| New model in OGS2.0 | DPOGS207016 |
|---|---|
| Genomic Position | scaffold1:+ 940306-947306 |
| See gene structure | |
| CDS Length | 4974 |
| Paired RNAseq reads | 787 |
| Single RNAseq reads | 1957 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012940 (9e-08) |
| Best Drosophila hit | ND |
| Best Human hit | Alstrom syndrome protein 1 (7e-07) |
| Best NR hit (blastp) | PREDICTED: similar to LD15043p [Acyrthosiphon pisum] (4e-10) |
| Best NR hit (blastx) | PREDICTED: similar to LD15043p [Acyrthosiphon pisum] (3e-12) |
| GeneOntology terms | GO:0000922 spindle pole GO:0003674 molecular_function GO:0006629 lipid metabolic process GO:0042384 cilium assembly GO:0046548 retinal rod cell development GO:0048589 developmental growth GO:0005829 cytosol GO:0006915 apoptosis GO:0019722 calcium-mediated signaling GO:0005932 microtubule basal body GO:0005856 cytoskeleton GO:0005813 centrosome GO:0006641 triglyceride metabolic process GO:0007601 visual perception GO:0050896 response to stimulus GO:0007286 spermatid development GO:0007605 sensory perception of sound GO:0042593 glucose homeostasis GO:0042632 cholesterol homeostasis GO:0045598 regulation of fat cell differentiation GO:0005737 cytoplasm GO:0008150 biological_process GO:0005929 cilium GO:0050673 epithelial cell proliferation |
| InterPro families | ND |
| Orthology group | MCL40798 |
Nucleotide sequence:
ATGAAGTCACAGTATGATTCCTCTGACTCGGGAGATAATAAGAAAAGTGAATCTTCGACG
GAACTATGTAGGATTTCTATCAAGTGTTCAATTCCTGAACCTGGTTCTTCCAAGGAAGAT
AATGCGAGGACAAAGATTGATTCAGTGTCCCCTCCCATCATAAGTGAAGAAGCACCGACA
CATCAATGTCAGAGTTCTGACAATGACTCTGATAAATCAAATGATGTTCAGTCTCAGAAA
TCCCATGATTGCACCCTTGATACCTCAATGAATAAACCCATTTCACCGACAAGTAGTGTA
ACATCGCAGCGAAGGCTTGAATGGGACTCCTTAGCTGATGTTGGCTATGCTAATGAAAGT
GACAGAAAAAATTCAGCTTCCAGTCTAAGTACTCTTGAGAGGATGGCTTTGCAACAGCAA
TACTCTAATGAAACAAAACACAATTCAGACTTAGGGCCACCAACTGCACAATCAACCCCA
GTTGATGTTAGTGAGGTTAAAATGAAAAGTAAGAAGATGGATTCAAAAAAATCCACAAAG
ATATATAAAAAGGATGTTGATTTATTTGAACTGAACGTACCACAAATGACCGAATATATG
AAGCCTATAAATGTTAATTTAACAAAACATATATCATTTAATGTTGAGAGAGATGGTGGT
