl Information ENSMPUG00000000124; ENSMPUT00000000124
Organism Mustela putorius furo
NCBI Taxa ID 9669
Circadian Information
Phase Amplitude
(FOLD)		 Tissue/Cell Evidence
Peak Trough External
condition
ZT 12 ZT 0 LD >10 Predicted from orthologs Q65ZG8
ZT 6 ZT 18 LD 5 skeletal muscle Predicted from orthologs F6ZZH0
ZT 21 ZT 9 LD 6 duodenum Predicted from orthologs Q8QGQ8
ZT 2 ZT 18 LD 3.17 embryos Predicted from orthologs Q8QGQ8
ZT 6 ZT 18 LD 8 embryos Predicted from orthologs Q8QGQ8
CT 12 CT 0 DD1 3 granulosa cells Predicted from orthologs Q8QGQ8
ZT 3 ZT 18 LD 84.29 pineal glands Predicted from orthologs Q8QGQ8
ZT 23 ZT 11 LD 2.25 spleen Predicted from orthologs Q8QGQ8
CT 4 CT 12 DD2 27 aortic smooth muscle cells Predicted from orthologs O15055
ZT 4 ZT 21 LD 5 human HaCaT keratinocytes Predicted from orthologs O15055
ZT 1 ZT 19 LD 2.67 human hair follicle cells Predicted from orthologs O15055
CT 12 CT 0 LL1 3.43 oral mucosa Predicted from orthologs O15055
CT 3 CT 15 DD2 5 U2OS cells Predicted from orthologs O15055
CT 6 CT 18 DD1 4 SCN Predicted from orthologs O54943
CT 9 CT 3 DD1 3 eye Predicted from orthologs O54943
ZT 19 ZT 7 LD 2.5 amygdala Predicted from orthologs O54943
ZT 12 ZT 4 LD 2 bone Predicted from orthologs O54943
ZT 13 ZT 5 LD 2.4 bone marrow Predicted from orthologs O54943
ZT 18 ZT 6 LD 1.89 brain Predicted from orthologs O54943
ZT 15 ZT 23 LD 3 cortex Predicted from orthologs O54943
ZT 13 ZT 2 LD 10 heart Predicted from orthologs O54943
ZT 13 ZT 1 LD 2.5 hippocampus Predicted from orthologs O54943
ZT 16 ZT 0 LD 25 jejunum Predicted from orthologs O54943
ZT 15 ZT 23 LD 6 kidney Predicted from orthologs O54943
CT 15 CT 3 DD1 4 liver Predicted from orthologs O54943
ZT 16 ZT 4 LD 7 liver Predicted from orthologs O54943
CT 18 CT 6 DD2 10 MEFs Predicted from orthologs O54943
ZT 17 ZT 1 LD 6 megakaryocytes Predicted from orthologs O54943
ZT 18 ZT 6 LD 3 n primary visualcortex (V1) Predicted from orthologs O54943
CT 0 CT 12 DD2 10 NIH-3T3 cells Predicted from orthologs O54943
CT 12 CT 0 DD3 4.79 ovary Predicted from orthologs O54943
ZT 12 ZT 4 LD 5 pituitary gland Predicted from orthologs O54943
CT 12 CT 20 DD3 5 retina Predicted from orthologs O54943
