| New model in OGS2.0 | DPOGS212992 |
|---|---|
| Genomic Position | scaffold91:+ 63265-74327 |
| See gene structure | |
| CDS Length | 2916 |
| Paired RNAseq reads | 878 |
| Single RNAseq reads | 2305 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA006906 (4e-133) |
| Best Drosophila hit | CG5439 (6e-07) |
| Best Human hit | sorting nexin-13 (3e-39) |
| Best NR hit (blastp) | PREDICTED: similar to sorting nexin 13 [Tribolium castaneum] (6e-157) |
| Best NR hit (blastx) | PREDICTED: similar to sorting nexin 13 [Tribolium castaneum] (1e-126) |
| GeneOntology terms | GO:0003674 molecular_function GO:0004871 signal transducer activity GO:0005515 protein binding GO:0005575 cellular_component GO:0007154 cell communication GO:0008150 biological_process GO:0035091 phosphoinositide binding |
| InterPro families | IPR003114 Phox-associated domain IPR001683 Phox homologous domain IPR013937 Sorting nexin, C-terminal IPR013996 PX-associated, sorting nexin 13 |
| Orthology group | MCL16664 |
Nucleotide sequence:
ATGTTTGTCCGTGTGTCAGGATGGTTTGGCTTAATCTCTGTCATAACTATAGCCTTATTC
GGTTTCAGATTTTATCTAACTTTATTAACATTTTTTGTTTCTTTTATAGTGGGGGTCTTG
ACTATCTTATATTTGAACTACGATAGCAAGAAAATATTCCCATTAGATATTGATTATTTG
GATGATCCCCTGCAACAATCAAATTTCTCTGTTCAATCAGCTAAAATTTTAGAATTATTT
AAATCTAAAAAATCACTGCCTAAATTTGACAGTAGAATAACTGGTAGTGAGACAGTGGAT
TCATTCCTGAATGAAATTGTTTCAATAATTATCAATGACTATGTCACAACTTGGTACGAA
CTTATAACTGATGATCAAGAGCTTACTACATATGCAATAAAGAAATTAGTTGTTGCAGCA
GGCGCAAATGTATCAAACAGGGTAAAAACTGTAGACTGGATACATCTGTTAGCAACTAGG
TTCCCGGAAGAATTAACGTTGCACTTAAAGTTATTTAAACAGTCTAGGGTAAGGTTAAAA
CGGATGCAGTTGCTGAGTGCCAAAGAAATGAATGGCAATTCAAAGCCAGTTCCTAAGAGG
CCAGAGGAAAAACGGACTCATAGGAGAAATAAGAGCGAAACCGATTTACTTTGGCCTCCA
GATTCCCAATCTTTTGGTAAATCAAAGTTTTACAGCAGTTCAGAAAATATAAGCAGTAAC
AATATAAAGGACCTGTTCTTTGATTTGGAGTGTTCAATAGAGAATAAAGAGTTATGTAGG
GATATATTTTGCACTGATCCAGAGAAGGAAGCCGCCCTCCTGTCCGAGGTGTCGGAAGCT
CTGCTATATCTGTTTGTGCCAGAAGAAGCGTGGAACTGTCATGCAATGAAGTTAATACTT
ATCGATCTGCTGTCGTCGATAGTTCTCAGGCCATTGATAAAAATGTTGAGCGACCCTGAC
AATATAAATAGAGCTATAATAAGATCGTGTTGTCGTGACTCGTGTCTATCATCTGATTTG
TTCCTAATGGTCATAAGAACCTGTGGCGATGCCGAGGAATTAGACGCGACGCTGGAGCTC
GTGCAGAAGGATATACAGAAATTACATTCAAAAGACAGTGCTGGTGAATGGGAACTACAA
GATCGACAAAAACTGTCTTCTTTGCAATATTTATCAAGGATCATACTGGCCAGTCGAGCG
ACGCTGGGACCACAAGAAGGTTTATCCACAACAGATAATACGGAGAGAGAATCGGAAGAA
GTGATGAAAACTTTAAAGTTTCTTAGAGCGGTGGCCGCTTGGAAATCTAACGCACAATAT
CTATTAGAAATTGAATTAAATGAAGCAGATTCACACACAACTAAAGCTGTGATGGACAAT
CTGCGTTCATCAGCTCTGGAGGTGTGTGACTTGTACCTGAGGGGTGTGGGGGTGCTGGGG