GTGTCTGTTGAAAATATGACAAAAAGTGTTAGTTTGAGCCCTGAAAAAGTTTCTGTTGAA
ACTGCCATAACACCACAGGTTAAAATGGATAAAGAAATCCAAACAACCTTGATAAAAACT
AAGGACCACAATGCACAGCCTAAACAAAACGAACCTGTTAAAAAGATTCCAGTGTTAATC
AGTGTAAATACTTTAAAGAAAAGAGTTAGGAGGAAAAAAGTAAGAAAACTAAGAAGGCAG
AATAGTAGAAAACAAAATGTCATTGACAAAGAGAACATTCCAGAAAAACATGCTGAACCA
GTTTCCGATGCAGAGAGTTTTGAATATATGCCAGGACATATTTATAATCAGAATCAGTTA
AAAATTGACAAGAATACAGTAAATCCATCTGGTAATAAATCTAGCTTGGAGTCAAGTGCA
GGTTTGACAACAGATTCTAGCAAAACATCAAAGTATTCATTTACCAAAGACTTAGAAAAG
GGAATAGACATGCTTAAGAACACATTAGACTATAAATGTGACGACCCTAATTTAAAGAAG
AAACTTATCAGAGATGTTGTTGAAAAATTGATTAAATCAAAATACAGAGATGATGAATCT
TCCACTGAATTTCTGTCCGGACTAACTTTTGAAAGCAAAAAGTTAGATTTGTATAATCAA
CATCACACTACAACAAGTACATCTGAGAATGATACTATGAAAAGGAGTAAATTACTAAAA
CCCAAGAAGTCCATTTTGCGTATTGATAAATTCAATTCAGGACCTGTAGCTTCCACTTCT
CAAAGTGTTCCTAATCTACATACCGTTATCAATCAAGAGAAACCTATTGCACCTAAGATT
GGACAAATACAACTATCTCATACTGATTCAGATATTTCAAATAAAAACAAGATCACTTCT
GACACAGGTATTGATAAAATATCTTCAGAGCAACTATATCAAAAATATCTTGAGGCTTTA
CAGAGAGAACAAGCTTACAAAAGACATCTAAAAGATAAGGAAATATTTCTAAAACAGAAG
CTAGCAAGTTCTGACATTGCTTTTGATGTTGTGAGACATGCTGAAACTAAAACACAAAAC
AGAATAAAGGATCTCATGAAAGATTTGATAAGAAATAACTATGATGATGGATCAGGTGAT
GCAAGTAGATTGGAAGGTGGCTCAGGGTCTAATCTTAATATTGAACAATACAATAGTGCT
AGACGGCAAAGAAGTCATTCTGTTTTCACACTTTCATCTGGTACTTCAGACAACCATTAC
AAGCAAGCAAAATTAACTAAATGCACCCAAGATGCTGATGCCCTAAAGACAAACTTTACT
AAAACAGATAACCACTATTGTTGTTGTCCTTATCACAAAGCACATCCAAAAATTGGGGTC
GTAGATAGTTCAGTTCAGGTTAACTTAAACTGTTGTAAAGATTATTCTCCTGTAAGAACA
CAAACCTGTTCCACGTCATGTGCGCCGGTCCATCAATCGGTTCCATACAAATGTGAAAAA
TGTAATACTATTTACAAAACTCATAAATTACCCAAATGCGTACCCGAAGACAGAGATGAA
ATAAAATATGTGTGTTTGTGCACAGAGGACACAGTCACAAAAAATGAGATGCCTGAAAAC
ATATTAATTTACAAGTGTTCGCGGCTTAATAGTAAAGGATTAAAAGTGGATACAGTTTTA
AAAGCATCTAATGCAGTTAGTGCCCCATCTAGCAATTCGACATCCCCTCGAAAAATATCT
ACATTCGGAAGTCAAGATTGTGAGAGGAAATGTTTGGTTATAAAGGACAGTAATAGCTCT
AATATTCAAACGAAATCATCACAAACTGATCTCAATTTACGACTAGCGTTACGAAATCGA
ACAAGTGAACAATCAACACAATCATCGACTTCTGAAGACAGAAATGATAAGTTTTCTCTT
CATGGTAAAAAACCTAGTATATTTGTCCATGAAGCTACAAGAGTTGTTCAAACTGAAATG
