New model in OGS2.0 | DPOGS200287  |
---|---|
Genomic Position | scaffold640:+ 1997-13979 |
See gene structure | |
CDS Length | 8481 |
Paired RNAseq reads   | 8777 |
Single RNAseq reads   | 21723 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005561 (3e-73) |
Best Drosophila hit   | Abl tyrosine kinase, isoform A (3e-17) |
Best Human hit | serine/threonine-protein kinase LMTK2 precursor (8e-25) |
Best NR hit (blastp)   | putative serine/threonine-protein kinase (LMTK1) [Heliconius melpomene] (2e-130) |
Best NR hit (blastx)   | putative serine/threonine-protein kinase (LMTK1) [Heliconius melpomene] (0.0) |
GeneOntology terms    | GO:0006468 protein amino acid phosphorylation GO:0005515 protein binding GO:0000166 nucleotide binding GO:0004864 phosphoprotein phosphatase inhibitor activity GO:0004713 protein tyrosine kinase activity GO:0016021 integral to membrane GO:0016020 membrane GO:0004674 protein serine/threonine kinase activity GO:0046777 protein amino acid autophosphorylation GO:0005524 ATP binding GO:0016740 transferase activity |
InterPro families    | IPR000719 Protein kinase, catalytic domain IPR017441 Protein kinase, ATP binding site IPR011009 Protein kinase-like domain IPR001245 Serine-threonine/tyrosine-protein kinase IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain |
Orthology group | MCL39972 |
Nucleotide sequence:
TTGTTTACCGCGAGCGTGACGCATCTGCACGATGGCCGGCGCGCTCAGCCGTTGGACTCG
GGTTTCTCTGAGCCGGTCAACAACAACATTAGTGAAGACAACAACAATGGTCCGATATCG
TTGCGGGAGATGCAGAACATCGCTAACAACAACGCAGCCGTGTACATCACTAGCGAGAAT
GAAGAGAGGAATCGGATTAGTCGGGAATCGGTCGTTGAATTCGAACCGCTTCCGGCCGAT
ATACGTGTTGTAGATCCGCTTGAAAGATGTGCGGATTGGTTCGCTGGTGAGGATTTCCAA
AGGGACCAACTTCAGTATCTAAGAGAAATCGGTCGCGGCTGGTTTGGCAGAGTAGTAAAG
GGAGAAGTAGACGATGGATGCGGCATCTCGACTGTGGCAGTGAAGATCCTCAATCAAAAT
GTCAGTTTGGAAGACAAGGCGCGTTTTCTCGATGAAGCCCGTCTGTATAGAGACATGGAT
CACGAGAACGTACTCAGTTTCGTTGCTAAATGCTTGCAGGAAGACCCGTGGATACTTCTC
TTTGAATTATGTTCAATGGATCTTCAACAATATCTAATAGTGAACCGTCCAAAAATGGCT
ATATTGAACGAAAGCGGGGTACCCCTTCAACTGATGTGTGACGTCAGCTCCGCCCTTGCG
TACATTCACTCGAGAGGGTACTTGTACGGCAATTTATGGAGTGGCAACATACTGGTCCGT
GGTAATGAGAACGTTCGCGCCGTCCTCGGATGTTACAGTGCAAGTGAAGCCCCAGTACAA