ZT 12 ZT 16 LD 5 retina Predicted from orthologs O54943
CT 12 CT 20 DD3 6 retinal pigment epithelium)圧PE) Predicted from orthologs O54943
ZT 0 ZT 16 LD 2 retinal pigment epithelium)圧PE) Predicted from orthologs O54943
CT 9 CT 21 DD1 6 SCN Predicted from orthologs O54943
CT 8 CT 16 DD1 20 SCN Predicted from orthologs O54943
CT 15 CT 3 DD1 3 skeletal muscle Predicted from orthologs O54943
CT 14 CT 2 DD3 12 suprachiasmatic nucleus (SCN) Predicted from orthologs O54943
ZT 16 ZT 4 LD 9 abdominal adipose tissue Predicted from orthologs Q9Z301
ZT 16 ZT 4 LD 2 anterior cingulate Predicted from orthologs Q9Z301
ZT 14 ZT 2 LD 2.05 area postrema Predicted from orthologs Q9Z301
ZT 18 ZT 2 LD 6.38 AV3V Predicted from orthologs Q9Z301
ZT 16 ZT 4 LD 14 basolateral nucleus of the amygdala Predicted from orthologs Q9Z301
ZT 10 ZT 6 LD 2 caudal ventrolateral medulla Predicted from orthologs Q9Z301
CT 12 CT 8 DD17 4.35 colon Predicted from orthologs Q9Z301
ZT 14 ZT 2 LD 3.29 dorsal vagal motor nucleus Predicted from orthologs Q9Z301
ZT 2 ZT 14 LD 1.8 dorsomedial nucleus Predicted from orthologs Q9Z301
ZT 4 ZT 16 LD 5.5 entral nucleus of the amygdala Predicted from orthologs Q9Z301
ZT 14 ZT 2 LD 5.7 heart Predicted from orthologs Q9Z301
ZT 4 ZT 16 LD 15 hippocampus Predicted from orthologs Q9Z301
ZT 16 ZT 3 LD 57 intestinal jejunal mucosa Predicted from orthologs Q9Z301
CT 16 CT 4 DD17 5 liver Predicted from orthologs Q9Z301
ZT 14 ZT 2 LD 8.5 liver Predicted from orthologs Q9Z301
ZT 16 ZT 4 LD >5 mammary gland (pubescent female F344 rats) Predicted from orthologs Q9Z301
ZT 4 ZT 16 LD 8 nucleus accumbens core Predicted from orthologs Q9Z301
ZT 0 ZT 12 LD 7 nucleus accumbens shell Predicted from orthologs Q9Z301
ZT 14 ZT 6 LD 2.07 nucleus ambiguus Predicted from orthologs Q9Z301
ZT 14 ZT 6 LD 2.63 paraventricular nucleus Predicted from orthologs Q9Z301
ZT 8 ZT 20 LD 4 prefrontal cortex Predicted from orthologs Q9Z301
ZT 12 ZT 8 LD 2.5 PVN Predicted from orthologs Q9Z301
ZT 16 ZT 4 LD 2 rostral agranular insula Predicted from orthologs Q9Z301
ZT 12 ZT 20 LD 3.92 SCN Predicted from orthologs Q9Z301
ZT 8 ZT 20 LD 2 SCN Predicted from orthologs Q9Z301
ZT 12 ZT 20 LD 2 SCN Predicted from orthologs Q9Z301
