CGDB Gene Information

Tag Content
CGDB ID CGD-AnC-071415
Ensembl Accession ENSACAP00000002744.3
Protein Name PER2
Ensembl Information ENSACAG00000002744; ENSACAT00000002813
Organism Anolis carolinensis
NCBI Taxa ID 28377
Circadian Information
Phase Amplitude
(FOLD)		 Tissue/Cell Evidence
Peak Trough External
condition
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)		 MSDYLEIENA KMIVESTDIQ MKNEQNLNVL QEDFEMNGES SANDANEHYS IGHDSHSNEG 60
EENGKETAMI MESLECYKSS ELTLKSKTQK ELIKTLQELK GHLPPDKMIK GKSNILATLK 120
YALRSIKQVK ANEEYYQLMM INESYPCGLD VLSYTVEDVE NITTEYIMKN SDMFAVAVSL 180
ATGKILYISD QVASILHCKK DLFKNARFVE FLAPQDVSVF YSATTPYRLP SWSICSGVES 240
TTQECIEEKS FFCRISAGKE HINEICYHPF RMTPYLIKVQ NIEDQLCCVL LAEKVHSGYE 300
APRIPPNKRV FTTTHTPSCL FQDVDERAVP LLGYLPQDLI GTPVLMHLHP SDRPLMLAIH 360
KKILQCGGQP FDYSPIRFCS RNGEYVTLDT SWSSFINPWS RKISFIIGRH KVRTGPLNED 420
VFAPHCAEEK SIHPNVQEIT EQIHRLLLQP VHNSGSSGYG SLGSNGSHEH LMSVASSSDS 480
NGNNNEDIQR IPKPNSSRGT YKDGPVAKNK EEYVPFDSRS QPENQKISYG EKPSDQCGHM 540
KNSTSLAEND TVGIVCQRSL AGDELAWGDQ PVYSYQQISC LDSVIRYLES CTADEAVKKK 600
PPTVSNAVSP NSDIHRNKMN DNSIRTSTEE SGQSKAHIGP TVLESPDKSS TVVGAHLTSL 660
TLPGKPESVV SFTSQCSYSS TIVHVGDKKP QPEIEIIEDG PTGTEPTEGQ LVAPQSNTSQ 720
KNQEKEAFKK LGLTKEVLAV HTQKEEQNFL NKCKEIKKSH IFQYHCNYYF QEKNRKHPGG 780
HGIYGLQHGS GIEHSWKKNG KNRKSKSKRY KPHESSDSTV SGTKLPHRFP LLGPNATGCT 840
PSDTSQASCP TMPFPAVMPA YPLPAFPPTG TVPSGPEASL SGLNESQDLG NNCALPLSQF 900
PAPLVTPVVA LVLPNYVYPQ VNHSVSQTLY PDPPSFSGQP SFSSPSQFTA QLPFTPLNPF 960
PPQTMFPAQP FPYSPSADNE KAPVTESRND PSRSCTPQSL GPQDQPSTPL FQSRCSSPLQ 1020
LNLLQLEEMP KVTENGTTGP LSGLGTVTDG ETTCKPMTLE DCNREAPSPM DSPMEAQNSD 1080
TFSVSSDLLD ILLQEDGSSS RSGVSAATES LGSGSNGCGM SGSGTGGSET SNTSKYFGSI 1140
DSSENNHKTK VPEVEESEQF VKYVLQDPIW LLMANTDDAV MMTYQIPSRN LEAVLKEDKL 1200
KLKQMQKFQP KFTEDQKREL LEVYPLIQKG GLPEMVANSL CMYCEDNINS RSYTQDEEEV 1260
HEMELNEMSE DCGENNLNTL NSHQ 1284
Nucleotide Sequence