TGTGCGCCGCCCGAGACGAACAGACAGCCGCCCATCTACAATACTAGCAGCGATGTTTGG
TCGTTGGGGTGGCTGGTGTGGGAGGTGTGTGCGTGGGGAGCGACACCACCCCCGCCGCCC
GCGCCTGCCCCGGAACTGCCTTGCCCCTACCGGAACCATCTATACCAAGTGATGCAGTTG
TGCTGGAGCTCTAATCCAGAAGGTCGTCCGTCGGCGTCTCAAGTGCACGCTCTCATAAAC
CACTTGTACTACACGCACTCTCAGACGAACGACTCCGCCAAAGACCAGGGCTACTCCAGC
AGCGATTTCGAGGAACGCTGGCAGAAATTAAAACCCAATACCATACCCAAGATAGATGAA
CACGTAGCGATCATACACGCGCCATCCACCTCCACGGTGTCACATTTCACTAGATCTGAC
CAGGAATATGATAACACACAAACTTTGCAAGATTCCCTCAGCGTTGAACTAGACACGGCC
GTCTCGGGGACTAGCAGCATCATGTCCGACAGAGACCCACTGTCTGTTCAACTGAAGTCC
GACAGTCTAACTAACTTGCACGGGTCTCTGGAAGACGTAAGGAATATCTACCTCACTCAC
AACGAAACGGCAGCGCTCGAATGCCATCAAGGTAATATGCAACTAGAGGATAATAGGGAG
AGGGAACAAGACCGCTCCGACAGCTCTATGGATCCTTGGCTGAAGGATATAATGAATGGC
AGTCAAGACGACGTTAGTTATTACAAAGACGTTAGTGACGTCATAAAGAATCTCGATAAC
ATTTTGAACTCGGAGAAGACTTCGAGTTCGGAATCCAGTCACCAAGCCAGTCCATCCAGG
GATAATTTAAGTTTAGAGTGTAAGAAAGATTATCCAATGCAAACTAGTATGGTAAAATCG
CCTGGTATCAGTAATTTTCAGAATATTCTAGATATGGGCTTTGATTCGAAATCGGAGAGT
CCAGTACGTTGCGAGGAAGACGAAGGAGATGGTGATACAATTGGCACGCTTAGCCATTCT
TTTGAACGGCACAGCGACACAATAAGTCAGCAGACTTTAGAAAATCTTACTCCAGACACT
CCAAACGTGGACTTAAAAAGTGTTAGTAGCCTGAATGATTTCAAACAGAGCCTCGGTATT
ATGAATAGGGATAATTTGAAACCAAGAGATGAAGATAGTCATTTGCCAAATGAAAATAAT
GTAGTCAGTAATAATAGTGTAGTGCCCAAATTGATGGAACTCTGTGTATCCTCAATGCCT
AGTGTAAGTGAAACCAAGGAACAAGTGATCTTAAAACAAGACTGTCAAACATCTAACAAT
AATACAAGTGAACTATTAAGTGTTTACAAACAAAATAAGTCAGTAGATGATAATATCGCC
TTTATTAAAAATGAAATAGACATAGAAAATGGGCTAAGAAACAAAGATGAAATCATTGTG
AACGAAAAAATATCAAATGATACTCAACCAGAAGTTGAAAACCAACAAAAAAGTGATAGC
CATGAACAATATTCAATCACAAAACAGTTTAATTGTAATGATAATGCAGTTGATGAAATT
AGTTCAAGTGCTACCAACGACATAAAAAATGCTGATAAGGAAGAAGAAATTCCTGCCGTT
CTCTTACAAAATACTGAAGGGCCTGAAATAGCTTGTAATAAAATGCTTGATACGGCTGTA
TTGTCAAACGAGGGACTAAATGACGCCATCAACGAAATTATAGCCGATAATAGTGAAACC
AAAAACATCTCATCTGCATGTCAAGAAAAGCAACAAATTAGCAACGAAAGCATCAAACCT
GTGATGAACTGCACTTATACAAATAAGTACGATGAATCGTTGGATGCCGATTTAATTGGC
GATATTGATAAACGTCCTTCCAATGATAGTGATAACGTAGCTGCAACACAAATTGTAATC
CAAGAACCAATGATATCTGAAGCCAATTCTTTATTGCTAGAACAACATTTGGGTAAAGAA
ATAAAAAACGAAAATACACATGAAGAAGTATACAAAGAATTACAGAGTGATGTGAGCGAA
ACAAGTAACATGGTTTTAAAGTTGAAGGAAAGCATTGAAAGCGATGCTAACCACATACAT