Descriptionperiod circadian clock 2 [Source:HGNC Symbol;Acc:HGNC:8846](View all)
Protein Sequence
(Fasta)		 MGLHCRANMN GYAEYPPSPG PPAREPEEPE PRGAQLQEDV HMRSSSSGNE TEENRSPGQD 60
CQGSQELEML VGPPSASPGP NTFDLMMAKS EHSTSASGCS EQSAKVDAHK ELIKTLKELK 120
VHLPVDKKAK GKASTLATLK YALRSVKQVK ANEEYYQLLM SSENHPCSAN VPSYTIEEIE 180
SVTSEFIVKN VGMFAAAVSL VTGKILYISD QVASIFHCKR DAFYGARFVE FLAPHDVSVF 240
HASTTPYKLP PWSMCSGADS FTQECMEEKS FFCRVSIGKT HENEIDYHPF RMTPYLVKVR 300
DPQGAGGQLC CVLLAERVHS GYEAPRIPPE KRIFTTTHTP NCLFQDVDER AVPLLGYLPQ 360
DLIETPMLLQ LHPSDRPLML TIHKKIVQSG GQPFDYSPIR FRARNGEYVT LDTSWSSFIN 420
PWSRKISFII GRHRVRVGPL NEDVFSAQSP VEEKDPPPSI QGLTEQIHRL LLQPVPHSGS 480
SGYGSLGSNG SHEHLMSQTS SSDSNGHEDS RRKRTEICKN NGNIKNKSHP GESGEQKEKS 540
ATETPSSSSA QIKAVPVEQD SSGTSLPVGG SPEELGCRNP PAGSYQQISC LDGVIRYLES 600
CSEAATLKRK CEFPVNVATQ KASDKRQAVA SPGLPSAETA SSSKVNSHAG VSAHLPSLTL 660
PSKAESVVSL TSQCSYSSTI VHVGDKKPQP ELELVEDAMS GPESLDGRPC ILGTEKEPLR 720
TLGLTKEVLA AHTQKEEQSF LLKFKEMRKL TIFQSRCHYY LQEKSKGQLS ERAAPGLRNA 780
SGIDSSWKKT GKNRKLKSKR AKPRDSSEST GSGGPATHRP PLMGLNATAW SPWDTSQSSC 840
PTTPFPASVP AYPLPVFPAP GIMPTPGMVA SAPLAPQASF AVPAVPMDTQ HEFAIQHPPF 900
AVPLTPVMAL VLPNYSFPSV TPSLSQAFFP GQPNFLSEMI PASQPELPSQ TSPHKAPCTC 960
PLAERGLAAS RAATPVSPPS ASGPPGRASP PLFQSRGSSP LQLNLLQLEE VPEGSAAASG 1020
TAGPAGTAGT VGAGPDCRPS TSWDRQPKAS PIHEEPADAR NSDALSTSSG LLDLLLHEDL 1080
CSATGSALSG SGASATSDSL GSGSLGCTTS RSGAGSSDTG HTSKYFGSID SSEKNHKAKA 1140
KADMEESEQF IKYVLQDPVW LLMADTDDSV MMTYQMPSRN LETVLKEDRE KLRAMQKSQP 1200
HFTEGQRQEL LDVHPWLRGS RLPAALDLME CIYCGNKGQD NICPPYEEDT PTLGLSEATD 1260
AKEEENGAPL SHRSEERT 1278
Nucleotide Sequence
(Fasta)		 ATGGGACTTC ACTGCAGAGC CAACATGAAT GGATATGCCG AGTACCCCCC AAGCCCCGGT 60
CCCCCTGCCC GGGAGCCAGA GGAGCCTGAG CCCCGTGGAG CCCAGCTCCA GGAAGATGTG 120
CACATGCGCA GTAGCTCCAG TGGGAATGAA ACCGAGGAGA ACCGCTCCCC GGGGCAAGAC 180
TGCCAGGGCA GCCAGGAGCT GGAGATGCTG GTGGGGCCAC CCAGCGCCTC CCCAGGTCCC 240
AATACGTTTG ACCTCATGAT GGCAAAGTCT GAACACAGCA CATCTGCAAG TGGCTGCAGC 300
GAGCAGTCCG CCAAAGTAGA CGCGCACAAG GAGCTGATAA AAACGTTAAA GGAGCTGAAG 360
GTCCACCTGC CAGTAGACAA GAAGGCCAAG GGGAAAGCCA GCACTCTGGC CACCTTGAAA 420
TATGCACTAA GGAGCGTGAA GCAGGTGAAA GCCAATGAGG AGTATTACCA GCTGCTCATG 480
