| New model in OGS2.0 | DPOGS200771 |
|---|---|
| Genomic Position | scaffold2143:+ 5620-17017 |
| See gene structure | |
| CDS Length | 2880 |
| Paired RNAseq reads | 195 |
| Single RNAseq reads | 494 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001969 (1e-81) |
| Best Drosophila hit | stall, isoform C (3e-136) |
| Best Human hit | A disintegrin and metalloproteinase with thrombospondin motifs 16 preproprotein (2e-62) |
| Best NR hit (blastp) | PREDICTED: similar to AGAP004961-PA [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to AGAP004961-PA [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0048477 oogenesis GO:0004222 metalloendopeptidase activity GO:0030713 ovarian follicle cell stalk formation GO:0006508 proteolysis GO:0008270 zinc ion binding |
| InterPro families | IPR000884 Thrombospondin, type 1 repeat IPR001590 Peptidase M12B, ADAM/reprolysin IPR002870 Peptidase M12B, propeptide |
| Orthology group | MCL18313 |
Nucleotide sequence:
ATGACCACGGACAGACGAGACGAAGGTGTCAAAGGGGATCACGTCGAATCCAAAGAGTTA
TTCCGTCATTTATCAGAATCAGAGAAAATATTTCTATTTGGAACCGCAGACAAAGATCAT
CAGTTTGAAATAGCTCATCTAAAAAGACCAAGACGTCGCAAACGATCAGTTGGTACGGAG
GATAGTCAGGATTTAGTCAGCCTGAAGAAGCATTTAAATGTCCAGCTAAGCCCCAGGCAC
AGTTTCATAGATCCACAGTTCCTGTTGATGAAGAGATGGTCCAATGGAACTGAGGCTATT
CTGGATGAACACACTAACGACGAATTAGATTTATGTTTTTATAAAAGTGATAACGCTGCC
TTATATATCTGTGATGACGTGAGAGGTGTAGTCAAATCGAATGATAGTTTTTATACTATT
CACCCACTGCCAGAAAGATTCCACAACGAACATTCTAAAGCTCATTTAATTATAAAGAGA
AGTAAGGAAATACTAGCAAGCGATGATGTTGAAGGAGAATGCATAGATAAAAATGATTTG
AATGTGAAAAACTATGACCCAATAAAATGGTCTAAACACAGACGAAAACGTCAAGTCGAA
AATAGTCCAGACGTTAGTTTAGATAAATTCAAATTAAACTTAGAACATAGAAATAGAACA
ATAAGTGATTTTGTAGAAAAATTAGTAACAAGAGACAATCAAACCGATAGGCAGAAAAGA
TCGGTGCTGCCAGCGATATTTGTAGAAACAGCTGTATTTGTAGATAGAGATTTATACAAA
CTAATGACAATCAACTTCCCAAAAGATACAGAAAGGGAATTAGTGAGATTTGTTTTAGCA
ATGATAAACGCTGTGCAGTTGATATATCACGATCAAAGCTTGGGCAGGCCAGTCAATTTT
ATACTCAAGAGATTGGAAATCCTTCATGAAGATCCATCCAATCTGAAGAGACCTCACGAT
ATAGATAGGTTTTTAAGCAATTTCTGTACGTGGCAGAGGTTGGAAAATCCTCCCGGTGAC
AACGACCCCCTGCACTGGGACCACGCCTTAATACTCACTGGTTTAGATCTGTATGTTGTT
AACAAGAATGGTAAAGTTAGCAGTCAAGTTGTCGGTCTGGCACCAGTAGCGGGAATGTGC
ACAGTAACCAGTAGTTGCACAGTCAATGAAGGGAGACACTTTGAAAGTGTTTATGTCGTG
GCGCATGAGATTGGTCACAATCTGGGTATGCGCCACGACGGTCCGAAGGCGGACAACAGC
TGCGACCCGAGCGCGTACATCATGAGCCCGACCCTCGGAAGTGGAAAGATTACCTGGTCC
CAATGCAGTAGGAACTATCTACAGAAGTTTCTAGACACATCACAGTCTAGATGTCTGTTG
GATCACGGCAACTCCGCCGGCCAATTGGATCACAGCGCTGAGGGCATCCTGCCGGGAGAA