GAAGACAAAATAAGTGATGAATTAATGCCAGTCTCTGAAAATAGAGATGATTTTACTCCT
GAAGAAAAAAAAATATCAAGCGCCAGCTTACAGCCTTTAGAACCAATAACAAGAACAGAG
CAACCTGAAACAGTACAAAATAGTGATGTAAACACATGCGAATCAAATGTAATAGTAAAT
AATGACGGAGTCGATAGTTGTAGAAGAATTCTCGATGATTCCATATCTGATGAAGTTCAA
ACTAGTGATAAAGTAATTCCTGGTCTTATTCGTGCTGAGGCGTTTGCAACTGAAGAAAAT
ATTACACGAGAGGCCGAAGATGCAATAAAATCTAATATAAGCCCCAATGAACAATCATCC
ACAGAAAAATTTAGTGATAGCACTGTATATATGGATCTCATTAATGATACGAATAGTAAA
ATTTTAAAAGACGAATCCTTAGATAGTAATATTAAGAATGTCATTAAATCTTGTTTAGAT
GTATCCGATACGGACACCCAATGGAGTTTAGTTAAAAACGATTCCACGGTTTATTTAGAT
CTCCCTAGTTTGGTAAAGGAAACTCATGATTTTCTACATTCTGAAAAAATGTTAAGTAGT
AAAACTGTTGAACTTGGTAATGTTTATACAAGTACGCCTAAGGGCAGTAATACATCAACT
GACAGTACTTTAGAGGCTGAAGATCAGGAGACAGAAATTATGTCTGTGACTAAAGTGCCC
GACTATGGACCGGGAGTGACGTTAACAAAATTAGAACAAAAACACGTCCCGGAAAATGTA
AGTCCATTTGACTCTCCATCTAAGAGTCACCACACAGACACCTATGATGAAAACAGTTCC
GTAGTACTAGGCCCTTTTGAAAACTTCACCCTTGACCTTTTTAAGGGTGTTAAGTCAGAC
CTTACCGACCTCCACAAAGAAGAAATACTGGCGCTCTCATCAAACTTTAGTGAAATGAAC
TTGGAAACGCCTTCTCCATTAAGGGATAGCAATTTTCTCAATGAAGTTCCGGATATTGTA
CCGGACGAATTGCATTTTGATGATATAGCAACGCTCAGTGAAGAAAAGCCGGAATCCCTC
TCAGCCAATAAAACGGAAGAAACTGAAGAACAATCTTCGACGGAAAAACATGTTTCGCCT
TTGACACCACCTAATTCGCCAGGAAATTTTCTTGCCACTACAAGCCATCAAAAATACTTA
GTAGACATAGATATAAATAATTCTAATTTGCCAAATGCTTCCAACGAAGATGTCGTGGAT
TTAAACCAAATTGATCTCCAAATTACTACAAAGTTGGCAATGGCTGAGAATGAGAACAAC
ATGAATTTAGAGTACTCGGGTCCATTAACCGAAGAAAGCCTTATATTTAATGAGTCTGTT
ATAATAGCAGATAGCGAAGCTGTAACGGAGTCTTACTTGGCAGGCAATACAAGTTCAGGA
GAGAATTTAAGAGATAGTCTTGCCATTGATGAGGAAAGAATGAAAGAACTGAGAAACGAA
TTGGAATTGAAACTGCCATTAGCTCAGGTAGCAGGAATCGAACCTGCTGTAGAGAGTGAG
TGGACGGAACTACCTCCGCCTCCTGAGCTAGTTTTAACTTATGGTGCGCTATCACCGATC
GCTGAGGAGACACGCATGCAACTGTCTGCATACGAAAATGATGATCAATGGAACACATCA
ACCCGTACGGAGTCTTCTGCGAGCTATCCCGAGCCTTGCAACAACTCCGACGAACTAACA
GACCTTCCGACCGCGCAACACTCCACATACACGATCACCAAGGATATAAATCACACCTAC
ACTGTACAGAAAGAAGTTCCAAGCAGCAAAGAAATCACCATGAGCGCTGACAGCTTAAAC
GCCAGTCCGTTAAAAAAACTGGATGAAATCCAATCTCCAATCGACGATTTGACATACACT
AAGAACGACGATGAAAAAGATGCGAACTGCGAAAGATTGTCTCAAGTATCTCCATTTCTT
CTCAGCCCGACCACAGATACATCAGTACCAGAATCAGATAACGTAGCTGGTGTTTCAACA
GTATCAAAAACAACCGTCCCCACAGACGCGAAGACGTCCAAGCCGTCCGAAACCCAATGT