TCCAGTGAGA ACCACCCCTG CAGTGCCAAC GTGCCCTCCT ACACCATAGA AGAGATTGAG 540
AGTGTCACCT CCGAGTTCAT TGTGAAGAAC GTGGGTATGT TTGCTGCGGC CGTGTCCCTG 600
GTCACCGGGA AGATCCTGTA CATCTCTGAC CAAGTTGCCT CCATCTTCCA CTGTAAAAGG 660
GACGCCTTCT ATGGCGCCAG GTTCGTGGAG TTCCTGGCGC CCCATGACGT GAGCGTGTTC 720
CACGCCTCCA CCACGCCTTA CAAGCTCCCG CCCTGGAGCA TGTGTAGCGG AGCAGATTCA 780
TTTACTCAGG AATGCATGGA GGAGAAATCA TTCTTCTGCC GTGTCAGCAT TGGGAAAACC 840
CATGAGAACG AGATTGACTA CCACCCGTTC CGCATGACGC CTTACCTGGT CAAGGTGCGG 900
GACCCACAGG GCGCCGGGGG CCAGCTGTGC TGCGTGCTGC TGGCGGAGAG AGTACACTCG 960
GGCTACGAAG CCCCTAGAAT TCCTCCTGAA AAGAGAATTT TTACGACCAC ACATACACCA 1020
AATTGTCTGT TCCAGGATGT GGACGAAAGG GCGGTCCCCC TTCTGGGCTA CCTACCTCAG 1080
GACTTGATTG AGACCCCCAT GCTTCTGCAA CTTCACCCAA GTGACCGGCC TTTGATGCTC 1140
ACCATCCATA AAAAGATTGT ACAATCCGGT GGGCAGCCCT TCGACTATTC TCCCATTCGG 1200
TTCCGCGCCC GGAACGGCGA GTATGTCACT CTGGACACCA GCTGGTCCAG CTTCATCAAC 1260
CCATGGAGCA GGAAGATCTC CTTCATCATC GGCAGACACA GAGTCAGGGT GGGCCCTTTG 1320
AATGAGGACG TGTTCTCAGC TCAGTCTCCA GTGGAGGAGA AGGACCCGCC CCCCAGCATT 1380
CAGGGGCTCA CAGAGCAGAT CCACCGGCTG CTGCTCCAGC CCGTCCCCCA CAGCGGCTCC 1440
AGCGGCTATG GGAGCCTGGG CAGCAACGGG TCCCATGAAC ATCTCATGAG CCAGACCTCC 1500
TCCAGTGACA GCAACGGTCA CGAGGACTCC CGCCGCAAGA GGACCGAAAT TTGTAAAAAT 1560
AATGGCAACA TCAAAAACAA AAGTCATCCT GGGGAATCTG GAGAACAAAA GGAAAAATCC 1620
GCAACAGAGA CTCCGAGTAG TTCCTCTGCT CAGATAAAAG CTGTCCCCGT GGAACAGGAC 1680
AGCTCTGGCA CTAGCCTGCC TGTGGGCGGC TCTCCCGAGG AGCTGGGCTG CAGGAACCCG 1740
CCCGCTGGTT CCTACCAGCA GATCAGCTGC CTGGACGGTG TCATCAGATA CCTGGAGAGC 1800
TGCAGTGAGG CGGCCACCCT CAAGAGGAAG TGTGAGTTCC CGGTGAATGT GGCGACGCAG 1860
AAGGCCAGCG ATAAGCGACA GGCAGTGGCC AGCCCTGGGC TGCCTTCCGC AGAGACAGCG 1920
TCATCCTCCA AGGTGAACAG CCACGCGGGG GTCAGCGCAC ACCTGCCATC ACTGACGCTG 1980
CCCAGCAAGG CGGAGAGTGT AGTGTCCCTC ACCAGCCAGT GCAGCTACAG CAGCACCATC 2040
GTGCATGTGG GTGACAAGAA GCCGCAGCCC GAGCTTGAGC TGGTGGAAGA TGCCATGAGT 2100
GGGCCTGAGT CTCTGGACGG ACGGCCGTGC ATCCTGGGCA CGGAGAAGGA GCCCCTCAGG 2160
ACGCTGGGCC TTACCAAGGA AGTGCTGGCT GCCCACACCC AGAAGGAGGA ACAGAGCTTC 2220
CTGCTTAAGT TCAAGGAGAT GCGAAAACTC ACTATCTTCC AGTCTCGCTG CCATTATTAC 2280
TTACAGGAAA AGTCCAAGGG GCAGCTGAGT GAGAGAGCTG CACCAGGACT AAGAAATGCT 2340
