| New model in OGS2.0 | DPOGS207544 |
|---|---|
| Genomic Position | scaffold3636:- 724-15842 |
| See gene structure | |
| CDS Length | 4155 |
| Paired RNAseq reads | 1894 |
| Single RNAseq reads | 5899 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA009343 (3e-08) |
| Best Drosophila hit | CG12006, isoform A (1e-46) |
| Best Human hit | hemicentin-1 precursor (3e-49) |
| Best NR hit (blastp) | PREDICTED: similar to ankyrin 2,3/unc44 [Strongylocentrotus purpuratus] (9e-78) |
| Best NR hit (blastx) | PREDICTED: similar to ankyrin 2,3/unc44 [Strongylocentrotus purpuratus] (2e-77) |
| GeneOntology terms | GO:0003674 molecular_function GO:0008150 biological_process GO:0005576 extracellular region GO:0005604 basement membrane GO:0005938 cell cortex GO:0030054 cell junction |
| InterPro families | IPR007110 Immunoglobulin-like IPR000477 Reverse transcriptase IPR013098 Immunoglobulin I-set IPR005599 GPI mannosyltransferase IPR003599 Immunoglobulin subtype IPR003598 Immunoglobulin subtype 2 IPR013783 Immunoglobulin-like fold |
| Orthology group | MCL10014 |
Nucleotide sequence:
ATGGCTTTGGCAAAGGGCCTGAGGCCCGTGCAGGTTGGGGCAGTAATATTGGCGGTGCGT
ATTTTATCCGTGTTCCTAGTGCAAACCTGGTATGTGCCGGATGAGTATTGGCAAACCTTA
GAAGTGGCACACAAATATGCCTTCGGTTATGGAGCCCTGACTTGGGAGTGGCAAAAGGGG
ATACGAAGCTATCTATACCCCAGTGTAGTCGCTGTGCTTTACTCCGTGTTGAAATTCACT
GGCCTTGATTATCCAAATGTTGTGATAATTCTACCTCGTATTCTGCAAGCAATCATTAGT
TCTATAGCTGACTACAAATTCTACAAATGGACTGGAAATCGTAAATGGGCATTGTTTTTG
ATACTTACATCCTGGTTTTGGTTCTATACTGCCAGTCGTACACTGTTACAGACCTTGGAA
ACAGCATTTGTGGCCATAGCCCTATCTGTATTTCCATTCAAAACTGGCAAGCTTGGATAT
TATGAGAAAGTAAGCCAGATTGACTCACCCACTTATAAACTGGCTAAATTTCTTTCAAAA
ATATTATCACCTCTCCGGGGCCACACAAAGTCATTTGTTAAGGATTCCTACCAGTTTGTC
AAAGATTTAAAACACCTAAAATTGAGCGACAATGACAGTATGGTCAGTTTCGATGTACAG
TCATTATTCACTAGTATACCTGTTCTTGACTGCATTGAGATTGTAAGAGGTAAGTTAAAG
GATAACAATATGCCTATAGAATATGCAGAGCTATTAAAGCATTGCCTAACATCTGGCTAC
CTCATGTGGAAGGATGAATTCTACATACAAGTAGATGGAGTTGCAATGGGTTCACCGGTT
TCCCCCGTTGTCGCTGACATATTCATGGAGGACTTCGAGGTGCGAGCCCTTTGCTCTCCT
CCTATAAGACCTTTAATTTATAAACGGTATGTAGATGACACCTTCACAATATTAAATAAA
AATAAAACATCTGCTTTTCTGAACCATCTCAATTCTATCAATAGTAAGATTCAGTGTACT
ATAGAATTGGAGGCAAATAATTCTTTAGCTTTCCTTGATATACTTGTTGTTAGGAATCCT
GACAATACTTTGGGACATACTGTTTATAGGAAACCCACACATACGGACAGGTACCTCAAT
