New model in OGS2.0 | DPOGS203404  |
---|---|
Genomic Position | scaffold6:+ 1053633-1071082 |
See gene structure | |
CDS Length | 6726 |
Paired RNAseq reads   | 567 |
Single RNAseq reads   | 1395 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA012338 (0.0) |
Best Drosophila hit   | highwire (6e-130) |
Best Human hit | probable E3 ubiquitin-protein ligase MYCBP2 (0.0) |
Best NR hit (blastp)   | Esrom [Danio rerio] (0.0) |
Best NR hit (blastx)   | highwire, putative [Pediculus humanus corporis] (0.0) |
GeneOntology terms    | GO:0046872 metal ion binding GO:0008270 zinc ion binding GO:0016874 ligase activity GO:0005634 nucleus GO:0005515 protein binding GO:0030071 regulation of mitotic metaphase/anaphase transition GO:0005680 anaphase-promoting complex GO:0045449 regulation of transcription |
InterPro families    | IPR000408 Regulator of chromosome condensation, RCC1 IPR009091 Regulator of chromosome condensation/beta-lactamase-inhibitor protein II IPR012983 PHR |
Orthology group | MCL10539 |
Nucleotide sequence:
ATGGATATGAAAATAAAAACACCTGAGTTAAAATGCATGGATCCAGAGAATTACAGAAAA
TATTTCCGGGCACTTTGCTGGAGTGGAACAAGAAGAACTGACAAGAAACCTCCAAAAAAA
TTCAATAAAAAGGATCGGTTGAAAAGACTTAAAGGATCGAATGCATTGGCAATCTGCTAT
ACTCCAGCTCTCCTAGCAAATCCGTCTCAGTTTACAGTGTATGCTACCGTCCGTAGAACT
GTTCTAGCTCGCTGTAGACAACTTCAGGCTGCTGCAGCCGATTGTTCTGATGATAGTGAC
GATGATGGAGCGCTATCTATTTCCATCACTAAAGTACCAAAGGTCACAGGCATTGGGTTG
CGTACAGTATTTTCTCTTATCTCTCAAGCACGATTTACAGATCCAAACCTCTGTGAGCAA
TCACTTAGGGCTCTACTGGACGTGTTGCAAGGTCATGCGCCCGAGGATCTAGCGCACGAA
CAACATGAGATTATGCTGAATCTGCACACCATGCTAATAGAGGTATCAAGCACTGGGGTT
GGTGGCCGGATCGAGACTCCATCTACACTGACCGCTCTCAGCAGTTCCTGCCTCATCGCG
TTGGCCGTAGCTCGGGGTGAGGCTGAGCTTGTACTCAGCGCTGTGACGTCACTCGTCATG
GCCTCACCCTCGCTTACAGAACAATACATACACATACCGACAAATTTAACAATATTGCAA
CGGAGTGTTCACTCGGCCATCCTGGGTCCTCCTTCTAGAAATTTGTGGTTGAACTTTGGC
GTTCCACACAAATCACTGGTGACCAGTTTTCCTGTGGACCTCCCACCACAACTTACTGGC
ACTGGAGAATTAGTGGTTCGTTCATTAGTCTCGGATGGTTGTTACCTATATGTATTTACA
TCAAAGGGACTACTCAAAATCGGTTCAGGATATGGCAGTTCTATACGACAACATGTATAC