TCTGGAATAG ATTCATCTTG GAAAAAAACT GGGAAGAACA GAAAACTGAA GTCCAAACGG 2400
GCCAAGCCTC GAGACTCTTC TGAGAGCACT GGGTCTGGGG GCCCTGCGAC CCACCGGCCC 2460
CCGCTGATGG GCCTGAATGC CACAGCCTGG TCACCTTGGG ACACGTCCCA GTCCAGCTGC 2520
CCCACAACGC CCTTCCCTGC CTCAGTGCCT GCTTACCCCC TGCCTGTGTT TCCAGCCCCA 2580
GGAATCATGC CCACACCAGG GATGGTGGCG TCGGCACCCC TGGCTCCCCA GGCCAGCTTC 2640
GCAGTGCCCG CCGTGCCCAT GGACACCCAG CATGAGTTTG CCATCCAGCA CCCGCCGTTC 2700
GCTGTCCCCT TGACCCCAGT CATGGCATTG GTGTTACCCA ACTATTCCTT CCCTTCAGTG 2760
ACCCCCAGCC TGTCCCAGGC CTTCTTCCCA GGCCAGCCTA ACTTTTTGTC TGAGATGATC 2820
CCTGCCTCGC AGCCTGAGCT CCCCAGCCAG ACCTCACCCC ACAAAGCACC ATGCACGTGT 2880
CCTCTGGCGG AGCGTGGGCT GGCAGCTTCT CGCGCAGCCA CCCCCGTGTC CCCACCATCT 2940
GCCTCTGGGC CCCCGGGCAG AGCCTCCCCT CCACTCTTCC AGTCCCGAGG CAGCTCGCCT 3000
CTGCAGCTCA ACCTGCTGCA GCTGGAGGAG GTCCCTGAGG GCAGCGCCGC GGCCTCAGGA 3060
ACGGCAGGGC CCGCAGGGAC AGCGGGGACA GTGGGTGCAG GGCCTGACTG CAGACCTTCC 3120
ACATCCTGGG ACCGGCAGCC GAAGGCCTCG CCAATCCATG AGGAACCTGC AGATGCCCGG 3180
AACAGTGATG CCCTCTCCAC ATCCAGTGGC CTGCTGGACC TCTTGCTGCA CGAGGACCTG 3240
TGCTCAGCCA CAGGGTCGGC CCTATCTGGG AGCGGAGCCT CTGCTACATC CGACTCCCTG 3300
GGCTCAGGCT CACTGGGCTG CACTACATCC AGAAGTGGAG CAGGCAGTAG TGACACAGGT 3360
CACACCAGCA AGTATTTTGG AAGCATTGAC TCTTCGGAGA AGAACCACAA AGCGAAAGCA 3420
AAGGCAGATA TGGAAGAAAG TGAGCAGTTC ATCAAGTATG TCCTGCAGGA CCCGGTCTGG 3480
TTGCTGATGG CCGACACAGA TGATAGCGTC ATGATGACCT ACCAGATGCC TTCCCGGAAT 3540
TTGGAAACAG TGTTGAAGGA AGACCGGGAG AAGCTGAGAG CCATGCAGAA GTCCCAGCCC 3600
CACTTCACTG AGGGCCAGAG GCAGGAGCTG CTGGACGTGC ATCCATGGCT GAGGGGCAGC 3660
CGCCTGCCTG CCGCCCTGGA CCTCATGGAA TGTATTTACT GTGGGAACAA GGGACAAGAC 3720
AACATCTGCC CACCCTACGA GGAAGATACC CCTACTCTGG GTCTCAGTGA AGCCACAGAT 3780
GCCAAAGAGG AGGAAAATGG AGCCCCCTTG AGTCACAGAA GTGAAGAGCG GACCTAGCTC 3840
TCCTCCCTGC GCCCCGACAG CTCGTGATCT ACATTAGATG GTGCTCAGAA GCGATGAAAG 3900
ATGTTCATAT CTGTCTGTAA TGAAATGGAC AGATAAACTT ATGTCGCTTT TTTTGTTTTA 3960
GAAAAAAACA TAGTTTTCTG AAGGAATGAT TTAAAAACTG TGGAGAGTGG GAAGGGTCGG 4020
GGAGGAAATA CACTTTGGTA TTTAAAACAT AAATACAAAG TTTGGGACAG ATTTCGTTAT 4080
TCCTTAACTT GAGAAAGCTG GAATGCCCTC AGCATGCGGC AGGGAGGTTG CCCTAGGGCT 4140
CTCAGAGGTC TGTGCCCCGC GGAGGCTTCT GGCTGGCTGG GGGGATTGTC CAGAGACATC 4200
TTCCAGCCTG CAGCAAACAG CTGGGATGCT CCCGGTCCTT CCAGAGCTGC CCCCAGGTGT 4260
