| New model in OGS2.0 | DPOGS208954 |
|---|---|
| Genomic Position | scaffold350:- 66360-69653 |
| See gene structure | |
| CDS Length | 3225 |
| Paired RNAseq reads | 811 |
| Single RNAseq reads | 2878 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002428 (8e-25) |
| Best Drosophila hit | HEM-protein (0.0) |
| Best Human hit | nck-associated protein 1 isoform 1 (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to membrane-associated protein gex-3 [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to Membrane-associated protein Hem (dHem-2) [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0007417 central nervous system development GO:0005886 plasma membrane GO:0001555 oocyte growth GO:0007409 axonogenesis GO:0007010 cytoskeleton organization GO:0005737 cytoplasm GO:0005515 protein binding GO:0030866 cortical actin cytoskeleton organization GO:0030031 cell projection assembly GO:0008360 regulation of cell shape GO:0008407 bristle morphogenesis GO:0007528 neuromuscular junction development GO:0007520 myoblast fusion GO:0006911 phagocytosis, engulfment |
| InterPro families | IPR019137 Nck-associated protein 1 |
| Orthology group | MCL10831 |
Nucleotide sequence:
ATGTTGACGCGCATTTACAACATTAAAAAGGCCTGTGGTGACGCTAAATCGAAACCAGCA
TTCCTGTCAGACAAAACATTGGAATCTTCTATCAAACACATTGTGAGAAGATTTCCCAAT
ATTGATGTCAAAGGATTACAAGCCATAACTAATATAAGAAATGAGATAATTAAGTCCCTC
TCCCTATACTATTATACATTTGTAGATCTTTTAGATTTCAAGGACAATGTTTGTGAGTTG
CTTAATATTATTGATGGATGTCAGTTAACTCTAGATTTGACACTTAATTTTGAACTGACA
AAAAATTACTTGGATCTTGTGACAACTTATGTTGCACTCATGATATTGCTGTCTCGAGTT
GAAGACCGAAAAGCTGTGCTTGGATTGTTTAATGCTGCTCATGAAATGGTCCACAATCAG
ATAGATGCTAGTTTTCCACGTTTGGGACAAATGATAGTCGATTATGATGCTCCATTCAAG
AAGCTGTCAGAAGAGTTTGCTCCACATCAAAAAGTTTTATCTAGTGCATTAAATTCATTA
TGGCATGTATATCCAGCAAGGAATAAGACAGCTGATCACTGGAGGTCTGAACAGAAGCTT
AGCTTAGTGAGTAACCCATCACAACTTCTAAAACCATCTGAAACTGCAACTATGTCCTGT
GAATACGTCTCATTAGAAGCACTAGAGAGATGGGTGATATTTGGTTTTGCATTGTGTCAC
CAAATGTTGCAACAAGACCATGCAAACAAAATGTGGGTTAGTGCCTTAGAATCCGGTTGG
GTTGTTGCACTATTTCGGGATGAAGTTATTTACATTCATACTTATATTCAAAGCTTTTTT
GATGGAATTAAAGGATATGGTAAAAGAATATCTGAAGTAAAGGATTGTTATCATCAATCT
GTTCAAAAAGCAGGCTATAAACACAGAGAAAGAAGGAAGTTCTTACGAACTGCTTTAAAA
GAATTGGGTCTCATTTTAACTGATCAACCTGGTTTGTTGGGACCCAAAGCACTGTTAATA
TTTATTGGTCTTTGCTATTCAAGAGATGAAGTTTTTTGGCTACTTCGACATAATGACAAC
CCACCACAAAAAGTTAAAGGTAAATCTACAGAAGATTTGGTAGATCGTCAATTACCTGAA
CTTCTGTTTCACATGGAGGAACTCAGAGCACTTGTAAGGAAATATAGCCAAGTTATGCAA
AGATATTACGTACAATATCTATCAGGTTTTGATGCAGTAGCCTTGAATCTCATGATTCAG
AATTTGCAGCAAGTTGAGAGTAATGATCTATTTGATTTCCGTGCTTTTCGTCTTGATTGG
TTTAGATTGCAGGCTTACACATCTGTTGCAAAATGTCAATTTAACCTTGTCGATCAGAGA
GAACTTGCACAATTTATTGATAAAATGGTTTTTCATACGAAAATGGTTGATAATCTCGAC
GAGATAATGGTGGAAACTTCTGATCTGTCATTATTTTGTTTCTACAACAAAATATTTGAA
AGCCAGTTTCATATGTGCCTGGAGTTTCCGGCCCAAAACCGTTACATTATTGCATTCCCA
