Tag |
Content |
WERAM ID |
WERAM-Myl-0117 |
Ensembl Protein ID |
ENSMLUP00000009564.2 |
Gene Name |
SETDB1 |
Ensembl Information |
|
Status |
Unreviewed |
Classification |
Type |
Family |
E-value |
Score |
Start |
End |
HMT |
SUV39 |
2.20e-76 |
254.9 |
269 |
1292 |
|
Organism |
Myotis lucifugus |
Domain Profile |
HMT SUV39
SUV39.txt 15 vrclddiakgsFvciyaGeiltddeaek 42 r + + + g+ v yaG + ++ ++++ ENSMLUP00000009564.2 269 SRVVAKYKDGNQVWLYAGIVAETPNVKN 296 578889999*********9999888765 PP SUV39.txt 1 vrLqvfktenkGwGvrclddiakgsFvciyaGeiltddeaekegleegdeyladldskesvenlkegyesdvplssdss........ 79 vrLq+fkt+nkGwG+rclddiakgsFvciyaG+iltdd+a+kegle+gdey+a+ld++esven+kegyesd+p+ssdss ENSMLUP00000009564.2 829 VRLQLFKTQNKGWGIRCLDDIAKGSFVCIYAGKILTDDFADKEGLEMGDEYFANLDHIESVENFKEGYESDAPCSSDSSgvdlkdqe 915 79************************************************************************************* PP SUV39.txt 80 ....................................................................................... 79 ENSMLUP00000009564.2 916 dgnsgtedpeesnddssddnfckdedfstssvwrsyatrrqtrgqkenglsetaskdsrppdlgpphlpvplsismgscnppsseet 1002 *************************************************************************************** PP SUV39.txt 80 ....................................................................................... 79 ENSMLUP00000009564.2 1003 skskvaswlssnsvseggfadsdsrssfktseggegraggvkgeaekasasalsfkdegdikqakkeepddrnkasivtesarnygy 1089 *************************************************************************************** PP SUV39.txt 80 ....................................................................................... 79 ENSMLUP00000009564.2 1090 npspmkteglrrppsktsmhqsrrllasaqshpddvltlssstesegesgtsrkptagqtsatavdsddiqtissgsegddfedkkn 1176 *************************************************************************************** PP SUV39.txt 80 .............................................ntrqekdkeeseyiidakkegnvgrflnHscspNlfvqnvfv 121 ntrq++d+ees+yiidak egn+gr+lnHscspNlfvqnvfv ENSMLUP00000009564.2 1177 