AGCATAGATCCGAAGATATCTGATCCATCAATATCTGATATTAATATTGTTAATGACGAA
TGTTGCGTTCAGTTGATTAGCGAGAGATTTAAAGAAATTACACAAAATTCTTCACGTAAT
CAGGTCAATAAATGTTTGGAAGGAGCTATACGAATGGAAGAAAGAGAACCCGTAAACATA
GTTTATGCAAATACTAAAGAGACTTCGACAAACACAGTTGAAAAACACGATAAAGAAATA
CAATCAAGCCCAGATGTACCGAACACACCTATAACTGAAGCTAACGACAGACAAGGTGAA
AATAATTTCACTATACCTATACAAGGTACGAACATGATGCTTAAAGTGAGCTTGGGCTCT
GAAAACAAAGGAATAAACAAGGAATTTGACAGGAACCTGTTGAAAAAGACTGAGGTAGAG
TCTACCTCAAAAGGGACTGAAACGCTAAAGAACGACGTTGTTGAAAATTTCACATCATTA
AGGGAAGACTGTTCGAAAGCCGTACAATGCAATGATACCAACATATTTAAAAACCTTTGT
AAAAAACCTGAACCTTCATGTGGACATTGCAATACATATCAAGAAAAGACCCCAGCAGAT
ATCGTTAGTTCTGAACTAAATAATAAGGCTAATTGTAAACTCAATACAAAACCTACTTGT
GAAAAAAAAATTCTTACTGATAATAAATGCAATACTTTCCCGAGAAACGACCGATGCAAC
GTACAGAAACCACTTCTCCGTTCAAATACTGATACAGGGAAAATGGAAAGATGTTGTCGC
GTTACATTCAACAAAAAATCCACCAAAGACGACGGGGTACAACCAGACCCAGAAATTTTA
AAAGAGAAGCAACAACCAAAAGGTGTTTGTACAGAAAAATGTCAAGAAAAGTATGATTCC
TGCTGTTCCGAAAAATCTTTAAAATCCATTGATGTGAGTTCGAAAAGCAAATTTAGTTCC
GATATAGATGAACCGTCTCAATTAAAACCATCCACCAGTGAATCTGATGATAATATAAAC
AAATGCATATCCAGGGATCCCTTGATAGAAATGATTCAAGACATAACAAAACGATATTCA
AAGAAAGATTACGAAAAAGGTAAAAGAAAAAAATGTTTTAAGGAAATTATCACGGTTCTC
AACTATTTTCTCGATACGGAGGAGAGTACGGATAAGAGTACGGATCAAGATATAAATAAA
ACATCTTGTTCTACTGGTGACGAAAATAAAGGTCCTGAGAAAAAAAAGACTAACAATGAA
TGCTGTGGATCCATTCCAAGCAAGACTTTTGTAGATAAAAGTGTTCAGTTATCTTCAAAA
AAATCTAAAACTAAACAGTGTACCGAATCATCTGATCTACCGCTCTCCAGTGATCTACCT
AGCACTTCGTCCGATTCGGCTACTTGTAAAGTGTTAAATAAAATCAAAAGAGAGTGTGAA
AAATACCATCAAAAACGATGCAAATCTTATAATGGAGCAAAAAAATGTGACGCATCCAGC
AGTACCTCGGTAAACTGCAATCAATGCAGGAAGGTCCACCACTGTTCTTGTAGGGGGCAC
AAATGTAAAAATCACAACACTAAAACACTCGTTGAGAAGACAAAAAGAAATTGTATAGCT
TACAACCTGATCATACAAACATCTGACAGCATGATCAGCGAGGAAGTCACTTACGGAAAC
AAAGAGCGACAGTTACAGAATATTATAGTAAAAGTACCTTCAAAACGAAAAGAAGAAGAT
ATACCTTTTAAGGAAATGTCCAGAAAGATTGAAAAAAAGATGAAAAACTGTAGTCCTCGA
TGTGGCAAGAACTATCACCGATCGAAAAGTTGTCCAAATGAGAGTGAAATATCAAGTACA
GACGAATTTTTAAAAAGGGCTCGTGAGTTTACCGTTAGGGAGTACTTGGAACAAAATCGA
CCAGACTTCGTTGAGAAGAGTTCAAATCGACAACATTGCTTGAAATTAATTAATGAATCG