GTGCCTGACAACGCCCACGCTGACCTAGTCAGGAGGATCACCACCGACGGCGGGGAGTTC
ACCAGCAATCCCATACAGTGCTTTGATGATGTACAGAAATGTGTTTGTGACGCGCTTGAG
GAGGATCCCTCGTGGCAAGCTGATTTTATGTTCGATGGCGACCAGGATGGTATGGATAAT
AGTGAAAACAAAAAAGATTTGAAATCGGAGTCCCATAAATATACTGGCGACGTTGTGCTA
CCCGTTCCTGGCGCGAGGCATAACAGAAGTCGTTCAGATATCGTTGGCAGTTTCGCTCAG
AAAATGATGAATGAGAGTGCAGGTCCATCTAATTTAAAATCTGCGACCACAAGCACCTTG
TCGTTGTCACATTCATCTATAAGTCAAAGCGTTAAAAACATGATGTCGCCGTTAACTGCG
TATATTATAGAAACAGCATTGGTACAAGACAAAGGTAAAACTTTCGGTATATACGCTATA
GCTGTGACGAGAGAATCTGATAACGAGGTCTGGCACATATATAGACGATATAGTGATTTC
TATGATCTACACGCATCAATCAAAGAGAAGTGGCCAGAGCTAGGTCACCTTCCGTTTCCG
GCTAAGAAGACATTTCAGAATACATCTAGATCAGTTCTGGAGAGTCGTAAACGGATGCTC
AACAGTTACTTACAAAGTTTAACGAGTATTTCGAGGGATTCCAGGTACATGGCGCTACTG
TCGCCTGACTATCTTGGAGGATTTCTCAGTCCGGAAAATCAAACTGAAAGGCATGGGAAT
ACGATTGACGCACTTCTAGTCAATTCACTGAAAGCTGGTATGAGGACTTTAAAAAGTATG
CCCGATCAGTTCGCAAATACAGTCGACGGAGTCATGGACGGTATATCAAAAGTATTCCAA
GGTAAAAGTGGTGAAAATCTAAAGAATTTCAAAACTTGGAATTCATCGGACGTTCAGGAC
GATAACGACGAGAGTGTACCATTGAGGCTGTTAGAGGAGGTTCTCGGCATCAGGGGTTTG
TGGCTGAGAAGAAGATTACTGGCTCCGCTACGGACGATGATCGCTGATAGAGTTAACAAA
AAAGTTATAGAGTTCGTCTCATCTTTAACGTCACCTCGGAACGTGGTTCAATATTTGAAA
ACTTTTAAACAGTGGCTTACGAGTAGGAACAATCCGAGCGCCGTCTCCAGGGATCAGGCC
ACAAAGGCAAGGACGAGGGTAGCTGCTAAAGTTGCCTTACTATCAGCTGCTTCAGACGAT
CTCCGTCACATAGTTGGTACGGACGCTGCCAGGAGAGGACTCCTCACAGTGTTCGATCTG
TTTCAGACTCAAGAGATCAACAAACGACTCTTGTTCGTTCTACTTGAAGTAACACTGACA
AACCTGTTTCCGGACAACAACATCCGGGATATGTTCAAGACGCTGTACTCAAACTCTCCT
CGAGTTCCGTCTACCAAGAAATCAGTTAATGTATAA
Protein sequence:
MFVRVSGWFGLISVITIALFGFRFYLTLLTFFVSFIVGVLTILYLNYDSKKIFPLDIDYL
DDPLQQSNFSVQSAKILELFKSKKSLPKFDSRITGSETVDSFLNEIVSIIINDYVTTWYE
LITDDQELTTYAIKKLVVAAGANVSNRVKTVDWIHLLATRFPEELTLHLKLFKQSRVRLK
RMQLLSAKEMNGNSKPVPKRPEEKRTHRRNKSETDLLWPPDSQSFGKSKFYSSSENISSN
NIKDLFFDLECSIENKELCRDIFCTDPEKEAALLSEVSEALLYLFVPEEAWNCHAMKLIL
IDLLSSIVLRPLIKMLSDPDNINRAIIRSCCRDSCLSSDLFLMVIRTCGDAEELDATLEL
VQKDIQKLHSKDSAGEWELQDRQKLSSLQYLSRIILASRATLGPQEGLSTTDNTERESEE
VMKTLKFLRAVAAWKSNAQYLLEIELNEADSHTTKAVMDNLRSSALEVCDLYLRGVGVLG
VPDNAHADLVRRITTDGGEFTSNPIQCFDDVQKCVCDALEEDPSWQADFMFDGDQDGMDN
SENKKDLKSESHKYTGDVVLPVPGARHNRSRSDIVGSFAQKMMNESAGPSNLKSATTSTL
SLSHSSISQSVKNMMSPLTAYIIETALVQDKGKTFGIYAIAVTRESDNEVWHIYRRYSDF
YDLHASIKEKWPELGHLPFPAKKTFQNTSRSVLESRKRMLNSYLQSLTSISRDSRYMALL
SPDYLGGFLSPENQTERHGNTIDALLVNSLKAGMRTLKSMPDQFANTVDGVMDGISKVFQ
GKSGENLKNFKTWNSSDVQDDNDESVPLRLLEEVLGIRGLWLRRRLLAPLRTMIADRVNK
KVIEFVSSLTSPRNVVQYLKTFKQWLTSRNNPSAVSRDQATKARTRVAAKVALLSAASDD
LRHIVGTDAARRGLLTVFDLFQTQEINKRLLFVLLEVTLTNLFPDNNIRDMFKTLYSNSP
RVPSTKKSVNV