msgpmkrqvavkstrgfalksthgiaikstnmasaekgesapvrkNTRQFYDGEESCYIIDAKLEGNLGRYLNHSCSPNLFVQNVFV 1263 *************************************************************************************** PP SUV39.txt 122 dthdlrfprvafFaskrikagtELtwdYg 150 dthdlrfp+vafFaskri+agtELtwdY+ ENSMLUP00000009564.2 1264 DTHDLRFPWVAFFASKRIRAGTELTWDYN 1292 ****************************7 PP
|
Protein Sequence (Fasta) | MSSLPGCLGL DAEAAAMESE EIAELQQAVV EELGISMEEL REFIDKELEK MDCIQQRRKQ 60 LAELETWVIQ KETEVAHVDQ LFDDASRCSN IRAVTNCESL VKDFYSKLGL QYRDSSSEDE 120 ASQPTEIIEI PDEDDDVLSI DSAIGDAGSR TPKDQKLREA MAALRKSAQD VQKFMDAVNK 180 KSSSQDPHKG ALSQMSGELS KDGDLIVSMR ILGKKRTKTW HKGTLIAIQT VGPGKKYKVK 240 FDNKGKSLLS GNHIAYDYHP PADKLYVGSR VVAKYKDGNQ VWLYAGIVAE TPNVKNKLRF 300 LIFFDDGYAS YVTQSELYPI CRPLKKTWED IEDISCRDFI EEYITAYPNR PMVLLKSGQL 360 IKTEWEGTWW KSRVEEVDGS LVRILFLDDK RCEWIYRGST RLEPMFSMKT SSASTLEKKQ 420 GGQFRTRPNM GAVRSKGPVV QYTQDLTSTG TQFKPTELPQ PTAPPAPPAP PAPPLSPPAG 480 DTDLESQLAQ SRKQVAKKST SFRLGSVGSG HSSPTSPSLS ENAPGGKPGI GQTYRSPLGS 540 TSSAPAPSAP PAPPSISSPP SIHSPSSPPT PTALPAFHGM LERAPAEPSY RAPMEKLFYL 600 PHVCSYTCLS RVRPIRSEQY RGKNPLLVPL LYDFRRMTAR RRVNRKMGFH VIYKTPCGLC 660 LRTMQEIERY LFETGCNFLF LEMFCLDPYV LVDRKFQPYK PFYYILDITY GKEDVPLSCV 720 NEIDTTPPPQ VAYSKERIPG KGVFINTGPE FLVGCECTDG CRDKSKCACH QLTIQATACT 780 PGGQINPNSG YQNKRLEECL PTGVYECNKR CKCDPNMCTN RLVQHGLQVR LQLFKTQNKG 840 WGIRCLDDIA KGSFVCIYAG KILTDDFADK EGLEMGDEYF ANLDHIESVE NFKEGYESDA 900 PCSSDSSGVD LKDQEDGNSG TEDPEESNDD SSDDNFCKDE DFSTSSVWRS YATRRQTRGQ 960 KENGLSETAS KDSRPPDLGP PHLPVPLSIS MGSCNPPSSE ETSKSKVASW LSSNSVSEGG 1020 FADSDSRSSF KTSEGGEGRA GGVKGEAEKA SASALSFKDE GDIKQAKKEE PDDRNKASIV 1080 TESARNYGYN PSPMKTEGLR RPPSKTSMHQ SRRLLASAQS HPDDVLTLSS STESEGESGT 1140 SRKPTAGQTS ATAVDSDDIQ TISSGSEGDD FEDKKNMSGP MKRQVAVKST RGFALKSTHG 1200 IAIKSTNMAS AEKGESAPVR KNTRQFYDGE ESCYIIDAKL EGNLGRYLNH SCSPNLFVQN 1260 VFVDTHDLRF PWVAFFASKR IRAGTELTWD YNYEVGSVEG KELLCCCGAI ECRGRLL 1317Protein Fasta Sequence
