| New model in OGS2.0 | DPOGS215698 |
|---|---|
| Genomic Position | scaffold788:+ 46160-48266 |
| See gene structure | |
| CDS Length | 1965 |
| Paired RNAseq reads | 223 |
| Single RNAseq reads | 750 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005760 (0.0) |
| Best Drosophila hit | CG3419, isoform B (1e-111) |
| Best Human hit | GPI mannosyltransferase 4 (1e-41) |
| Best NR hit (blastp) | PREDICTED: similar to ENSANGP00000012576 [Nasonia vitripennis] (1e-155) |
| Best NR hit (blastx) | PREDICTED: similar to ENSANGP00000012576 [Nasonia vitripennis] (3e-152) |
| GeneOntology terms | GO:0031227 intrinsic to endoplasmic reticulum membrane GO:0005783 endoplasmic reticulum GO:0006506 GPI anchor biosynthetic process GO:0000030 mannosyltransferase activity |
| InterPro families | IPR005599 GPI mannosyltransferase |
| Orthology group | MCL13668 |
Nucleotide sequence:
ATGTATTTAAATACCAAAATTTTTAAAGCAATTGCTTTTAAACCACCTACACCCTTGCCT
TTGTCCTACTGGCTTCTAATTTTAGTAAGATTTCTATTAACATTGTTGCCACAGACAGGG
TACATCCATCCAGATGAATATTTTCAAAATGTAGAAGTTTTAGCAGGAGATATTTTAGCA
ATAGATGTGGCCAGAACATGGGAATTCAACCCAAAATTTCCAATAAGGAATATATTTGTA
CCAAAGCTTATGTTAGCTCCACCTTTACATTTTATCAGAATAGTAAATCCCTACACAAAA
CACTTTTTGAATATTGATTTAAGAACACCATACTACTTGCTTGTTATACCTCGTCTGTTT
ATTTGCTTCTTGTCACTTATTAATGATTTTTGTCTATACAAGATATGTGTTAATTATGGA
CAAAATTTTAGAAATAGACTAACCATTTTTGCGAGTTCGTATGTGGTATTGGTATACTGC
TGCAGAAGCTTCTCAAATGCATTTGAAACAATATTTTTCTCTGTCCTCCTATGGTTGGTG
TCTGAATGTATGTTGAAATCAGACAAGGTGATTTACCATGATGAATTCTTAAATAAAAAA
TATAAGGAGGCCAGTACACCCGTAGAGAAAGTGAAAATATTTAAACTCAAAACCCATTTA
CCAGGGCACTCTTTGAATTGGGTGGCTGTGTTAGCAACTGTAGTAGTAATTGGTATATTC
AATAGACCAACGTTTGTTGGCTTTGCTTTCCCTCCCATATTCTTTTGGTTACATAGAGGG
CTGGGATCAACTGTGGTTGGTTTTAAAGACTTCCACTATAGAATGATAACATTTATTTTA
TGTGGAATACCCATTACCCTGCTACTGATATTAGTAGATTCATATTACTATGGATATTTA
ACGATGGCTGATATTGAATCTTTGAAATTATCATGGGATAATTGGGTTGTTACGCCTCTA
AACTTCTTAAGATATAATACGAACATGGGAAACCTGAGTCATCATGGCCTTCACCCTCGC
TGGCTGCACATCATTGTCAATGTACCACTTCTGTTCAATGTCCTTGGCATCATAGCTATT
ATTGTTTTAACAGTTCACATTTACAGATTCCTTAGGGGACAGTACAAAAAACTTCCAAGA
ATCCAAAGCATTATGGGTCTCATGATGTTCTCTGTGGTAGTCCCAGTCGCCGCTCTGTCT
CTCTTCCCCCATCAAGAAGCGCGCTTCATTATACCGATTTTACTACCTCTTGTCTACTTG
TATGGAAATTATTTGTACCCAAACGAAAGTGATGGTCCGAAGACAGTAAAACTGAAAACA
TCATTAAGATATATATGGTATACCACAAACATTATATTAACGATTTTCTTTGGGTTCATT
CACCAGGCTGGTATATACCCATTAACAAACAGTCTTCATCAAGAAATAAAAAGTACGTAT
GGGCATCACATGCACGTCATCACCACACACAGTTACAGCATACCGACGTTTCTGTTGCAA
TTAGAGAGTACAACACGTGTTTATAAGGACCGGAGCACTGGGCGGCGCTACCGTTTGGCA
CCCACCACGTTCTTACACAAATATGGATCTATGCCCATGAACGAGCTGTTCACAAAGATA
GACGACACCCTGACGAACGCAGAAGAGTTACTGCATAAACAAAAAAGACCATACAGGTTT
TACTTCGCCTCGCCCTGTTCTTTGGAGGAGAAAATACGCGAAGAGAATTCTAGATACCCT
TACATTGATATAGAAGAGGACTTTTCTATCTACCCGCATTTTTGTTCGGAAGCTCTACCG
GAGTTCCCAAGTAGACGCGACCAATACTGTTCAGGACAGAATCTCATGAAGTTAAAGGAA
TCTCAATCGATTGATTTGACGTTATATCAAAGAATCTCTTGTTACTTGAAAAGGTTCTGC
CTTAGGGTCTACAGAGTCAGACCAGTTGAAAAGACACATTTTTAA
Protein sequence:
MYLNTKIFKAIAFKPPTPLPLSYWLLILVRFLLTLLPQTGYIHPDEYFQNVEVLAGDILA
IDVARTWEFNPKFPIRNIFVPKLMLAPPLHFIRIVNPYTKHFLNIDLRTPYYLLVIPRLF
ICFLSLINDFCLYKICVNYGQNFRNRLTIFASSYVVLVYCCRSFSNAFETIFFSVLLWLV
SECMLKSDKVIYHDEFLNKKYKEASTPVEKVKIFKLKTHLPGHSLNWVAVLATVVVIGIF
NRPTFVGFAFPPIFFWLHRGLGSTVVGFKDFHYRMITFILCGIPITLLLILVDSYYYGYL
TMADIESLKLSWDNWVVTPLNFLRYNTNMGNLSHHGLHPRWLHIIVNVPLLFNVLGIIAI
IVLTVHIYRFLRGQYKKLPRIQSIMGLMMFSVVVPVAALSLFPHQEARFIIPILLPLVYL
YGNYLYPNESDGPKTVKLKTSLRYIWYTTNIILTIFFGFIHQAGIYPLTNSLHQEIKSTY
GHHMHVITTHSYSIPTFLLQLESTTRVYKDRSTGRRYRLAPTTFLHKYGSMPMNELFTKI
DDTLTNAEELLHKQKRPYRFYFASPCSLEEKIREENSRYPYIDIEEDFSIYPHFCSEALP
EFPSRRDQYCSGQNLMKLKESQSIDLTLYQRISCYLKRFCLRVYRVRPVEKTHF