CAGTATAAACCGGATTTTTTTGCTAGCGACAGACATGGATGGCTCGGCTACTGTAAGAAT
AAACTGTACGTCAGAATAGGACGTAAGAAAAATGAGGTTTTTGAAGTCGATAAAGAGACT
TTAGAAGTGCGAAGCGTTCTTCGACTGGAGGCCGGGCAACCCGCACCTGTTGAGCCGAAA
TCAGCAGTATTCACGGACGGTCACCAACTTGGATTAGTACTTCTCACGAATTATGACAAC
CTAACGATTCGTATGTTCGATGTGGAGACGAACGCGTCTGAACGTTTACATGGAGGCACG
CACGCTCTGAGCGCTCGACGTGAACTGAACGTTCATTTACTTCGCCGGCGGACTCTTGTC
TTAGGCAGACCGTCTTTCGACGATGGTCTTTCGAGGCGCATGGTAGACCTCGATGCTCCA
GTGGCCATGCAACTGGATGATAATGAAGACGACCCCTTACTAGGAATATGCTCTGGACAA
GACTTTGGTCTTTTGACCACCTCTTCCGGAAAAGTTTATTACACCGGAAAGGGCACTAGC
CTCGGCTATAAAGTCCCGGTGCCGCATACCGGGCGCTGGACACTCATGAAGGAAACGCTC
TTTAACAAGCACGAAGTAGCGAGCATACGGAAATGCAAAGTTGTACAGGTGGCCCTCGGA
CATGAAGGTGTCCATGCTATACTGGTGTTAGACAACGGCACAGCGCTGTTCACGGGAGTG
GCTCGCCGCGGAGAAGACGGTGACGCTAACCGTCATAGACGCACACCTAAACCTACACGA
CCCAAGAAGATTTTGAGGGCGGAGGGCCATCATATTGTGTACGCGGCTTGTAACTACGGG
TCAACGGCGCTGGTGACCCGGCACGGACAACTGCTCATGTTTGGGAAGGACACTCAGCAC
TGCGACGAGAATGGTCTCGTCACGGGACTGAGACACGAGCGAGTCATACAGGTTGCTCTG
GGAAAAGCACACGCAGTTGCCCTCACGAATTTCGGCCAAGTGTATACTTTTGGCATCAAC
AACAAAGGTCAATGTGGACGTGAATTTGGTTACACTAAAGAAAAACCATTTCTCCGTGAG
GGTGGTGATAAGGAGGAGTTGAGAATTTGTCAGTCTGATCACTCCTGGTCTATGGAGTAC
TGCCGCGTGTGTGTTCTGTGTCGCGAGTGTACGGGATTCGGCAGCGCTTGTCACTGTGCT
CTGCTGCCCATTAGACAACCCGGAGAAAAGTGTGGATGTGGTGAAGGTGACAGTGGCTGC
AGCGTGTGTGGTATTTGCAAGCAGTGTGCTGAAGCATCCACCTCCAACGCCTCGACATCC
GTCTCAGACCCGCCGTTTTTCCCATCTGATAAAGAAGCGACTCAGTCGGACGGCGCTGTG
CCGGTGTGTGGTGATGAACGCGAGGCCGGTGTCAAGGTGACCAGTCTACCGCCGGCTCGA
GTCGCAGTACCGGGGGGACATCGGATTGTCGCTGTCGCTTGCGGCTTGCACCACACCGTG
CTACTTACTGAACACGGGGATGTCCTTACTTTCGGATCTAACCAATGGGGGGCTTTGGGC
GCGGGTGATATTGCTTCCCATCATCGACTAGTCCGCGTGCGTGTGCCACGCGCTTCCGCC
GTCGCAGCCGGGAGTAATCACACCGGTGTACTTACAAGGGACGGCGAATTGTACACCTTC
GGTAGCTACCAGAAAGGATCTTTGGGTCGTCCTCGCCAGGAGGAGCCACGTTCTGATCGT
AGTCCAGTGTGGTACGCCACACCGGAGCGCGTGCCACGCATTGGACCCCGCCATGGTTGC
CGCGCTGTATGGCTCTGTGCCTCTGGCGACCAGACCTTCGTTCAAGTGTCACAGGCTCTC
ATAAACACTGACACATTGTTCAGTTCAACTATCACGGCTAATAACAACAGTATTGTTATT
CTACCTAACCGTCCGGAACACACCTTTAAGTGTATCACTATAAATAAAACAGACGGGTCC
TGTAACGCCTGGACCGGTCCAGAACAAGTGGACTTTGTGAACACTCTCGCATGTCTCGAC