>ENSMLUP00000009564.2|SUV39|Myotis lucifugus MSSLPGCLGLDAEAAAMESEEIAELQQAVVEELGISMEELREFIDKELEKMDCIQQRRKQLAELETWVIQKETEVAHVDQLFDDASRCSNIRAVTNCESLVKDFYSKLGLQYRDSSSEDEASQPTEIIEIPDEDDDVLSIDSAIGDAGSRTPKDQKLREAMAALRKSAQDVQKFMDAVNKKSSSQDPHKGALSQMSGELSKDGDLIVSMRILGKKRTKTWHKGTLIAIQTVGPGKKYKVKFDNKGKSLLSGNHIAYDYHPPADKLYVGSRVVAKYKDGNQVWLYAGIVAETPNVKNKLRFLIFFDDGYASYVTQSELYPICRPLKKTWEDIEDISCRDFIEEYITAYPNRPMVLLKSGQLIKTEWEGTWWKSRVEEVDGSLVRILFLDDKRCEWIYRGSTRLEPMFSMKTSSASTLEKKQGGQFRTRPNMGAVRSKGPVVQYTQDLTSTGTQFKPTELPQPTAPPAPPAPPAPPLSPPAGDTDLESQLAQSRKQVAKKSTSFRLGSVGSGHSSPTSPSLSENAPGGKPGIGQTYRSPLGSTSSAPAPSAPPAPPSISSPPSIHSPSSPPTPTALPAFHGMLERAPAEPSYRAPMEKLFYLPHVCSYTCLSRVRPIRSEQYRGKNPLLVPLLYDFRRMTARRRVNRKMGFHVIYKTPCGLCLRTMQEIERYLFETGCNFLFLEMFCLDPYVLVDRKFQPYKPFYYILDITYGKEDVPLSCVNEIDTTPPPQVAYSKERIPGKGVFINTGPEFLVGCECTDGCRDKSKCACHQLTIQATACTPGGQINPNSGYQNKRLEECLPTGVYECNKRCKCDPNMCTNRLVQHGLQVRLQLFKTQNKGWGIRCLDDIAKGSFVCIYAGKILTDDFADKEGLEMGDEYFANLDHIESVENFKEGYESDAPCSSDSSGVDLKDQEDGNSGTEDPEESNDDSSDDNFCKDEDFSTSSVWRSYATRRQTRGQKENGLSETASKDSRPPDLGPPHLPVPLSISMGSCNPPSSEETSKSKVASWLSSNSVSEGGFADSDSRSSFKTSEGGEGRAGGVKGEAEKASASALSFKDEGDIKQAKKEEPDDRNKASIVTESARNYGYNPSPMKTEGLRRPPSKTSMHQSRRLLASAQSHPDDVLTLSSSTESEGESGTSRKPTAGQTSATAVDSDDIQTISSGSEGDDFEDKKNMSGPMKRQVAVKSTRGFALKSTHGIAIKSTNMASAEKGESAPVRKNTRQFYDGEESCYIIDAKLEGNLGRYLNHSCSPNLFVQNVFVDTHDLRFPWVAFFASKRIRAGTELTWDYNYEVGSVEGKELLCCCGAIECRGRLL
|
Nucleotide Sequence (Fasta) | ATGTCCTCCC TCCCTGGGTG CCTTGGTTTG GATGCAGAAG CAGCTGCAAT GGAGTCTGAA 60 GAGATTGCAG AGCTGCAGCA AGCAGTGGTT GAAGAGCTGG GTATCTCCAT GGAGGAACTT 120 CGGGAATTCA TCGATAAAGA GCTAGAAAAG ATGGACTGTA TACAGCAACG CAGGAAGCAG 180 CTAGCAGAGT TGGAAACGTG GGTAATACAG AAGGAGACTG AGGTTGCCCA TGTCGACCAG 240 CTCTTTGATG ATGCATCCAG GTGTTCCAAT ATTAGGGCAG TGACTAATTG TGAGTCTTTG 300 GTGAAGGACT TTTACTCCAA ACTGGGACTA CAGTACCGGG ACAGTAGCTC TGAGGACGAA 360 GCTTCCCAGC CTACAGAAAT AATTGAGATT CCTGACGAAG ATGATGATGT GCTCAGTATA 420 GATTCGGCCA TAGGTGATGC TGGAAGCAGA ACCCCAAAAG ACCAGAAGCT CCGTGAAGCG 480 ATGGCTGCCT TAAGAAAGTC GGCTCAAGAT GTCCAGAAGT TCATGGATGC TGTCAACAAG 540 AAGAGCAGTT CCCAGGATCC ACATAAAGGA GCCTTGAGTC AAATGTCTGG AGAACTGAGC 600 AAAGATGGTG