GTTTGGATCA GATCAGATTC TGTGCACTGG GGTCTGCTCT GTATCTAGAT CACCTAGACA 4320
TCATCTAGAC AAACTAGATG TTTTTGGAAT GTACCAAATG GAGATCCCAG CCTCTCCTAA 4380
CTTTCTAAGT GTTTCGCGTG TGTCGCTGTG AAGTGTACTT CAGCAAACCA GCAGCTTCTG 4440
CTTTGGCTAC TAAATGTTGG CAAACCTTTC AATCTGATGT AGCTTGTGTT TTGCCCAAGC 4500
CAAGGAGAGA TGCTCACTCT GGAAAGAAGA AGCCCCGTGG TTTGTCTGAC CAGCTCTATC 4560
AGATGGGCAC ATACCCAGAA CCTTCTGTGT ATTTCTACAT CATCCTTGGG TCCCTTTCAG 4620
ACCATGACCA TATGTAGATA AAATATGGTG TTGACTGTCT CTATGGCGAC TTCCCTTTGC 4680
AGACCGGTCT CCAGTAGCCA CATTTGGAAC CCGTTGGTGT CTGTCCTTCA GCTGGAGCCC 4740
CCCAGACACG AGCTCTGACA CTGTGAGTTG GTGACCCCAC CTGTGCTTTC CTGAGTGCCG 4800
TGAGCTTGCC TCTCCCCGCA CCCTGGGCTG ATATGCCAGC CCTTGTTCTT TCCATGAGCC 4860
TGACCTCACT CGGGGAAGCT TCTGATCCCA GCAGTGACAG TCCTCATGTC ACCAGCACTG 4920
TCTGGTCACT GGGACACCGG TGGAGGAGTG AGGCCGGTCT GCCCATTTCC TTACAAAACC 4980
TCATGTTGCA TTGTGGATTC CAAGGATTGT TTGGGGGAAA GCTATATTGG TCCCTGGAGT 5040
GAAGGTTACC GCAAGAGAAA GAGCTGACTT AAGATCGGGT TGAGTTTGTA AAAACAGAAA 5100
AGAAAGCAGG CTTTATCCCA TCCTCTGATG GAGAAGTGGC TGCAAGAATC AGTGCAGTGT 5160
CCTTATAATC TGCTTGGTTT TCAGTCTTAC ATTTGGATAT TAATCCGATT TTTCTTAAAC 5220
TCCAATGTAA GAATATTGGT GGGTTTTAAA AATTATAAAG TAACAGCACC TTCAGATGCC 5280
CAAAATGAGA TGGTAGCCTG TGTATTTGTT GGAGAATAGA TGCCTTCAAA CCTACCCCCT 5340
GCCGCTGAGG TCCAATCATT AAGGGATTAG ATGCTAGTCA AGGTTACGTG TATGTTACCT 5400
AAACACACAA TTGTCAAAAC ATTGTCCACG GCTATGAATG TTTACCATCA GCGTTATTTT 5460
ATTATATGAT CTATGCTCAT TGATTGTTAA GTGCATAGCT TAACGCGTGC TGGGCAGTTG 5520
ACAATAGGAG CATTTTGTGA AATTGTTTAC ATGGTGCCAC GTATCAAGAC GTGTTTCCCT 5580
TAGTATGTGT GCTTACACAG GGGTTATAAA ACCTTGTTCT CGATTTTAAA CTGAGCCTTC 5640
TTTTTAATCT ATTCCTGAAA AGACGTGTAA ATAAGCTCTC AGAGTCTGTG TAATGACTTG 5700
GTCAGCCTTG CCGTTCACGT GGTTTGTTCA CACACAGACC AAAATTTCTT CACCCAGTGC 5760
AATATGTTTG TTTACTGCTT GTGTCTTTTT ATGACTGTTT TTGCTTTTTA GAAAATTGCT 5820
AAATAAAGCA AGTATATTTT TGTTGTTAAT TGTATGTACT TTTTAAAAAG ATTTTTATTT 5880
TATTTTATTT GACAGAGAGA GAGAGACATC ACAAGTAGGC AGAGAGGCAG GCAGAGTGGG 5940
GGGGAAGCAG GCTCCCCGCC AAGCAGAGAG CCTGATGTGG GGCTCCATCC CAGGATGCTG 6000
AGATCATGAC CTGAGCGGAA GGCAGAGGCT TAACCCACTG AGCCACCCAG GCACCCCTAA 6060
TTGTATGTAC TTTTAATGAA GCATGGGGCC AAAACCATAG AGATCAAAGA TTACCAAAAG 6120