CCTCTTTATGATGTCCTGTGGTGCTATCAACCACAAATGCGAGTCATGAAATGCTTCAAC
ATTATCGCATTTGATTCACACAAGCTACAGCGCTGCTGCTCTAACGACCCCGAAGCTTTT
TCGGATGTCGAATTCGATTACCCCAACTACGGGTGTTTGAAAAGACTCGAAGACTTCCGT
CACATGGAAAGTTTTGAATGGATCACTAATAATGTTGAAGACCAGGAAGCTGAGAACGTT
GTGCTATCAAATATGTCTGTACTTAATCAAGAATTGGCTATACCATGCACTGTTGGATGC
CAAGTTACCAGAATTCATGCGGCATTGCATTTGCTCGGGTGTTTGGATTCACTCACCTAT
GCACACGATAACAGGTCCCCTGTTGTGGAATGCAAACGTGATATAAACATACAACCAATA
ATTCCTGTAGTAGAGGACTACCAGACGGTAAGTCGCTTCGAAAATCACGGAGGAGGTTGG
GGTTATTCGGGACATTCGGTTGAGGCTATCCGCTTCATGTGTGATTGTGATATATTATTG
GGTGGAGTTGGATTGTACGGTGGTCGAGGCGAGTATACAGCCAAGATACGTCTGTATGAC
ATAGGACCGGATGGTGGCGATCAAGAAGGCGATGGTGAAGTCATATTCGAATCAGACGAA
GTCTTCTATGAATGCCCTTCGAAAGATAGATTCCCGCTTATGTTTGATTCACCTGTTCCT
CTGATTGCTGGCAGGTGGTATGTGGCAGCTGCTACGATTAACGGCCCATCATCTGACTGC
GGGTCAGCCGGTCAAGCTATGGTGATAAACGACGATGTCGGGTTCCATTTCAAAACGTCT
AAGAAATCCAACAACGGTACAGACGTTAATGCCGGACAATTGCCTTGTCTTTTATATAAC
GTGTTGGGCCCTGACCATCCGATGCCCATAAGACATTTGGATCCTGGTGAACCGGTGATT
GTTCTCTCAAAGAATATATCTAGGAAAGTGACGGTACCCTGTTTCCGGTCACTAATCACT
TTAATGCAATGGAGTTGGAGGACTTTTAAGGATATTCTACTAGAAACAAACGGCCAAGTG
CCTATAAACTATCAGAAGTTAACACTGATGAAGCACCAGAAACGCCTGGTGTACATCATA
AGAGCTGGTCTAAGACTTGTCAGATCTTACATAAAGGAAGTGTATCCACAAAGCGTCAAG
AGACGCAATTCACCCGATTACATGTCATACTTCGAGTCCATAGCGGAAATCCGCAACTTC
ATACAGTCAATGATGGCTGATCCGACACCGTCTTGCTCTATGCTGCCGCGTCGGCCCGGC
CGCAGCAAGGCTCACAGGATATGCTACGTGCAATTTGCTCTGGATTTGACCAATTCTATA
TTGATGGAGGCCCACGAAACCTTCACTGTATGCTTTTACGCGTTCTTTCCAACGCCCATT
CTGAAATGGAATCACCTTTGCTTCATGCTGTGTCATGTGAAGGATGGTAGTGTGAACTGG
ACTCATATTCGTGAGTTGACGGCTACGTGTTCAGCCATGTGCCTCTCGCAAAGCCTGAGA
GATGTTTTGCAGTACATAGTGCCGCTTACGCATAGTCAAAACGGTACAACAGATACACGT
AGGATTGATAATAAGATGATTAAAGATGTCCCGTGCAAATCAGCGACAGTTCCGCGTTCA
TCGCACGCACAGAAACCTCCACCGATACCGCCACGTGCCAAGGATAGAGTTTCGTTGCAG
GTCAATGATAACGAAAAATCGAATTATCTTGATTGGCACTTACTGGACGTGGTTCCTAGA
TTATTGGATGTTGTACTTAACCCGATAAAGCAACAGCTGACTCGCCGCCAGTGTGCGCCA
CCTCACGACCACGGGGAACTGTCTACACAGGAGAGACTCTCTGAATGCTGCTGCAAACTC
ACATCGCGTGTCATTGCTGAAATGTCTTTCAGTGCTTTGCAAGCAAAAGACGATCCTGAA