ACCTGATAGT CAGCATGCGC ATTCTGGGCA AGAAGAGAAC TAAGACATGG 660 CACAAAGGCA CCCTTATTGC CATCCAGACA GTTGGGCCAG GAAAGAAGTA CAAGGTGAAA 720 TTCGACAACA AAGGAAAGAG TCTACTGTCG GGGAACCATA TTGCCTATGA TTACCATCCT 780 CCTGCTGACA AACTGTATGT GGGCAGTCGA GTGGTGGCCA AATACAAAGA TGGGAATCAG 840 GTCTGGCTCT ATGCTGGCAT TGTAGCCGAG ACACCAAACG TCAAAAACAA GCTCAGATTT 900 CTTATTTTCT TTGATGATGG CTACGCTTCC TATGTCACAC AGTCAGAATT GTATCCCATT 960 TGTCGGCCAC TGAAAAAGAC GTGGGAGGAC ATAGAAGACA TCTCTTGCCG AGACTTCATT 1020 GAGGAGTACA TCACGGCTTA CCCCAACCGG CCCATGGTGC TGCTCAAGAG TGGCCAGCTT 1080 ATCAAGACCG AGTGGGAAGG CACGTGGTGG AAGTCCCGCG TCGAAGAGGT GGACGGCAGC 1140 CTAGTCCGAA TCCTCTTCCT GGATGACAAA AGATGCGAAT GGATCTATCG AGGCTCTACA 1200 CGGCTGGAGC CCATGTTCAG CATGAAGACA TCCTCTGCCT CTACATTGGA AAAGAAGCAA 1260 GGGGGACAGT TCAGGACACG TCCAAATATG GGTGCTGTGA GGAGCAAAGG CCCTGTGGTC 1320 CAGTACACCC AGGATCTAAC CAGCACTGGA ACCCAGTTTA AGCCAACGGA GCTGCCTCAG 1380 CCTACAGCCC CACCTGCCCC ACCTGCCCCA CCTGCTCCAC CTCTGTCCCC CCCGGCAGGT 1440 GACACTGACT TGGAAAGCCA GCTTGCCCAG TCACGGAAGC AGGTAGCCAA AAAGAGCACC 1500 TCTTTCCGGC TAGGATCTGT GGGCTCTGGT CATTCCTCCC CTACGTCTCC TTCACTCAGT 1560 GAGAATGCCC CTGGTGGGAA ACCTGGAATC GGCCAGACAT ACAGATCACC TTTAGGCTCA 1620 ACATCTTCTG CGCCAGCACC CTCAGCACCA CCAGCTCCTC CCAGCATCAG CAGTCCTCCC 1680 AGCATCCACA GTCCTTCCAG TCCTCCCACA CCCACCGCCC TCCCAGCCTT CCACGGCATG 1740 CTGGAGCGTG CCCCGGCCGA GCCCTCCTAC CGCGCCCCCA TGGAGAAGCT TTTCTATTTG 1800 CCTCATGTCT GCAGCTATAC TTGTCTGTCT CGAGTCAGAC CTATAAGAAG TGAGCAGTAC 1860 CGAGGCAAGA ACCCTCTGCT AGTCCCACTG CTCTATGACT TCCGGAGGAT GACAGCCCGG 1920 CGCCGAGTTA ACCGCAAGAT GGGCTTTCAT GTTATCTATA AGACACCCTG TGGCCTCTGC 1980 CTTCGGACAA TGCAGGAGAT CGAACGCTAC CTTTTTGAGA CTGGCTGTAA CTTCCTCTTC 2040 CTGGAGATGT TCTGTTTGGA TCCATATGTT CTTGTGGACC GGAAGTTTCA GCCCTATAAG 2100 CCTTTTTACT ATATTTTGGA CATCACCTAT GGGAAAGAAG ATGTTCCCCT ATCCTGTGTC 2160 AATGAGATTG ACACAACTCC TCCACCGCAG GTGGCCTACA GCAAGGAACG AATCCCGGGC 2220 AAGGGTGTTT TCATTAACAC AGGCCCTGAA TTTCTGGTCG GCTGTGAATG CACGGATGGG 2280 TGCCGGGACA AGTCCAAGTG TGCCTGCCAT