TTATCAAAGGCAGCAAGTATAGACTCGTGGTGTTCAAACGACACGCTATATAATGTTGAA
GAAAACTTTGACGATCTTGCGATGGATTCGGACGTAGCTGTGGATATCGAGGCTTATATA
GAAAAGGATATGAGTGAAAGTGAAGACACTCTCACCCACAACGATGATGATAAGGAATTA
AGCCATTGTTCCACGTATATCATTCACGACAGTAAATCTGAAGTCTGCGAAACATTTACA
CCAGACTCGATTACTGCTAACGATAATTACACATACACGAAAGTAAAATCAGAAGCGGTC
GGCACTACGCCCTCCGTCATAACGAAATCTGATTTAAACGACTCAACAAAAAATACTCAA
ACGAAAGATTTAGCATACGGAACCTTAATGTCCGGGCTACCGACTTACTCACACTGCACA
ACGGAATTGGCATCAGGTATAGATGACTCGTGGAAACTTCAGCAACCAGAGTTGGTTAGG
AGATCTCCAATAGGCGATGAAGATAAATTTACTCCTCCAAAAGTCATTGAGAATAAAAAA
AGTTCTGAAAACGATGGTCCTCAGCTTAGTGTAGAGCCGCGATTAAGAAAAATAGATAGT
GTTGAAATCACGTGTCTGAAGGATTCATCTGATGAAGTCAATAAGTGTGAGAGTTTAGAA
GGACCGAGCTTAAATGAAAACGACAATAACGGAAGTCCGAATATCCATTTTCGTAACTTG
GCCCAATCGTCTGCTGAAAAAAGACCTCATGACATATCATCGAATAATAGCAAAGATGGT
GTTAGTTCCGAAATTCTATTAGAAGGGGAGAGTAAATCGATTAGTAACAAAGATTTAACA
GATAATACACCAGGATATTCGGACTTTGAAAATTCTGCAAATGTAAAGCCCCAGGACACT
ATCGAGTCGGAGAGGTCTAGTCAGATAGAAGGAGGGAGTCAGGATGAGTTCCAAAAGTTC
GAGAGTTCGGTCAAAAACCGCCCACAGGATCTTTCGTCGGTTACCGATGCTAGCTCTCTT
TTATTAAAAAGCGAAAGGCGATCTAGCGAAATAGCTATGGGCCACTTCACTAACGCTGAC
TTTGATATTTCTAGTCAATCGGTTAAACAAAGCTCAGAAACAGAATCTCCTAGTTATATA
GTTAACATTTCGAACCTGGCTGAATCTCACGCGTTATGTAATGATCAACCATTGAACGTA
TTTATTACTGATTTGGATGCGGAAGAAGAGACAGAACAGCCGCATTCGATTATAATAACT
GAGAGTCCCCTAATAGCTGCTAAGGTGAGCCCTAACAGAACTTTCGACTCCCATTCAAAG
TCGAACCGAAACAATGCAAACGACTCTTATGATTCACACGCCAGTGGCTATCAAGCCGTC
AAGAATATTTGGGTCAACGAAAGTTTTGAACCGAATGAAAGAGTCAATGGCTTGAGCGGC
GCAATATTAGTTGATAATATATGCGAAAACGAGGCTCTAAGTGATGTTCAGTTTTCTTCG
ATTAGTATTTACTCCGAACCTAGTGCGAGAGAATCTCAAAGCGAATCTTTGACAGGAAGA
GAAAAAAGTGTTCAAGAAAACAGATCAGTGAAAGATTCAGATGAAAATGTTGTTTTAAAA
GAAGGCACTAAATGCAATGGAAGCAATGAAGTGTATGCAACAGTGAACTATCTGCACGAA
ACGTTCGAGGAACTGTTAGAGAGTAATGTGGACGATAACGACTTAGGCAGCAGCGACGTT
AACAGAGAGGAGCAAACTATTAGTTGCGAGAAATCAACCGACATCATAACGGATTCGGAA
TCCATCGTGAGTCAGGTCAACGACGAGGGATCGCTCAATGAAGTAACAGCGGACGTCTCC
GTCGACAAAAATAAGCAAAGCGACGGCGGTGACAACGAAGAGGATAAAAAGATAGCCCTG
GTAACAGACAATTTCTTACAAAACGAAAAGAACTTCTGCCAATTGGATTCCTACTTTCCC
CTTCTCAGCGATATAAGATTTACTGGTCCGGCTACTGAAATAATGAGCACATCGTTCACC
CAAGATTCACCAACTGATCCAACGTCACCTGAGTGTGAGCAGGATAGCAAAAAAGATCCC