(Fasta)		 GGAGTGGCAC GTGAAGCTTA TGCAACGTGA GTGACGTCCG CCGCGGCCAA TAGGAGCCTC 60
GGGAGCGGTG CCGCCCGCCC AGCCCCTTCT TCCGAGGCGG CCAATCGGCG CCCGCTCCAG 120
CGCTTCCCTC AGGCACGGTC ACGTTGCGGA GGGTATGAGG CCGGAGTCGG CCGCACCGAA 180
GGCAGGCTTG AGAGGGAGAG CGGAAGAGAG AGGAAGGGAG GGGGGCTCCC CTCCGAGGGG 240
CGGGGGTCGG CCTCAGCGCG AGAGGGGCCG CTTCCGGCCA AGACCACCCG CCTCGCAGTC 300
CCTTCGCGCC GAGGCTGAGG CAAAGGGCGG TTGTGTAACA CCAGGCTTCC GCCAGTCAGC 360
CCGCATGCCG TCTCCTCACT GTCGTCGTCT CTGTTGCGGG CGAGGGGCTC CCTCGGGGTC 420
AGTAGGTTGT GAACGCTAAG ATAAAGGTGT GAAGAGTTAT GAACAGTAAC ACAAATATGG 480
CTTGAAAAAT AACAAAACTG CATCCGGTTT TCATATTTCA TTGAAAAGCT GAATTCTGGA 540
AGTTGAGCTT TGTAAAACAT TTCATTGTGG TAGTTGTTTT TAAAAGACTC CTCAGCATGA 600
GTGACTACTT GGAAATAGAA AATGCTAAAA TGATCGTAGA AAGCACAGAT ATTCAGATGA 660
AGAATGAACA GAATCTGAAT GTTCTACAAG AAGACTTTGA AATGAATGGG GAATCAAGTG 720
CAAATGATGC CAATGAACAT TACTCCATTG GACATGACTC TCATAGTAAT GAGGGTGAAG 780
AAAATGGAAA AGAAACAGCT ATGATAATGG AATCGTTAGA ATGTTATAAA AGCAGTGAAC 840
TGACTTTGAA ATCAAAAACT CAGAAGGAAC TGATAAAAAC ATTGCAAGAA TTAAAAGGGC 900
ATCTTCCTCC TGATAAAATG ATCAAAGGCA AATCTAATAT CCTAGCAACG CTGAAATATG 960
CACTACGAAG CATTAAGCAA GTTAAAGCCA ATGAAGAATA TTATCAGTTG ATGATGATAA 1020
ATGAGAGCTA TCCCTGTGGT CTTGATGTAT TGTCCTATAC TGTTGAAGAT GTCGAAAACA 1080
TTACTACAGA GTATATCATG AAGAATTCAG ACATGTTTGC TGTAGCTGTT TCTTTGGCTA 1140
CTGGGAAAAT TCTCTACATC TCTGATCAGG TTGCATCAAT TCTTCATTGT AAGAAGGATT 1200
TGTTTAAAAA TGCCAGATTT GTGGAATTTC TGGCACCCCA GGATGTTAGT GTGTTCTATA 1260
GTGCTACTAC TCCATACAGA TTGCCATCTT GGAGTATTTG CAGTGGAGTA GAATCTACCA 1320
CACAAGAGTG CATAGAAGAA AAATCTTTTT TCTGCCGCAT CAGTGCAGGA AAAGAGCATA 1380
TAAATGAGAT TTGCTACCAC CCATTTCGTA TGACTCCATA TCTTATTAAA GTACAGAATA 1440
TAGAGGATCA GCTTTGTTGT GTATTGCTTG CAGAAAAGGT GCACTCTGGA TATGAAGCAC 1500
CAAGAATTCC TCCTAATAAA AGAGTCTTTA CAACCACACA TACACCAAGT TGTTTATTCC 1560
AAGATGTAGA TGAAAGAGCT GTACCTCTGT TGGGTTACTT ACCTCAGGAT TTAATTGGGA 1620
CCCCTGTGTT AATGCACCTT CATCCAAGTG ATCGACCTTT AATGCTAGCA ATTCACAAAA 1680