TCCAAATCGAATAAACATCTGGTGACTGCGTCCCGCTTCATGCGTGTGAACTCTGCTCGT
TCGTGGAGTACAGGGAACGGTAGCCCTGACGCTATCTGCTTCACTGTGGATAGACCAGGG
GTGGCGCTAGTGGGCGCCTGCGTCTTTGTGGGCAGCGGCCTTTATGACTACACAATCGAA
CTTCTACACGATATGCGTACTTCATCAGAAGAATCTAATGCGACCCACTGTTGGGTGAGT
CTGGAAGCTGCCGACGGTTCATTCTCTAGTGGTGACGCGCATCACGAAATGGTGAACATC
AAGTTCAACAAGCCGGTACTGCTTAAGGACGAGATACGTTACGCCCTCCGTCTTTGCTGC
GAGGGAGCTCGTACAGCTAGTGGTGACTGCGGTCTGCCAGCGGTCACCGGACCTGATGGA
ACTACTTTTCAATTCTCCTCCTGTTCGCTCAGTTTCAATGGCACATCCATCGCCCGTGGG
CAATTGCCTTGCCTCATATACTACAGAACAAAGTGGGTGGAGCGGTCTGTGGAGAGCTCT
AGCTCGGCGAGCACAAGTAACGCCCGCGTGAATATGAGTCGTTTTAGTGAGGAGAGCGAG
TGTGATCGTGGGGCAGTCCGCGATGCTGCAGTGTCTGTGGCCTCACTGGTAGCGGAGCGT
GCTTCTTTACTGTTAGCGAGCACACGAGCCCTACCACCGGACGAACTCCGTCGCGCCGCA
CCCGCTCTCGCCACTGCTCCCGCTCTCAACACGCTGCTACCCTATGCGTTGGCTAATCTC
GAGGGCCTTAATGATTCTAAGAGTGTGATACAATTACTGGAAATGGTACACAAGCTGCTG
CCTCACGTGGCGGCTGTGAATCTATTGATACCGAGCGTCGAGGAGGTGTCTTCCTCCACG
ACCAGTCAGTTCTACACCTGGGTCGAAAGCGACCATCCATACAGACAAGCGACGGTGGTT
AATAAACGGGTACTGTTTCCACCTCAAGTAGCGTGGATTGTATTGGAGATGGATCCGCGC
AGTATAACCGCCCAGCCGGAGGACACGCTGACCATTTACGCAGTAGCAGGTGCTCCGCGC
CACCGCTGCCATTGTTCCGGTGACACTAGGGTCATCGACCCTCCCTTCCGTAAGAGATTA
ATCCAGTTGACATCGGAGACAGGTGAAGTCGAAGAGCTGGAAGAGGCGAGTTCGGATGCA
CCTTGCATGCATTACAACTGCACATACGTCAGTGTGACGCCCAGACTGGGTAATATGCAA
GCTGATTGGCCACAGAAGGCGTTGTTGGTTCCCGGTAATGAGGTCATATTCTCATTGGAG
ACGGCATCGGATTATTTAAACGAATACAATCAATCTGAGAATGATGATAGCCGTTTTGGC
TTCCGATGTCTCTGCATCGGCTATGAGGATAACTGGTCGGGACGCTCGGTGCTCGGCTCA
GGGTTCCCGTCAGGGTTGTCAACGCTGGAGATGGAGCTGGTACATCTTGGCGCTGCTTGT
GCTTCGCGTCTGTTGTCACCGGATCTCGACATACCACCCCTAACACGCGCGACCATCGTG
GAGGTTCAGACGATGGCGTTGTCGTCTAGTACCGCTGGAACGTCTCTCATGGGGGATGGT
GCTTGTGCTGCGGTTGACGAGGACATCGCTGATCAGAGTGAAGCACTCCTGATATCGCGG
GGCCTGGAGCTGGCCTCGCCTCCAGCTGTCCACCACGTGCTGGATGGACTTCCCTTACTA
CGGTGA
Protein sequence:
MDMKIKTPELKCMDPENYRKYFRALCWSGTRRTDKKPPKKFNKKDRLKRLKGSNALAICY
TPALLANPSQFTVYATVRRTVLARCRQLQAAAADCSDDSDDDGALSISITKVPKVTGIGL
RTVFSLISQARFTDPNLCEQSLRALLDVLQGHAPEDLAHEQHEIMLNLHTMLIEVSSTGV
GGRIETPSTLTALSSSCLIALAVARGEAELVLSAVTSLVMASPSLTEQYIHIPTNLTILQ