CAGCTAACTA TCCAGGCTAC AGCCTGCACC 2340 CCAGGCGGCC AAATCAACCC TAACTCTGGC TACCAGAACA AGAGACTAGA AGAGTGTTTG 2400 CCCACAGGAG TTTATGAGTG TAACAAACGC TGCAAATGTG ACCCAAACAT GTGCACAAAC 2460 CGGTTGGTGC AGCATGGACT TCAGGTTCGG CTACAGCTGT TCAAGACACA GAACAAGGGC 2520 TGGGGTATCC GCTGCCTGGA TGACATTGCC AAAGGCTCCT TTGTCTGTAT TTATGCAGGC 2580 AAAATTCTGA CGGATGACTT TGCAGACAAG GAGGGCCTGG AAATGGGTGA TGAGTACTTT 2640 GCCAACCTGG ATCATATTGA GAGCGTGGAG AACTTCAAGG AAGGATATGA GAGCGATGCC 2700 CCCTGTTCCT CTGATAGCAG TGGTGTAGAC TTGAAGGACC AGGAAGATGG CAATAGCGGT 2760 ACAGAGGACC CCGAAGAGTC CAATGACGAT AGCTCAGATG ATAACTTCTG TAAGGATGAG 2820 GACTTCAGCA CCAGTTCGGT GTGGCGCAGC TATGCTACCC GGCGGCAGAC CCGGGGCCAG 2880 AAGGAGAATG GGTTGTCTGA GACGGCTTCC AAGGACTCCC GTCCCCCAGA CCTTGGGCCC 2940 CCGCATCTTC CTGTCCCTCT CTCAATCTCT ATGGGTAGCT GCAATCCACC GTCTTCTGAA 3000 GAGACGTCTA AGAGTAAGGT AGCCTCGTGG TTGAGCTCCA ATAGTGTCAG TGAAGGTGGT 3060 TTTGCTGACT CTGATAGCCG TTCATCCTTC AAGACCAGCG AAGGTGGGGA AGGCCGGGCT 3120 GGGGGAGTGA AAGGGGAAGC TGAGAAGGCC TCCGCCTCAG CGCTGAGCTT CAAGGATGAG 3180 GGAGACATCA AGCAGGCCAA GAAAGAGGAA CCTGATGACC GAAACAAGGC ATCAATAGTT 3240 ACTGAGAGCG CTCGAAATTA TGGTTACAAT CCTTCTCCCA TGAAGACTGA GGGACTTCGC 3300 CGCCCACCTA GTAAGACTAG TATGCATCAG AGCCGACGCC TCTTGGCCTC AGCTCAGTCC 3360 CACCCTGATG ATGTCCTGAC ACTGTCCAGC AGTACAGAAA GTGAGGGGGA GAGTGGGACG 3420 AGCCGAAAGC CCACTGCTGG TCAGACTTCA GCCACAGCAG TTGACAGTGA TGATATCCAG 3480 ACCATCTCCT CCGGCTCTGA AGGCGATGAC TTTGAGGACA AGAAGAACAT GTCTGGTCCA 3540 ATGAAGCGCC AAGTGGCAGT AAAATCAACC CGAGGCTTTG CTCTTAAATC AACCCATGGG 3600 ATTGCCATTA AATCAACCAA CATGGCGTCT GCGGAAAAGG GGGAAAGTGC GCCTGTCCGT 3660 AAGAATACAC GCCAGTTCTA TGATGGTGAA GAGTCTTGCT ACATCATCGA CGCCAAGCTT 3720 GAAGGCAACC TGGGCCGCTA CCTTAATCAC AGTTGCAGCC CCAACCTGTT TGTCCAGAAT 3780 GTCTTCGTGG ATACTCATGA TCTTCGCTTC CCTTGGGTGG CCTTCTTTGC CAGCAAGAGA 3840 ATCCGGGCTG GGACCGAACT TACTTGGGAC TACAACTACG AGGTGGGCAG CGTGGAAGGC 3900 AAGGAGCTGC TTTGCTGCTG TGGGGCCATC GAGTGCAGAG GGCGTCTTCT TTAG
3955Nucleotide Fasta Sequence