ATGAAACAAG AAGGAAAGGA AGAAAAAGAA CTTCAGAAAT GCTGTGTGAG GAGTCACGTC 6180
AGTCTCAAAG ACCTGCCGCA TCTCTTCCAT GGCACAGCTG GTCCCTTCCT GCGCATGTAT 6240
GTGGGCATCT CTCTCCCGTA CCCCCGCCGC TCGCTGCCCT AGCTGCCCAG GGTATTCTTA 6300
AGATGCAACA TCACAGAATG TAAATCTAAT CCTGTGACCC AGTGCTGCCA CAGGCTTTTC 6360
ACTTGCAGAC ACAGGGGTGG GGCTTCCTGA CTCAGCCCCC AGCTCCAGTC CACTCTGAGA 6420
TGGCCCCAGG CACCCAGTCT CTTCCCTTTG TGCCCTGTGT TCCTCCTGGG CTAGCTGGCA 6480
GTGTACTGGC CACGGGGCTG AAGGCAGAGG TTAGAAGGAT GCCAGCCAGA AAGGTCTCCT 6540
GCTCCATCAG AGACCATAGA GGCAGCACCG CAAAATCCCC TCCCTGCATG CAGCCGGTTC 6600
TTGCCATAGT GACGGCTCCT TGCCCGGCCC GCAAAACAGG GGAGTGCTGC TTCCAACTTC 6660
CTCCCACTTT TCATACCCAT ACCATGGGAA ACAGAGCAAG GAGAGGAATG GATCCTGGAC 6720
CCAGTGCCCA GCCTCCCAGA AGCTCCCTGA GTAGGAGGGA AGACTTGACT CCCTGCCTCC 6780
TAGCCTGGTG GTGATGGGGG GATGGGGTGG GGGTAGGGGA ACAAAGGCAA AGTCCTCCAA 6840
GTGGGTATGG AAGCCTCCGC AAACTGGCCT TAAATGGCCA GATATGGCCG TTTCACCGAA 6900
CTGAATGCCA CTGGGGACTC TTAATTGCAT TTTCATTTAC CATATAACCC CAAAGTCACC 6960
CCCTGGTTTA TTTCCAGACC AAAAGGAGCT TCTCCAAGCT TTCTAGGCTG ATTGCCTACA 7020
AGGGGCCTGA ACGTCCATAG GCTGGCTGCT GCCTTTGTTC CCTGGGGATT TATGGCCTGC 7080
CACCCCTGCC GCTAACTGGT CCCCCTGTGG CCACCACAGC CCTGCCCAGA CTCTGCTGGC 7140
CTCTGTTCCT GGATCTGGGG GGATCAAAGG GCCCAAATGC TCAGGAAGTC TGTGCTCAAG 7200
CAACCTTTGA AGGTAGGATC AGTCCAAGGG ACAAATGGCA GGAAATGGGT CCACTAGGGG 7260
AGGCCATGCA AAGGAGGGAG AGAGGGCTTG GTGTCCCTGA GATGGAACAG CCAGGCTTCT 7320
GGGAGGGCCA AGCCAGCCAG CCAATGGACC CACTAAGGGA AATGGAGGCG AACTTCAAAG 7380
ATGGGTCATT GGGGAACTTC TGGTCCAGCC AAACATCTTA TTGACTCCTA ATACCTTGCT 7440
CTATCCTTGT GCTTTTTTTC CTCAGGGTTC TTGGTCACAA TGAGGCATAC CTCAGCACTT 7500
AATTTCTCCT TCCTTCAACT CTATAGAAAG CATTCCTCAA ACC 7543
Sequence Source Ensembl
Orthology
CGDB IDSpieces IdentityE-ValueScore
CGD-CaE-021686Caenorhabditis elegans25.59 6.40e-19 93.97
CGD-EqC-020992Equus caballus72.08 0.00e+00 1711
CGD-GaG-021834Gallus gallus51.46 0.00e+00 1183.7
CGD-HoS-021036Homo sapiens (Human)68.59 0.00e+00 1667.5
CGD-MuM-021066Mus musculus (Mouse)65.05 0.00e+00 1580.5
CGD-RaN-022186Rattus norvegicus64.42 0.00e+00 1566.2
Gene Ontology

GO:0005737--cytoplasm
GO:0005634--nucleus
GO:0005515--protein binding
GO:0005654--nucleoplasm