GGTTACTCACACCACCACCCTATCCAGTTAGCTACCGTTGGCAAATCTTTGTTACAGAGA
GCCCAACATCTTTGTGATGCTGACCACCTAGAGGCCGAGCTGCAGCATGTAAAACATGCT
CTCACTATCAACAACCTGCCCGTGCCTCGCCAGCATCGCAAGAAGCACCTGAAGCCACCC
ACAGTTGAACGACAACCTGCGATACTACCATATGTGAAGGGAGTTACTGACAGAATAGGC
AACATCTTGAAGAAGGTTTCCATTAAAACTATTTACAAACCACATAAGAAAGTGAGCCAA
TTCTTGAGACCAATCAAGAGTAACATTCCTTTACAACAAGCGGGTGTATACAAACTCGAC
TGTGACTGTGTCTTGTCATACATTGGACAGACGAAGAGGAGCATCGGTACAAGGGTTAAG
GAACACATCTCAGATATCAAAAACAGGCGCGCGTCGAAGTCAGCAGTGTGTGAACACACA
ATGGACAAACCAGGCCACTACATTCGTTTTGATAAACCTCAAATCCTCGCTCGGGAAGAC
AAGTATATACCGAGATTAATTCGCGAGGCTATTGAAATTAAAAAACATCCCAATTTCAAT
AGAGAAGATGGCTGGAATCTTTCAAACACCTGGGACCCCGTTCTTAAAAATATAAAATCC
CATGTCCGTAACCACACCGCAGGACCTCAAGACACCGTTTTAGAATTCGTTCGGAGTTCT
ATCCGGGGACGTACAGTTAACCTTGGTTCATCAGTGAACCCCCCAGGATACAATTACACT
CAACAGATTCCAGTCGATAAGACAGTGGGTGAAGTAACAGTGTCTGTGTCGGGAGCAAAG
CCCAGTATTAAAGTAGTGAAGCCAAGCGGCGAGGAACTCACAGGCCCTCCACAACTCGTC
ACTATATTGGATCTGTCTGAGATAATGATAGTGAAGGTGTTATCTCCAGAGCCTGGTCCG
TGGCGTGTGACGGTGGGCAGCTCCGAGCCTCACTCGGTGAGGGTCAAAGGTCTCTCTGAG
CTCTCCTTCACTCATGGATTCTCTGTCACAGACGTAACAAGCCTCAATCACACCAGCTAC
AGACCCTTAAAAGGTACATATAACAACATGTTGATATCCCTTCCCGCCAATACTTCCATC
AAGCTGGACCACGCGGAACTCCTGGATTTGAAAGGGAAACCGTTGTTTGAGATACCTCTG
AAGAAAATAGACGCGACCAGTAACGTATACAAAGCGGACGCCTACATACCACCCGAGGAG
TTTTTTAATATTGCAGTAGTAGGTGTGGACTCCTCGGGCAACGAAGTCCGCCGGAGCAGC
CCCACCGCCGTGAGCGCGGCGCCGCCCGATATTCCCAGTGTGACGGTACCGAAGAAGATA
GTGTCTCACCCACACTCTCGTGTCGTACTACCATGTTCCGTGGACAGCGTCGTGCCGGTC
ACCGTTGTTTGGACTCGACGCGGTATCGACCTTCACGAACACACTCACAGTCTACGAAGC
ACTACAGCTGAGTATGTAATAAAGGACGTGTCTGAAGCCGATGTGGGTACGTATCGCTGT
GTCGCGAGTAACGCCGCGGGGCGCGCAACTGCGGAGACGAGCGTCGATATGATAGCGTTG
CCCCCACAAGTGACGGTGACTCCCACGAACGTCACCGTGACAGAGACCGAGCGTGTGTTG
TTGACGTGTTCTATATACAGCGAGACGTATCTGCACCGAGCCAGGATCGAGTTCCAAGGG
GATCTGAAACATTACGATATCAAATTGGAGCCATCGATCGATGGTTTGTACACATTAAAC
AGAACCATTGAAGAGGCTAAGCAAAATGACAGCGGTATTTACACCTGCATAGCCGCAAAC
AGAGGGGGTGTTTCAAACCAGTCCACCGAACTCACAGTGGTACCGAAACCCACAGCTCTC
ATCCTCGGTCCACACACGCTAACAAAGCTCCTACACTCAGACATCCAACTCGTCTGTCAC
GTGGAAAACGCTGTGACAGTAATTTGGACGTACAACGACATAACGGTGGCGAGTAACGAA
GTTAACGGGAACTATAACGACGTGATGAATGTGGATAACGTGAAGGAGGACGGCGTCTGG
ACCTGCTCGGCCAACAAAGGCACATATAGCGCATCAGATTCCGTCCAAGTGACCGTACAT
ATCAAACCCGAAGTTAGCATAGTCGGTTCTAAGAACGTGTCTCTGCCACAAAACAGCACT