RSVHSAILGPPSRNLWLNFGVPHKSLVTSFPVDLPPQLTGTGELVVRSLVSDGCYLYVFT
SKGLLKIGSGYGSSIRQHVYQYKPDFFASDRHGWLGYCKNKLYVRIGRKKNEVFEVDKET
LEVRSVLRLEAGQPAPVEPKSAVFTDGHQLGLVLLTNYDNLTIRMFDVETNASERLHGGT
HALSARRELNVHLLRRRTLVLGRPSFDDGLSRRMVDLDAPVAMQLDDNEDDPLLGICSGQ
DFGLLTTSSGKVYYTGKGTSLGYKVPVPHTGRWTLMKETLFNKHEVASIRKCKVVQVALG
HEGVHAILVLDNGTALFTGVARRGEDGDANRHRRTPKPTRPKKILRAEGHHIVYAACNYG
STALVTRHGQLLMFGKDTQHCDENGLVTGLRHERVIQVALGKAHAVALTNFGQVYTFGIN
NKGQCGREFGYTKEKPFLREGGDKEELRICQSDHSWSMEYCRVCVLCRECTGFGSACHCA
LLPIRQPGEKCGCGEGDSGCSVCGICKQCAEASTSNASTSVSDPPFFPSDKEATQSDGAV
PVCGDEREAGVKVTSLPPARVAVPGGHRIVAVACGLHHTVLLTEHGDVLTFGSNQWGALG
AGDIASHHRLVRVRVPRASAVAAGSNHTGVLTRDGELYTFGSYQKGSLGRPRQEEPRSDR
SPVWYATPERVPRIGPRHGCRAVWLCASGDQTFVQVSQALINTDTLFSSTITANNNSIVI
LPNRPEHTFKCITINKTDGSCNAWTGPEQVDFVNTLACLDPLYDVLWCYQPQMRVMKCFN
IIAFDSHKLQRCCSNDPEAFSDVEFDYPNYGCLKRLEDFRHMESFEWITNNVEDQEAENV
VLSNMSVLNQELAIPCTVGCQVTRIHAALHLLGCLDSLTYAHDNRSPVVECKRDINIQPI
IPVVEDYQTVSRFENHGGGWGYSGHSVEAIRFMCDCDILLGGVGLYGGRGEYTAKIRLYD
IGPDGGDQEGDGEVIFESDEVFYECPSKDRFPLMFDSPVPLIAGRWYVAAATINGPSSDC
GSAGQAMVINDDVGFHFKTSKKSNNGTDVNAGQLPCLLYNVLGPDHPMPIRHLDPGEPVI
VLSKNISRKVTVPCFRSLITLMQWSWRTFKDILLETNGQVPINYQKLTLMKHQKRLVYII
RAGLRLVRSYIKEVYPQSVKRRNSPDYMSYFESIAEIRNFIQSMMADPTPSCSMLPRRPG
RSKAHRICYVQFALDLTNSILMEAHETFTVCFYAFFPTPILKWNHLCFMLCHVKDGSVNW
THIRELTATCSAMCLSQSLRDVLQYIVPLTHSQNGTTDTRRIDNKMIKDVPCKSATVPRS
SHAQKPPPIPPRAKDRVSLQVNDNEKSNYLDWHLLDVVPRLLDVVLNPIKQQLTRRQCAP
PHDHGELSTQERLSECCCKLTSRVIAEMSFSALQAKDDPESKSNKHLVTASRFMRVNSAR
SWSTGNGSPDAICFTVDRPGVALVGACVFVGSGLYDYTIELLHDMRTSSEESNATHCWVS
LEAADGSFSSGDAHHEMVNIKFNKPVLLKDEIRYALRLCCEGARTASGDCGLPAVTGPDG
TTFQFSSCSLSFNGTSIARGQLPCLIYYRTKWVERSVESSSSASTSNARVNMSRFSEESE
CDRGAVRDAAVSVASLVAERASLLLASTRALPPDELRRAAPALATAPALNTLLPYALANL
EGLNDSKSVIQLLEMVHKLLPHVAAVNLLIPSVEEVSSSTTSQFYTWVESDHPYRQATVV
NKRVLFPPQVAWIVLEMDPRSITAQPEDTLTIYAVAGAPRHRCHCSGDTRVIDPPFRKRL
IQLTSETGEVEELEEASSDAPCMHYNCTYVSVTPRLGNMQADWPQKALLVPGNEVIFSLE
TASDYLNEYNQSENDDSRFGFRCLCIGYEDNWSGRSVLGSGFPSGLSTLEMELVHLGAAC
ASRLLSPDLDIPPLTRATIVEVQTMALSSSTAGTSLMGDGACAAVDEDIADQSEALLISR
GLELASPPAVHHVLDGLPLLR