AAATACTTCA GTGTGGTGGT CAGCCATTTG ACTATTCACC AATCAGATTC TGTTCTAGAA 1740
ATGGTGAATA TGTAACTCTG GATACTAGCT GGTCTAGTTT CATCAACCCC TGGAGTCGAA 1800
AGATTTCCTT TATAATTGGA AGACACAAAG TTAGAACAGG TCCCTTGAAT GAAGATGTGT 1860
TTGCACCTCA TTGCGCAGAA GAAAAAAGTA TTCATCCTAA TGTTCAGGAG ATTACGGAAC 1920
AAATACATCG GTTATTATTA CAGCCAGTAC ATAACAGTGG CTCTAGTGGT TATGGAAGCT 1980
TGGGCAGCAA TGGATCGCAT GAACACCTTA TGAGTGTGGC TTCCTCCAGT GACAGCAATG 2040
GGAACAATAA TGAAGATATC CAGAGGATAC CCAAGCCTAA CTCTTCTCGA GGTACCTACA 2100
AAGATGGACC TGTGGCCAAA AATAAAGAAG AGTATGTTCC TTTTGATTCC AGATCACAGC 2160
CTGAAAATCA AAAAATATCT TATGGAGAGA AACCCAGTGA CCAGTGTGGT CATATGAAAA 2220
ATTCCACTTC ATTAGCCGAA AATGATACTG TTGGAATTGT TTGTCAGAGA AGCCTAGCTG 2280
GAGACGAATT GGCTTGGGGA GATCAGCCTG TGTATTCATA TCAGCAGATC AGCTGTTTAG 2340
ATAGTGTTAT CAGGTATTTG GAAAGTTGCA CTGCAGATGA GGCTGTAAAG AAAAAGCCTC 2400
CAACTGTATC AAATGCTGTT TCACCGAATT CGGATATACA CAGAAATAAA ATGAATGATA 2460
ATAGCATTAG AACATCCACA GAAGAAAGTG GGCAGTCAAA AGCTCATATA GGCCCTACAG 2520
TGTTGGAGTC ACCAGATAAA TCTTCTACTG TTGTTGGTGC TCACTTAACC TCTTTGACTT 2580
TGCCTGGAAA ACCTGAAAGT GTTGTGTCTT TTACCAGTCA GTGCAGCTAC AGCAGTACCA 2640
TAGTTCATGT TGGAGACAAA AAACCACAAC CTGAAATAGA AATAATAGAA GATGGTCCCA 2700
CTGGCACAGA ACCCACAGAG GGCCAACTTG TTGCTCCTCA GTCTAACACT TCTCAAAAGA 2760
ACCAAGAGAA AGAGGCATTT AAGAAATTAG GATTAACAAA GGAAGTCCTT GCAGTACATA 2820
CACAAAAAGA AGAGCAGAAC TTTCTAAACA AGTGTAAAGA AATAAAAAAG TCTCATATTT 2880
TTCAGTATCA TTGCAATTAC TACTTTCAAG AAAAAAACAG AAAACATCCT GGTGGACATG 2940
GTATTTATGG ACTACAGCAT GGCTCTGGCA TAGAGCACTC TTGGAAAAAA AATGGGAAGA 3000
ACAGGAAATC TAAGTCAAAA CGATATAAGC CACACGAGTC TTCAGATAGT ACAGTGTCTG 3060
GTACCAAACT CCCTCACAGG TTTCCTCTTC TGGGCCCAAA TGCAACTGGC TGTACCCCAT 3120
CAGATACTTC CCAAGCAAGT TGCCCCACCA TGCCTTTTCC TGCCGTTATG CCTGCATACC 3180
CACTTCCAGC TTTTCCACCT ACAGGGACTG TGCCATCAGG TCCTGAAGCC TCTCTTTCTG 3240
GTTTGAATGA ATCGCAGGAC TTGGGAAATA ATTGTGCTTT GCCCTTATCA CAGTTTCCTG 3300