CGAGCCAACGAACGAATTACCAAACGCCAATTGCTGTCGTTGCAACTGGACAAGCAACAG
ACTCTAAACAGTCTCACAAATACAGAATTACAAAATCTGGCTAGAGAATTAGGCAATGAG
CTGAGAAGGAAAAAAGTGGCTCCAAAATTCATTAATGAACGTGAAATGAAAAAACATTCT
GAAAAAATTTACAAGTCTCTACCGGAAGTCATGCGGCAAAAAGAAGAGATGAAAAAGGAA
AATATTAAAAAAACTAACTTATTAATGGCCAGTTTATTTAAAAAGAATCTACAAAAGAAA
ACACTCAGTGGTGATGTCAATTTATCCAACTATAACACAGTCATAAAGATATGA
Protein sequence:
MKSQYDSSDSGDNKKSESSTELCRISIKCSIPEPGSSKEDNARTKIDSVSPPIISEEAPT
HQCQSSDNDSDKSNDVQSQKSHDCTLDTSMNKPISPTSSVTSQRRLEWDSLADVGYANES
DRKNSASSLSTLERMALQQQYSNETKHNSDLGPPTAQSTPVDVSEVKMKSKKMDSKKSTK
IYKKDVDLFELNVPQMTEYMKPINVNLTKHISFNVERDGGVSVENMTKSVSLSPEKVSVE
TAITPQVKMDKEIQTTLIKTKDHNAQPKQNEPVKKIPVLISVNTLKKRVRRKKVRKLRRQ
NSRKQNVIDKENIPEKHAEPVSDAESFEYMPGHIYNQNQLKIDKNTVNPSGNKSSLESSA
GLTTDSSKTSKYSFTKDLEKGIDMLKNTLDYKCDDPNLKKKLIRDVVEKLIKSKYRDDES
STEFLSGLTFESKKLDLYNQHHTTTSTSENDTMKRSKLLKPKKSILRIDKFNSGPVASTS
QSVPNLHTVINQEKPIAPKIGQIQLSHTDSDISNKNKITSDTGIDKISSEQLYQKYLEAL
QREQAYKRHLKDKEIFLKQKLASSDIAFDVVRHAETKTQNRIKDLMKDLIRNNYDDGSGD
ASRLEGGSGSNLNIEQYNSARRQRSHSVFTLSSGTSDNHYKQAKLTKCTQDADALKTNFT
KTDNHYCCCPYHKAHPKIGVVDSSVQVNLNCCKDYSPVRTQTCSTSCAPVHQSVPYKCEK
CNTIYKTHKLPKCVPEDRDEIKYVCLCTEDTVTKNEMPENILIYKCSRLNSKGLKVDTVL
KASNAVSAPSSNSTSPRKISTFGSQDCERKCLVIKDSNSSNIQTKSSQTDLNLRLALRNR
TSEQSTQSSTSEDRNDKFSLHGKKPSIFVHEATRVVQTEMSIDPKISDPSISDINIVNDE
CCVQLISERFKEITQNSSRNQVNKCLEGAIRMEEREPVNIVYANTKETSTNTVEKHDKEI
QSSPDVPNTPITEANDRQGENNFTIPIQGTNMMLKVSLGSENKGINKEFDRNLLKKTEVE
STSKGTETLKNDVVENFTSLREDCSKAVQCNDTNIFKNLCKKPEPSCGHCNTYQEKTPAD
IVSSELNNKANCKLNTKPTCEKKILTDNKCNTFPRNDRCNVQKPLLRSNTDTGKMERCCR
VTFNKKSTKDDGVQPDPEILKEKQQPKGVCTEKCQEKYDSCCSEKSLKSIDVSSKSKFSS
DIDEPSQLKPSTSESDDNINKCISRDPLIEMIQDITKRYSKKDYEKGKRKKCFKEIITVL
NYFLDTEESTDKSTDQDINKTSCSTGDENKGPEKKKTNNECCGSIPSKTFVDKSVQLSSK
KSKTKQCTESSDLPLSSDLPSTSSDSATCKVLNKIKRECEKYHQKRCKSYNGAKKCDASS
STSVNCNQCRKVHHCSCRGHKCKNHNTKTLVEKTKRNCIAYNLIIQTSDSMISEEVTYGN
KERQLQNIIVKVPSKRKEEDIPFKEMSRKIEKKMKNCSPRCGKNYHRSKSCPNESEISST
DEFLKRAREFTVREYLEQNRPDFVEKSSNRQHCLKLINESRANERITKRQLLSLQLDKQQ
TLNSLTNTELQNLARELGNELRRKKVAPKFINEREMKKHSEKIYKSLPEVMRQKEEMKKE
NIKKTNLLMASLFKKNLQKKTLSGDVNLSNYNTVIKI