ACAGCCGAGATATTGAAAGAGTGGGACAGCGATAGCGATAGTCACTCGTCTAACTCGTCC
AGCGGTGAATTCATATGGAAGGACGGCGACGGACAGCTGACTTCGCTGGTCCCATCCACT
GTGTTCGACCACCAACGGGAGGGCGTATCCCAGAGTCAGGCGGGAGGAGGTGATGTCCAG
GGTGAGGGTGCCGCGTCCTCGGGCGGAGACTCCGGTTCGGGATCGGAAGGAGACGAAGTT
GAGTTCGTGCCCTCCTCCTGGGACTGTAGGGCTGCTCCGGCTAAATCATCTCTCAGAAGT
TTAGAACAACCACCTGAGAGCAAGAAACGTGTTGTTTTCAAGAGGCAGAAGTACCACTGT
GTGTATGAATATCCTCGTGAAGTCGCTGACATCGAAGTGGACTCTCCAGCGTCATACCTG
CCAGACTACTCCACTTATTCGGACTGGGATCCGACGAGCGCTGAAGAAGCGGAAATGGGA
TACGGACAGTTATACGGAGGACCTGACCCCTTAGATCTGTTCTCATTACGCTCAGGGATA
GCGTTTGGAGCGGATTACGACGAAGACTTTTTCATATCATCATCGGCTCGACCTTTCGAG
AGCTTAGGCGTTATGTCCACCACAAGCCAGTTCTTCCCGGGCATGCACGTAAAGCCTATG
CTGGAGCGTCAGCTGTCTGATGACGTCAGCGAGGACTTTCCCCCTCCCCCGTCTCCCCTA
GCGACCCCTGTACACACCAACAGTAATAATACTCAAACAACGATAGCCCTTACACCGACG
CCGTCCTTCGACTTCACAACCCCTGACTCGGGTGTCGAAGATATAACTCCCGGCTCGACG
GTAGAAGAAGACTTCAAAGATAAGAGGCTCCCGGAAGTAGATGCGTGCTGGCGCGGTGAC
AGCGCCAGCTCAAGCGAATCAGTCAGCCCGAGCTCGCCCAGAGAGGCGCTCGGGGGTCTG
CGGCACACGAGGGATAAACTGAAGTTAGATCTACCGCCCAGTCCGCACGCACACGCGCCG
TCACCCAGACACAGTCGCGTGTTCAGTTTCGTGCTCGACAAACCCAAGAGATCTAACTCT
GGAGAGATTACAGACGAGTCGGCAACGGTACCTCCGACCACCACCGACACAAGGGAAGAC
GTCATGCCAGAACCGACCTTCTCCACGTTCGGGAAGAGCGCCCACTGCAGGCCGGCGAAC
AGTTCGGACACTGATAAGATCATACTAACAGATGAATTACTGCAGTGCGAGATGACCTCG
GAGGAGGTGAAGGAGGGGAACGCTAGGGGAGAGACGAAGGGGGAGGGGACCGTGCTGGAC
AGTGGGGATGAAGACTCGGGGATAGAGAGCAGCGCCAAGACAACGCTAGAGAGAAACAAA
CCGGCCTCCGACGTGTCCTAG
Protein sequence:
LFTASVTHLHDGRRAQPLDSGFSEPVNNNISEDNNNGPISLREMQNIANNNAAVYITSEN
EERNRISRESVVEFEPLPADIRVVDPLERCADWFAGEDFQRDQLQYLREIGRGWFGRVVK
GEVDDGCGISTVAVKILNQNVSLEDKARFLDEARLYRDMDHENVLSFVAKCLQEDPWILL
FELCSMDLQQYLIVNRPKMAILNESGVPLQLMCDVSSALAYIHSRGYLYGNLWSGNILVR
GNENVRAVLGCYSASEAPVQCAPPETNRQPPIYNTSSDVWSLGWLVWEVCAWGATPPPPP
APAPELPCPYRNHLYQVMQLCWSSNPEGRPSASQVHALINHLYYTHSQTNDSAKDQGYSS
SDFEERWQKLKPNTIPKIDEHVAIIHAPSTSTVSHFTRSDQEYDNTQTLQDSLSVELDTA
VSGTSSIMSDRDPLSVQLKSDSLTNLHGSLEDVRNIYLTHNETAALECHQGNMQLEDNRE
REQDRSDSSMDPWLKDIMNGSQDDVSYYKDVSDVIKNLDNILNSEKTSSSESSHQASPSR
DNLSLECKKDYPMQTSMVKSPGISNFQNILDMGFDSKSESPVRCEEDEGDGDTIGTLSHS
FERHSDTISQQTLENLTPDTPNVDLKSVSSLNDFKQSLGIMNRDNLKPRDEDSHLPNENN
VVSNNSVVPKLMELCVSSMPSVSETKEQVILKQDCQTSNNNTSELLSVYKQNKSVDDNIA