CACCACTAGT GACTCCAGTG GTAGCCCTTG TACTTCCCAA CTATGTGTAT CCCCAGGTGA 3360
ACCACAGTGT CTCTCAAACG CTTTATCCTG ACCCGCCTAG TTTTTCTGGC CAACCCTCTT 3420
TCTCTTCACC ATCACAGTTT ACAGCACAGC TTCCATTCAC TCCCTTAAAC CCATTCCCTC 3480
CACAAACAAT GTTTCCAGCA CAGCCATTCC CTTACAGTCC ATCAGCAGAC AATGAAAAGG 3540
CCCCTGTCAC AGAATCCAGA AATGACCCAT CACGCTCCTG TACACCACAG TCCTTGGGTC 3600
CACAGGATCA GCCCTCAACG CCGTTATTCC AATCACGATG CAGTTCTCCT CTACAGTTGA 3660
ATCTTTTGCA GCTAGAAGAA ATGCCTAAAG TAACTGAAAA CGGAACCACT GGTCCACTGA 3720
GCGGCCTTGG AACTGTAACA GATGGAGAGA CCACCTGCAA ACCCATGACA TTAGAGGATT 3780
GTAACAGAGA AGCACCATCC CCTATGGACT CTCCAATGGA AGCTCAAAAT TCAGACACCT 3840
TCTCTGTATC AAGTGATTTA CTTGATATTC TACTTCAAGA AGATGGAAGT TCATCAAGAA 3900
GTGGTGTTTC AGCTGCTACT GAGTCTTTAG GATCTGGTTC AAATGGATGT GGTATGTCAG 3960
GCAGTGGAAC AGGAGGTAGC GAGACAAGTA ATACGAGCAA ATATTTTGGG AGCATTGACT 4020
CCTCTGAAAA TAATCATAAA ACAAAAGTTC CTGAAGTGGA AGAAAGTGAG CAGTTCGTTA 4080
AGTATGTCCT CCAGGATCCT ATCTGGCTGC TGATGGCAAA TACAGATGAT GCTGTTATGA 4140
TGACTTACCA GATACCATCA AGAAACTTGG AAGCTGTTTT AAAAGAGGAC AAACTGAAAC 4200
TGAAACAGAT GCAGAAGTTT CAGCCTAAGT TTACTGAGGA TCAAAAAAGA GAGCTTCTTG 4260
AAGTGTATCC ATTGATTCAG AAGGGTGGAC TTCCTGAGAT GGTTGCTAAT TCTTTGTGTA 4320
TGTATTGTGA AGACAACATT AACAGCAGAT CTTACACACA AGATGAAGAG GAGGTTCATG 4380
AAATGGAGCT TAATGAAATG AGTGAAGACT GTGGGGAAAA TAATTTGAAT ACACTGAACA 4440
GTCATCAGTG AAGATGTCTG ATTCAAAAGA TCCATTTCCA CAGTGCCTGC TACATTTAAC 4500
AGTTGCAGTT TATCATTAGA TCTTAATGGT TTTTAAGTTG TTTCTTGTAA AATGAATCAA 4560
ACGAATGCAT TTTTTGTTCT AGAAAAAGGT CATTTGTGAT AAACCTCTTT GAATGGCAGT 4620
AATTTGTCTA TCACTTGCAG CCGTTGCTGA AGATGTATAT TTTGTGTTCT TTTTAATAGC 4680
CCTTTCAGAT TCTGAAGCAC CTTTCTGTAA AACTACAGAA AAATACCATC AATCAGTAAA 4740
ATGTCACAAA ACTTTAGAAT TTATGCAATT TCAAAAATTA CTTTCCACTC TGCATTTTCT 4800
GTGGCTGATA ATATCCAAAC CCTTTATTTT TCAGTCTGAG AATATCTAAA ATAAATTCCA 4860
GATTGAGTGG AAAATAAATC CTAAATAAGT CGCAAGTGTT TGACTTATCT AAAGGGCTTA 4920
GTTTCCCTTT CCCCATTTCA TTTGATAATA TCTGTATTCT GATTTCTTGG AGTTATATGA 4980