TACGATGTCGTATGTACAGTGGTCGCTCGACCACAGCCACGCGTGTTGTGGCACAAAGAG
ACCGAGGAGTTTTTATATCACGTTCTAACAAATCCTGAACCAAATTTATACAGAAGCGTG
TTGACTGTAAACGGTACGAATGGTACTTATTTCTGTATCGGCGAGAATTCTGAAGGCATC
CATCAAGATAGTGTGGATATTAATGTTTACTCTCCAATGATTTTGGAACGACAACTTAAC
GATACAACCGTAGAATTATACTCACCGGTCAAATTCCATTGCCAAATAAGCGCATATCCC
AAACCTAATATAAAATGGCGTCATAACGACACGCACGTGACACGGGATGATAATGTCGCC
GTTGAAAATGATGTCCTTATTATAAAGAGGGTGGATTTTGATAACCTCGGAGTGTATTTA
TGTGAAGCTGATAATGGTTATGAGAAAATTACAGTGAATTTCAGCTTAGGTTTACACGGA
CTGGCAAAACCGCTTATATATAAGGAACATGAGAAGATTGTTGTTCGTATAGAAAATGTT
AATAAAAATAACACGGGCGCGTACAGATGTGAAGCGAGTAACGTCATAGGAGAAGACGTT
CATGAACTGACAGTGAGTGTGCAATATCCGCCAGAACTACACTCAGACCAGGAAGCCTAC
AAGATGGAAGGTCCACGGCAAGTCAGGATGGGCGACGCGATAAGCCTGAACTGTAATGTG
ACCGGCGACCCGCTTCCGCTCGTGACTTGGACCAAAAACGGCTTACCGATAAATTATTCA
AAAATACGTCAGTAA
Protein sequence:
MALAKGLRPVQVGAVILAVRILSVFLVQTWYVPDEYWQTLEVAHKYAFGYGALTWEWQKG
IRSYLYPSVVAVLYSVLKFTGLDYPNVVIILPRILQAIISSIADYKFYKWTGNRKWALFL
ILTSWFWFYTASRTLLQTLETAFVAIALSVFPFKTGKLGYYEKVSQIDSPTYKLAKFLSK
ILSPLRGHTKSFVKDSYQFVKDLKHLKLSDNDSMVSFDVQSLFTSIPVLDCIEIVRGKLK
DNNMPIEYAELLKHCLTSGYLMWKDEFYIQVDGVAMGSPVSPVVADIFMEDFEVRALCSP
PIRPLIYKRYVDDTFTILNKNKTSAFLNHLNSINSKIQCTIELEANNSLAFLDILVVRNP
DNTLGHTVYRKPTHTDRYLNGYSHHHPIQLATVGKSLLQRAQHLCDADHLEAELQHVKHA
LTINNLPVPRQHRKKHLKPPTVERQPAILPYVKGVTDRIGNILKKVSIKTIYKPHKKVSQ
FLRPIKSNIPLQQAGVYKLDCDCVLSYIGQTKRSIGTRVKEHISDIKNRRASKSAVCEHT
MDKPGHYIRFDKPQILAREDKYIPRLIREAIEIKKHPNFNREDGWNLSNTWDPVLKNIKS
HVRNHTAGPQDTVLEFVRSSIRGRTVNLGSSVNPPGYNYTQQIPVDKTVGEVTVSVSGAK
PSIKVVKPSGEELTGPPQLVTILDLSEIMIVKVLSPEPGPWRVTVGSSEPHSVRVKGLSE
LSFTHGFSVTDVTSLNHTSYRPLKGTYNNMLISLPANTSIKLDHAELLDLKGKPLFEIPL
KKIDATSNVYKADAYIPPEEFFNIAVVGVDSSGNEVRRSSPTAVSAAPPDIPSVTVPKKI
VSHPHSRVVLPCSVDSVVPVTVVWTRRGIDLHEHTHSLRSTTAEYVIKDVSEADVGTYRC
VASNAAGRATAETSVDMIALPPQVTVTPTNVTVTETERVLLTCSIYSETYLHRARIEFQG
DLKHYDIKLEPSIDGLYTLNRTIEEAKQNDSGIYTCIAANRGGVSNQSTELTVVPKPTAL
ILGPHTLTKLLHSDIQLVCHVENAVTVIWTYNDITVASNEVNGNYNDVMNVDNVKEDGVW
TCSANKGTYSASDSVQVTVHIKPEVSIVGSKNVSLPQNSTYDVVCTVVARPQPRVLWHKE
TEEFLYHVLTNPEPNLYRSVLTVNGTNGTYFCIGENSEGIHQDSVDINVYSPMILERQLN
DTTVELYSPVKFHCQISAYPKPNIKWRHNDTHVTRDDNVAVENDVLIIKRVDFDNLGVYL
CEADNGYEKITVNFSLGLHGLAKPLIYKEHEKIVVRIENVNKNNTGAYRCEASNVIGEDV
HELTVSVQYPPELHSDQEAYKMEGPRQVRMGDAISLNCNVTGDPLPLVTWTKNGLPINYS
KIRQ