>ENSMLUP00000009564.2|SUV39|Myotis lucifugus ATGTCCTCCCTCCCTGGGTGCCTTGGTTTGGATGCAGAAGCAGCTGCAATGGAGTCTGAAGAGATTGCAGAGCTGCAGCAAGCAGTGGTTGAAGAGCTGGGTATCTCCATGGAGGAACTTCGGGAATTCATCGATAAAGAGCTAGAAAAGATGGACTGTATACAGCAACGCAGGAAGCAGCTAGCAGAGTTGGAAACGTGGGTAATACAGAAGGAGACTGAGGTTGCCCATGTCGACCAGCTCTTTGATGATGCATCCAGGTGTTCCAATATTAGGGCAGTGACTAATTGTGAGTCTTTGGTGAAGGACTTTTACTCCAAACTGGGACTACAGTACCGGGACAGTAGCTCTGAGGACGAAGCTTCCCAGCCTACAGAAATAATTGAGATTCCTGACGAAGATGATGATGTGCTCAGTATAGATTCGGCCATAGGTGATGCTGGAAGCAGAACCCCAAAAGACCAGAAGCTCCGTGAAGCGATGGCTGCCTTAAGAAAGTCGGCTCAAGATGTCCAGAAGTTCATGGATGCTGTCAACAAGAAGAGCAGTTCCCAGGATCCACATAAAGGAGCCTTGAGTCAAATGTCTGGAGAACTGAGCAAAGATGGTGACCTGATAGTCAGCATGCGCATTCTGGGCAAGAAGAGAACTAAGACATGGCACAAAGGCACCCTTATTGCCATCCAGACAGTTGGGCCAGGAAAGAAGTACAAGGTGAAATTCGACAACAAAGGAAAGAGTCTACTGTCGGGGAACCATATTGCCTATGATTACCATCCTCCTGCTGACAAACTGTATGTGGGCAGTCGAGTGGTGGCCAAATACAAAGATGGGAATCAGGTCTGGCTCTATGCTGGCATTGTAGCCGAGACACCAAACGTCAAAAACAAGCTCAGATTTCTTATTTTCTTTGATGATGGCTACGCTTCCTATGTCACACAGTCAGAATTGTATCCCATTTGTCGGCCACTGAAAAAGACGTGGGAGGACATAGAAGACATCTCTTGCCGAGACTTCATTGAGGAGTACATCACGGCTTACCCCAACCGGCCCATGGTGCTGCTCAAGAGTGGCCAGCTTATCAAGACCGAGTGGGAAGGCACGTGGTGGAAGTCCCGCGTCGAAGAGGTGGACGGCAGCCTAGTCCGAATCCTCTTCCTGGATGACAAAAGATGCGAATGGATCTATCGAGGCTCTACACGGCTGGAGCCCATGTTCAGCATGAAGACATCCTCTGCCTCTACATTGGAAAAGAAGCAAGGGGGACAGTTCAGGACACGTCCAAATATGGGTGCTGTGAGGAGCAAAGGCCCTGTGGTCCAGTACACCCAGGATCTAACCAGCACTGGAACCCAGTTTAAGCCAACGGAGCTGCCTCAGCCTACAGCCCCACCTGCCCCACCTGCCCCACCTGCTCCACCTCTGTCCCCCCCGGCAGGTGACACTGACTTGGAAAGCCAGCTTGCCCAGTCACGGAAGCAGGTAGCCAAAAAGAGCACCTCTTTCCGGCTAGGATCTGTGGGCTCTGGTCATTCCTCCCCTACGTCTCCTTCACTCAGTGAGAATGCCCCTGGTGGGAAACCTGGAATCGGCCAGACATACAGATCACCTTTAGGCTCAACATCTTCTGCGCCAGCACCCTCAGCACCACCAGCTCCTCCCAGCATCAGCAGTCCTCCCAGCATCCACAGTCCTTCCAGTCCTCCCACACCCACCGCCCTCCCAGCCTTCCACGGCATGCTGGAGCGTGCCCCGGCCGAGCCCTCCTACCGCGCCCCCATGGAGAAGCTTTTCTATTTGCCTCATGTCTGCAGCTATACTTGTCTGTCTCGAGTCAGACCTATAAGAAGTGAGCAGTACCGAGGCAAGAACCCTCTGCTAGTCCCACTGCTCTATGACTTCCGGAGGATGACAGCCCGGCGCCGAGTTAACCGCAAGATGGGCTTTCATGTTATCTATAAGACACCCTGTGGCCTCTGCCTTCGGACAATGCAGGAGATCGAACGCTACCTTTTTGAGACTGGCTGTAACTTCCTCTTCCTGGAGATGTTCTGTTTGGATCCATATGTTCTTGTGGACCGGAAGTTTCAGCCCTATAAGCCTTTTTACTATATTTTGGACATCACCTATGGGAAAGAAGATGTTCCCCTATCCTGTGTCAATGAGATTGACACAACTCCTCCACCGCAGGTGGCCTACAGCAAGGAACGAATCCCGGGCAAGGGTGTTTTCATTAACACAGGCCCTGAATTTCTGGTCGGCTGTGAATGCACGGATGGGTGCCGGGACAAGTCCAAGTGTGCCTGCCATCAGCTAACTATCCAGGCTACAGCCTGCACCCCAGGCGGCCAAATCAACCCTAACTCTGGCTACCAGAACAAGAGACTAGAAGAGTGTTTGCCCACAGGAGTTTATGAGTGTAACAAACGCTGCAAATGTGACCCAAACATGTGCACAAACCGGTTGGTGCAGCATGGACTTCAGGTTCGGCTACAGCTGTTCAAGACACAGAACAAGGGCTGGGGTATCCGCTGCCTGGATGACATTGCCAAAGGCTCCTTTGTCTGTATTTATGCAGGCAAAATTCTGACGGATGACTTTGCAGACAAGGAGGGCCTGGAAATGGGTGATGAGTACTTTGCCAACCTGGATCATATTGAGAGCGTGGAGAACTTCAAGGAAGGATATGAGAGCGATGCCCCCTGTTCCTCTGATAGCAGTGGTGTAGACTTGAAGGACCAGGAAGATGGCAATAGCGGTACAGAGGACCCCGAAGAGTCCAATGACGATAGCTCAGATGATAACTTCTGTAAGGATGAGGACTTCAGCACCAGTTCGGTGTGGCGCAGCTATGCTACCCGGCGGCAGACCCGGGGCCAGAAGGAGAATGGGTTGTCTGAGACGGCTTCCAAGGACTCCCGTCCCCCAGACCTTGGGCCCCCGCATCTTCCTGTCCCTCTCTCAATCTCTATGGGTAGCTGCAATCCACCGTCTTCTGAAGAGACGTCTAAGAGTAAGGTAGCCTCGTGGTTGAGCTCCAATAGTGTCAGTGAAGGTGGTTTTGCTGACTCTGATAGCCGTTCATCCTTCAAGACCAGCGAAGGTGGGGAAGGCCGGGCTGGGGGAGTGAAAGGGGAAGCTGAGAAGGCCTCCGCCTCAGCGCTGAGCTTCAAGGATGAGGGAGACATCAAGCAGGCCAAGAAAGAGGAACCTGATGACCGAAACAAGGCATCAATAGTTACTGAGAGCGCTCGAAATTATGGTTACAATCCTTCTCCCATGAAGACTGAGGGACTTCGCCGCCCACCTAGTAAGACTAGTATGCATCAGAGCCGACGCCTCTTGGCCTCAGCTCAGTCCCACCCTGATGATGTCCTGACACTGTCCAGCAGTACAGAAAGTGAGGGGGAGAGTGGGACGAGCCGAAAGCCCACTGCTGGTCAGACTTCAGCCACAGCAGTTGACAGTGATGATATCCAGACCATCTCCTCCGGCTCTGAAGGCGATGACTTTGAGGACAAGAAGAACATGTCTGGTCCAATGAAGCGCCAAGTGGCAGTAAAATCAACCCGAGGCTTTGCTCTTAAATCAACCCATGGGATTGCCATTAAATCAACCAACATGGCGTCTGCGGAAAAGGGGGAAAGTGCGCCTGTCCGTAAGAATACACGCCAGTTCTATGATGGTGAAGAGTCTTGCTACATCATCGACGCCAAGCTTGAAGGCAACCTGGGCCGCTACCTTAATCACAGTTGCAGCCCCAACCTGTTTGTCCAGAATGTCTTCGTGGATACTCATGATCTTCGCTTCCCTTGGGTGGCCTTCTTTGCCAGCAAGAGAATCCGGGCTGGGACCGAACTTACTTGGGACTACAACTACGAGGTGGGCAGCGTGGAAGGCAAGGAGCTGCTTTGCTGCTGTGGGGCCATCGAGTGCAGAGGGCGTCTTCTTTAG
|
Sequence Source |
Ensembl |
Orthology |
|
Created Date |
25-Jun-2016 |