ATTCACTTAC AATATCCAAA CATCTGTTCA ACATATTAAA AATATTTTAT CAGTGTTAAA 5040
GCATCAAGCA GTAACCATAC CGTATGTTTT CTAAATTCTA ATCAACTGTC CCTGAAATTA 5100
TATATTCCTT ACTTGCTTGC TAAATGTTGC AGTTGTTTCT GTTTACAATT TCCTCTCATA 5160
TATTCACTCA TCAGCCATAA GTGATAATCA TCTGAAACAG TTTTGGGCAG AAAACAGAAA 5220
TATTCATTAG TAGTAGTAAA AAAAAAACCC AAACAAAATC ACTGCCTCAC CTTTTAGTTG 5280
TTATCAAGAG TATCTTTAAC ATTGGCATTC TGGTGTGGTT TAAGTATTGT TTGCGTAAGA 5340
GGAAGAGACT TGAAACTGAT GCAGTTCTTC TGCATTGGTG TAATCTTTCT ATATAGTGGA 5400
GAAAGATCAA ATAGTATACT AATCAGCCAG TTGAGTTACC CTTTGTTGTT GTTTTTTAAA 5460
AAAAAAGATG AATTGTAACA TTAAAATTTC TATGTTTGGA GAAGATATGG CTTAGGTCAT 5520
ATGACATCTT CCTATTCTCT TCCTTCACTT TGTCAGGCCA GTACAAGTTG CTTTACCAGT 5580
TGGAATACAG CTTATTTTCT CTCTACTGAT TCTGTAGCCA CGTTATCCAT ATGATGAATA 5640
GTGTGGCCTC CTTTGGCAGC TGAAGAAGAT AGAAGCCGAA GTGTTTTGCT CTTGAAATAT 5700
ATATATATAT ATATATTAAA GTTTTGTGTG TGTGTGTGTG TGTGTGTGTG TGTGTGTGTG 5760
TGTGTATATA TATATATATA TATATTGTGC AGAGAATGGG AAACTATTAA GGGAGCCCAA 5820
CTTTATTTGA AGCTAGATGT TTTTAAAGAT TCCTTGTTTC TCAAACATCA GTTTCTAATG 5880
ATAATGGAAA CATGGATGTT GATGTGTTGT AGAGAAACTA TAGCTGGACA TTGTAGAAGA 5940
TTTCATATAT TAGTCATGCT TCAAAAAATA AGCTGGAAGC ACAATATATC TGTAGGTAGA 6000
CAGGCATATA CCATATATAC TCATGTATAA GTCAACCTCC TGTAGAACTC AAAGGGCAGG 6060
TTTGAGGGCC AAAATCATGG GTTTTTATAT GACCCATGGA TAAATTGAGG CTTATTTCAC 6120
AGAGAAAGTT CCAGCATTAT TTTGGGACCG GGCAGCCCTT TCTGCCACTG CCATTTTCCC 6180
AGCCAGACAT TCAGAAAGGC CACAGAAGTT GTGAAGGGGG ATCAGAGCAT CTTTTAGGTT 6240
TTCCCAGGAT GGGCTAAGCT CTCATCTTTC ACCACTCAGA GAACTGAATG GTTCCTTTTA 6300
GATTAAAAGA CTTAAGAGTA ACATTTACCC ATGAATAAGT CGACCTAATT TTTTTTAGGT 6360
TGGCTTTTTG ACTAAAATGT CTAGATTTAC ACATGATCAC ATAGACAACC ATTTTCCATG 6420
TGTTCCTATC AATCATGGCA TAGGAACTGT CATGCGAAGA CTGACCAATT AGCCATTGAG 6480
ATAAAAATCC AGTCTGCTTA TGAAACCAAA GCCAAAGTAA GGCAATAGGT AATAGGTAAG 6540
GCAATAAGTA AAGCAGGAAA ATCCCAGACA ATCATGTATT TACTTATTCT TTCTATGTCT 6600