CTTATTTGCAGTCATTTCCAGAACTGCACTCACGAATTGTGTCCGGAAGAAAGACATCAC
ATAAGAGAAAGGAGTCTGTCGGTTGTTAATATATTCCTGGACGAAATGGCAAAAGAAGCA
AAAAACATAATTACTACCATTTGTGATCACCAATGCACAATGAGCGACAAATTGTTGCCG
AAACACTGTGCTCAAACTATAGCACATTTAGCGAACAGAAAGAAAAAGGACAAAGGTAAA
AAGAATCCGATAGAGATTATAAAACCTGGAGCTGAGAGCTACAGAAAAACTCGAGAAGAA
TTAACAACAATGGATAAACTTCATATGGCGTTAACTGAATTGTGCTTTGCGATAAACTAT
TGCTCAACGGTTAATGTTTGGGAATACACATTCGCTCCTCGTGAATACTTACATCAGCAT
TTAGAAAATAGGTTTTCTAAAGCACTAGTAGGGATGGTCATGTTTAATCAGGACACAAGC
GAAATCGCCAAACCTTCGGAACTATTGGTCAGTGTAAGAGCATACATGAATGTACTTCAA
ACCGTCGAAAATTATGTGCATATCGACATCACAAGAGTGTTCAACAATTGTCTCCTTCAA
CAGACACAAAGTTGTGATAGTCACGGTGAAAAAACTATTGCAGCCCTTTATACTCAGTGG
TATTCCGAGATACTACTCAGGAGGGTTAGCGCGGGCAACATTTGCTTCTCAATGAGTCAG
AAAGCTTTCGTGAGTTTATCTGCTGAAGGTGCAATCCCTTTCAATGCAGAGGAATATTCA
GATATCAATGAACTAAGAGCACTAGCGGAGCTAATAGGACCTTATGGAATGAAACATCTC
AGCGAGACTCTAATGTGGCACATCGCTAGTCAGGTTCAGGAACTTAAAAAGCTAGTAGTA
CAGAATAAAGAGGTCCTCCAAATGCTCCGGACAAATTTCGACAAACCTGATATAATGAGA
GAACAATTCAAAAGGTTGCAACACGTTGACAATGTGTTACAAAGAATGAGCATTATCGGT
GTAATTTTGAGTTTTCGCCAAATCGCACAAGAGTCCCTGCTCGATGTGTTGGAGCGTCGC
ATTCCGTTTTTGATAAGCTCCATCAAAGACTTCCAACAACAGTTACCCTCCGGCGAACCT
TCGCGTGTCATTTCTGAGATGTGTTCAGCCGCTGGACTGTCGTGTAAAGTGGATCCTACA
TTAGCTTCCTCCTTGCGACAACATAAAGCGGAACTTGAAGAAGAGGAGCATCTCATAGTT
TGTCTGCTGATGGTGTTTGTAGCCGTCTCTCTGCCGAGGCTCGCTCGTAACGAAGGTTCG
TTTTACAGACCATCTCTAGAAGGGCATGCTAACAATATTCATTGTATGGCACCAGCAATC
AATCACATATTTGGGGCTCTGTTCACTATCTGTGGTGAAGGTGATATTGAAGATAGAATG
AAAGAGTTCTTAGCACTAGCTTCGTCGTCGTTGTTACGACTTGGACAAGAGACGGATAAA
GAAGCTATAAGAAATCGTGAATCGGTTTATTTGCTACTCGATCTAATTGTTCAGGAATCA
CCATTCCTTACAATGGATTTACTGGAATCCTGCTTCCCGTACGTGCTCATAAGGAACGCT
TATCACGAAGTATACAAACAGGAACAGATGCTTCTGCATTCATAA
Protein sequence:
MLTRIYNIKKACGDAKSKPAFLSDKTLESSIKHIVRRFPNIDVKGLQAITNIRNEIIKSL
SLYYYTFVDLLDFKDNVCELLNIIDGCQLTLDLTLNFELTKNYLDLVTTYVALMILLSRV
EDRKAVLGLFNAAHEMVHNQIDASFPRLGQMIVDYDAPFKKLSEEFAPHQKVLSSALNSL
WHVYPARNKTADHWRSEQKLSLVSNPSQLLKPSETATMSCEYVSLEALERWVIFGFALCH
QMLQQDHANKMWVSALESGWVVALFRDEVIYIHTYIQSFFDGIKGYGKRISEVKDCYHQS
VQKAGYKHRERRKFLRTALKELGLILTDQPGLLGPKALLIFIGLCYSRDEVFWLLRHNDN
PPQKVKGKSTEDLVDRQLPELLFHMEELRALVRKYSQVMQRYYVQYLSGFDAVALNLMIQ
NLQQVESNDLFDFRAFRLDWFRLQAYTSVAKCQFNLVDQRELAQFIDKMVFHTKMVDNLD
EIMVETSDLSLFCFYNKIFESQFHMCLEFPAQNRYIIAFPLICSHFQNCTHELCPEERHH
IRERSLSVVNIFLDEMAKEAKNIITTICDHQCTMSDKLLPKHCAQTIAHLANRKKKDKGK
KNPIEIIKPGAESYRKTREELTTMDKLHMALTELCFAINYCSTVNVWEYTFAPREYLHQH
LENRFSKALVGMVMFNQDTSEIAKPSELLVSVRAYMNVLQTVENYVHIDITRVFNNCLLQ
QTQSCDSHGEKTIAALYTQWYSEILLRRVSAGNICFSMSQKAFVSLSAEGAIPFNAEEYS
DINELRALAELIGPYGMKHLSETLMWHIASQVQELKKLVVQNKEVLQMLRTNFDKPDIMR
EQFKRLQHVDNVLQRMSIIGVILSFRQIAQESLLDVLERRIPFLISSIKDFQQQLPSGEP
SRVISEMCSAAGLSCKVDPTLASSLRQHKAELEEEEHLIVCLLMVFVAVSLPRLARNEGS
FYRPSLEGHANNIHCMAPAINHIFGALFTICGEGDIEDRMKEFLALASSSLLRLGQETDK
EAIRNRESVYLLLDLIVQESPFLTMDLLESCFPYVLIRNAYHEVYKQEQMLLHS