AGATTTGATGCTGACCAGCAATGTATGCTAAAATACGGTCGCGGCAGTCGACACTCCTCA
GCCCAAGACCTGAAGGACGTGTGTCGCGACCTGCACTGCCAGAGGGAGCGGTACACCTGG
ACGTCACATCCAGCACTAGAAGGCACGCGATGTGGAGACGACATGTACTGTCGTGGCGGA
GAGTGCGTGAGTCGCGGGGGGAGAGGTCCGGGCGCGCTGTGGGGTCCTTGGTCGCGGTGG
TCGGAGTGCGCGTCCGCCTGCCTCCTCCACGAGGACCAGACCCCCGCCGCCGCCGGAGTG
TCCGTCGCCACCCGTCGGTGTAACAGACCGAGGCTCGAAAGCGGTAAAAGCTACTGTCAA
GGTCACGACAAAAAATACCAGTCCTGCCACGCGGAACAGTGTAAGACGGTTCCCAGGATG
ACCGTAGGGGAATTCGCCGACCAGATCTGCCGCCGGGCGAGGGACGTCGACCCTGACCTC
ATCGGCACCGGACTACAGAGACTCGACACTGATGACAGTCACAGTACGTGTGCCGTGTGG
TGCGACACTCGCGGCGGCGGGTACAAGTCACGCGGCTGGACCCTTCCCGATGGAACTGCT
TGCTCCACTGTAGCGAATAAATACTGTATCAGTGGGGTTTGTAGGAAGTTCTCATGTCTC
GGCAACGCAGACTCGGAGTTCAGTCTGGCGTCCGGCGACTGTGAGTGGGAAGCGCTCCAC
GTACAGACAGCCACTCCTCACACCAAGTCGTCTGGGACGTGGCGGCGTGAGGTTGGCCGG
TGGATCGCGACCTCCGCGTGTCATTACCGCTGTATGCTGAGAGGGTCCGGACTCAGGCTG
GTCAGGGCACAGCAGCGGACCTCCATACAGCTGTGTACACCAGACACGGACACCGCAGAT
AGAGGTTGTAGCGACCACATGAGCCCTTACCAGTTCGCTACGATGGTGTGCTCCAAGTAC
AAGGAGCGTGTGAGACGTCTCTCCGGTCTGGGGATGCAGATATCACCAGCACTTGAGGAG
CCCGACCGACCGTGCCGCGTGGCGTGTCAGGACGAGCGTGTGTCTCATAGATTCTATTTA
GTGAACGGAGCGGACGGCTGGTTCCCTCTCGGCACCTCCTGCGGCGGGAACAACTCTTAC
TGCGAATTCGGTTCCGATCTAACTCCTTTGTCTGAGATGGTGTTCACTCTTCCACTCTTG
AACCGTGGTTCCGTCCGTCATCGTCGGAGTCTCTATCGGGATCGCCTGACAGTCAGGACG
ACCCTCCACAGGCAACACCTGGAGGATATCATAGCTAGGCTCAACTTGACCGATAACACG
AGAGGGAGCGCGTATTTTCAAACGATACCAGAAAATATAGAAATTGATTTTACAAATCCG
ATACACATATCACCAGAGGACACTATGCTTAGGAAAAAACCGAGACCTACTTGGGACTAA
Protein sequence:
MTTDRRDEGVKGDHVESKELFRHLSESEKIFLFGTADKDHQFEIAHLKRPRRRKRSVGTE
DSQDLVSLKKHLNVQLSPRHSFIDPQFLLMKRWSNGTEAILDEHTNDELDLCFYKSDNAA
LYICDDVRGVVKSNDSFYTIHPLPERFHNEHSKAHLIIKRSKEILASDDVEGECIDKNDL
NVKNYDPIKWSKHRRKRQVENSPDVSLDKFKLNLEHRNRTISDFVEKLVTRDNQTDRQKR
SVLPAIFVETAVFVDRDLYKLMTINFPKDTERELVRFVLAMINAVQLIYHDQSLGRPVNF
ILKRLEILHEDPSNLKRPHDIDRFLSNFCTWQRLENPPGDNDPLHWDHALILTGLDLYVV
NKNGKVSSQVVGLAPVAGMCTVTSSCTVNEGRHFESVYVVAHEIGHNLGMRHDGPKADNS
CDPSAYIMSPTLGSGKITWSQCSRNYLQKFLDTSQSRCLLDHGNSAGQLDHSAEGILPGE
RFDADQQCMLKYGRGSRHSSAQDLKDVCRDLHCQRERYTWTSHPALEGTRCGDDMYCRGG
ECVSRGGRGPGALWGPWSRWSECASACLLHEDQTPAAAGVSVATRRCNRPRLESGKSYCQ
GHDKKYQSCHAEQCKTVPRMTVGEFADQICRRARDVDPDLIGTGLQRLDTDDSHSTCAVW
CDTRGGGYKSRGWTLPDGTACSTVANKYCISGVCRKFSCLGNADSEFSLASGDCEWEALH
VQTATPHTKSSGTWRREVGRWIATSACHYRCMLRGSGLRLVRAQQRTSIQLCTPDTDTAD
RGCSDHMSPYQFATMVCSKYKERVRRLSGLGMQISPALEEPDRPCRVACQDERVSHRFYL
VNGADGWFPLGTSCGGNNSYCEFGSDLTPLSEMVFTLPLLNRGSVRHRRSLYRDRLTVRT
TLHRQHLEDIIARLNLTDNTRGSAYFQTIPENIEIDFTNPIHISPEDTMLRKKPRPTWD