FIKNEIDIENGLRNKDEIIVNEKISNDTQPEVENQQKSDSHEQYSITKQFNCNDNAVDEI
SSSATNDIKNADKEEEIPAVLLQNTEGPEIACNKMLDTAVLSNEGLNDAINEIIADNSET
KNISSACQEKQQISNESIKPVMNCTYTNKYDESLDADLIGDIDKRPSNDSDNVAATQIVI
QEPMISEANSLLLEQHLGKEIKNENTHEEVYKELQSDVSETSNMVLKLKESIESDANHIH
EDKISDELMPVSENRDDFTPEEKKISSASLQPLEPITRTEQPETVQNSDVNTCESNVIVN
NDGVDSCRRILDDSISDEVQTSDKVIPGLIRAEAFATEENITREAEDAIKSNISPNEQSS
TEKFSDSTVYMDLINDTNSKILKDESLDSNIKNVIKSCLDVSDTDTQWSLVKNDSTVYLD
LPSLVKETHDFLHSEKMLSSKTVELGNVYTSTPKGSNTSTDSTLEAEDQETEIMSVTKVP
DYGPGVTLTKLEQKHVPENVSPFDSPSKSHHTDTYDENSSVVLGPFENFTLDLFKGVKSD
LTDLHKEEILALSSNFSEMNLETPSPLRDSNFLNEVPDIVPDELHFDDIATLSEEKPESL
SANKTEETEEQSSTEKHVSPLTPPNSPGNFLATTSHQKYLVDIDINNSNLPNASNEDVVD
LNQIDLQITTKLAMAENENNMNLEYSGPLTEESLIFNESVIIADSEAVTESYLAGNTSSG
ENLRDSLAIDEERMKELRNELELKLPLAQVAGIEPAVESEWTELPPPPELVLTYGALSPI
AEETRMQLSAYENDDQWNTSTRTESSASYPEPCNNSDELTDLPTAQHSTYTITKDINHTY
TVQKEVPSSKEITMSADSLNASPLKKLDEIQSPIDDLTYTKNDDEKDANCERLSQVSPFL
LSPTTDTSVPESDNVAGVSTVSKTTVPTDAKTSKPSETQCLSKAASIDSWCSNDTLYNVE
ENFDDLAMDSDVAVDIEAYIEKDMSESEDTLTHNDDDKELSHCSTYIIHDSKSEVCETFT
PDSITANDNYTYTKVKSEAVGTTPSVITKSDLNDSTKNTQTKDLAYGTLMSGLPTYSHCT
TELASGIDDSWKLQQPELVRRSPIGDEDKFTPPKVIENKKSSENDGPQLSVEPRLRKIDS
VEITCLKDSSDEVNKCESLEGPSLNENDNNGSPNIHFRNLAQSSAEKRPHDISSNNSKDG
VSSEILLEGESKSISNKDLTDNTPGYSDFENSANVKPQDTIESERSSQIEGGSQDEFQKF
ESSVKNRPQDLSSVTDASSLLLKSERRSSEIAMGHFTNADFDISSQSVKQSSETESPSYI
VNISNLAESHALCNDQPLNVFITDLDAEEETEQPHSIIITESPLIAAKVSPNRTFDSHSK
SNRNNANDSYDSHASGYQAVKNIWVNESFEPNERVNGLSGAILVDNICENEALSDVQFSS
ISIYSEPSARESQSESLTGREKSVQENRSVKDSDENVVLKEGTKCNGSNEVYATVNYLHE
TFEELLESNVDDNDLGSSDVNREEQTISCEKSTDIITDSESIVSQVNDEGSLNEVTADVS
VDKNKQSDGGDNEEDKKIALVTDNFLQNEKNFCQLDSYFPLLSDIRFTGPATEIMSTSFT
QDSPTDPTSPECEQDSKKDPTAEILKEWDSDSDSHSSNSSSGEFIWKDGDGQLTSLVPST
VFDHQREGVSQSQAGGGDVQGEGAASSGGDSGSGSEGDEVEFVPSSWDCRAAPAKSSLRS
LEQPPESKKRVVFKRQKYHCVYEYPREVADIEVDSPASYLPDYSTYSDWDPTSAEEAEMG
YGQLYGGPDPLDLFSLRSGIAFGADYDEDFFISSSARPFESLGVMSTTSQFFPGMHVKPM
LERQLSDDVSEDFPPPPSPLATPVHTNSNNTQTTIALTPTPSFDFTTPDSGVEDITPGST
VEEDFKDKRLPEVDACWRGDSASSSESVSPSSPREALGGLRHTRDKLKLDLPPSPHAHAP
SPRHSRVFSFVLDKPKRSNSGEITDESATVPPTTTDTREDVMPEPTFSTFGKSAHCRPAN
SSDTDKIILTDELLQCEMTSEEVKEGNARGETKGEGTVLDSGDEDSGIESSAKTTLERNK
PASDVS