TTGTTTTTAT AAGTTTCTCT GCTAGTCATA ATCTAGTATG CATCTTTGGA TGTGAATCTG 6660
CATCACATGA TCAGTTGCTT AACTGGTAAT TTTATGTAGA TCACTAAATT GCACGGCTGT 6720
ATTATACATA GCAATTGATG TTTGCTTGAA ACTTGCTCTT GTTAATTCAT TCTGGTGTAT 6780
CCCAATTTTA TATTTGTAGG AGTGTAAATA CTATTTCACT GTGCACTTAG TCTACATTTT 6840
TTTTCTCAAC ACAACTAATA TTGTTGAAAA AGACAAACTG ACGCGCATGT AGGAACGAAT 6900
CCTGATAAAA CCTTTCCTAA TTGTATTTCA AGTCCTTACT GTTAAGTAAA TGAATATTTG 6960
TCTATAACAT AAGAATGCCA GTAAATTGGT GTATTATGCA TATTATGTTG TGCTTAAAAT 7020
AACAACATTA AGTGTTACTC AGAGTTAACT TGAGAAATTA AGCTTCATCT AATGACAGCT 7080
TGATCTACAA TCACTTACGT CCAGGCCCTA TATATTGTAT TTAAATCACA TGGAAACATA 7140
TTAGCACTAA AAAGAAAAAT CTCAGTCTAG AAAGTTCTAT ATGATTTGCT CCAAAATTTA 7200
CAAAACCTCA AGTTTGTGGG GGGAAGGGGG GGAGAATCCT CCATTTTAAG AGATATAATT 7260
TAAGTGTTTT GTTTTTTAAA AAATCAGGAG TCTCACTAGT AGCTTGCTGG ATTGTGACAG 7320
GATAGTTTGT TAGTGTTTTG AATAGGGTGT GGATGAATTC TGATACACAG CTCCATTGCT 7380
GGTTTGCATC TGTGGATGTG TGTTTAATGA AACCTGAGAG AGAGAGAGCG AATGTATCTC 7440
AAGCCTTTAA TGGGTGTCTT AATACTTTTA AAGTGATTTT TATTTGCAAG GTAATACTGA 7500
AAAGTTCTTA TACATTTTTT AAATTGCAAG CCTACTTTTT AGACATGATA TTGAAACCAG 7560
CCTTCTCCAA ATGTATTGTA GACTGTTTAA ATTGAATATA CATAGTCACT AGGAGAAAAT 7620
TTTGTTGAGG TGTGGTTTTT TCCATCAGCA ACCAATGTTT TCTGTATCCT GTGCAATATA 7680
TTGTTTTTGT TACTTGTAAC AACTTTTATT AAATGCTTTC TAGAAAAATG GAAAATAAAG 7740
CAGATTTATT TTTTAGGTGT TATCTTTATG TACTTTCTGA CTGTAGCTAT TTA 7793
Sequence Source Ensembl
Orthology
CGDB IDSpieces IdentityE-ValueScore
CGD-EqC-020992Equus caballus52.39 0.00e+00 1102.8
CGD-GaG-021834Gallus gallus60.06 0.00e+00 1465.7
CGD-HoS-021036Homo sapiens (Human)51.56 0.00e+00 1130.5
CGD-MuM-021066Mus musculus (Mouse)50.67 0.00e+00 1114.8
CGD-RaN-022186Rattus norvegicus50.31 0.00e+00 1102.4
Gene Ontology

GO:0004871--signal transducer activity
GO:0007165--signal transduction
GO:0005515--protein binding
GO:0005737--cytoplasm
GO:0005634--nucleus
GO:0005654--nucleoplasm