| New model in OGS2.0 | DPOGS209596 |
|---|---|
| Genomic Position | scaffold44:- 405246-417682 |
| See gene structure | |
| CDS Length | 3933 |
| Paired RNAseq reads | 8844 |
| Single RNAseq reads | 21177 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA006655 (4e-17) |
| Best Drosophila hit | inflated, isoform F (3e-130) |
| Best Human hit | integrin alpha-V isoform 2 (9e-74) |
| Best NR hit (blastp) | integrin alpha 2 [Pseudoplusia includens] (0.0) |
| Best NR hit (blastx) | integrin alpha 2 [Pseudoplusia includens] (0.0) |
| GeneOntology terms | GO:0004872 receptor activity GO:0007155 cell adhesion GO:0050839 cell adhesion molecule binding GO:0007476 imaginal disc-derived wing morphogenesis GO:0008305 integrin complex GO:0005515 protein binding GO:0016477 cell migration GO:0016337 cell-cell adhesion GO:0007494 midgut development GO:0007160 cell-matrix adhesion GO:0007157 heterophilic cell-cell adhesion GO:0030239 myofibril assembly GO:0043292 contractile fiber GO:0016203 muscle attachment GO:0045185 maintenance of protein location GO:0007427 epithelial cell migration, open tracheal system GO:0007411 axon guidance GO:0007608 sensory perception of smell GO:0007431 salivary gland development GO:0007426 tracheal outgrowth, open tracheal system GO:0007475 apposition of dorsal and ventral imaginal disc-derived wing surfaces GO:0008360 regulation of cell shape GO:0035160 maintenance of epithelial integrity, open tracheal system GO:0007414 axonal defasciculation GO:0007435 salivary gland morphogenesis |
| InterPro families | IPR013519 Integrin alpha beta-propellor IPR000413 Integrin alpha chain IPR013649 Integrin alpha-2 IPR013517 FG-GAP |
| Orthology group | MCL10630 |
Nucleotide sequence:
ATGTGTCAGGCCGGTTTTTCAGCAGCTGTCTCCAAGGATGGCCAAAGACTATTCTTAGGA
GCTCCCGGCAGTTTTTATTGGCAAGGACGAACGTTTTCCATAGACACTAGCGCAAGGTTC
AACTACTTTATGCCGAAGGAAGGTCAACTCAAAGTTCAAACCTTGAATTCGAAGCCGGTA
TTAATTTCGACTCCGGAAGACAGCCCCAAACATGACGACTCGTACATGGGATATTCAGTG
ACAGTCGGAGACTTTGCTGGTCAAGGAATACAGGGTGTTGCTGTAGGTGTTCCCAGAGGA
TCGGAGTTAAGAGGATTAGTGGTCCTCTATACGTGGGAGTTACAAATTATTAAAAACATC
AGTGGTTCCCAAATCGGAGCCTACTTCGGCTACAGTATGGCTAGTGGTGACATCGACGGC
GACGGCGCTGACGACATCATCGTCGGAGCTCCAATGTTCACCAAGACCAAGAGTGACGGA
TATGAGCATGGAAGAATCTATGTCATTTATCAGGGAAGCGATAGATCGTTCCAAAAGAAC
CACGCCAGAACTGGGGAGGTCTCAAAAGGAAGATTCGGATTGGCCGTCACGTCACTTGGG
GACATCAATTATGATGGTTTTGGAGATATCGCTGTTGGTGCTCCGTATGGCGGCGAGAGT
GGAAGAGGTGTGGTGTACATCTATCACGGCAGTGAGCTCGGCATCGGTGAGAAGTATTCC
CAGGCTATTACTGCTGAAGAGATCAGTCCCGTCCTCACTACCTTTGGCTTTTCACTCTCG
GGAGGGGTCGACTTGGACAACAACAACTATACGGATCTGGCTGTTGGTGCTTATAAATCA
GACAGTGTGGTGTTTTTGAAGTCCCGTCCGGTGGTCAAAGTGATGGCGGAGGTGCGGTTC
ATGGGCGAGAGTAAACTTATCTCGCTGGACGACCGTCGCTGCGTCCTCTCCAACGGGACA
AACGTCGCGTGCGCGCGACTTATGTTCTGTCTCACATACGATGGGGTTAACGTGGACCAA
CAAATTAATTTCGAAGTAACTTTGGATCTGGACTCTCGCCAGAAGACAAGCAAGCGTCTG
TTCCTAATGGAGTCGAGGCAAACAGTTTACACGACTCACATATTACTTAATCAGGGGCAA
CAGGAATGCAAGGAAATCACTGTCTATTTAGATGAGGAAATTCGTGACAAGCTGACACCC
TTGGAGGTGAAGATGACGTATGAGCTAGTACAGCCCGGAGGGTCTGCGGGAGCCTCGGGG
GCGGTCCCACCAGTATTGGACCGCACCCTCGGCGTCGAGCGGACCGACTCACTCAATATA
CAGAAGAACTGCGGACCTGACAATGTTTGTGTTCCCGATTTGAAGATGTTTGTGACCACG
CCCACAGTGAATTACGTTCTGGGATCCGGTGAAAACGTTCACATCGACGTAAAGGTGGAC
AATGGCGGTGAAGACGCCTTTGAAACAGCCTACTACCTGCAAATACCAGCCGGAGTAACT
TACGCCAAGATGGAAAGATTGGACAAGGATACCGCCGAGACATCTCCGATATACTGTTCC
ATTAAAAATAAAGGAACCAGTGGAAACAGTACTTTGAAATGTGATCTCGGAAATCCCATG
GCCAGTGGACAAAGCGTGAACTTCCGAGTTGTATTAGAGGTGGACACGCGAGTGACGGGG
CTGAACTTCGACATGGAATCCAACTCCACAAACCCTGAGGTCGGCACGCAGTACGACAAC
ACGAGACACTTGGCCATAGGCGTCGTCATTAAGGCAGTATTGTCGGTCATTGGGACGTCC
GACCCTCCAGAACTTCACTACAATGCATCCTTATACGAGTCTCGGGACCTGAAAGATGAT
ACCAAACTCGGTCCCCAGGTCATTCACAAGTACAACATCAAAAACGAAGGCGAGAACCTC
ATGTACATGGTGGTTCAACCTCAGTGGGCGGGCGACATTGTGTGTGACGTCGCAAGAAAC
GTTAACCCCGACAACCTGTTTATACAGAACCCATATGCCTACATGTTGACAAAAGAAAAA
GAAGAAATGATGAGCAGTGAGTTCTATTCAGGCGCACAGATTGGTGGAGCTGGCGGATAC
TATGGACAACAATATTGGGAAGAAAAACATACCATTAGTGGTGAACAGGCGGGTCAGACT
GGAGCTGGCCAAGTTAATAGAGGGCAAACTGCGTCTAACGCGTTTGGTACACAAACTTCC
AGTGGAGGACAGTATGCTGCTACTAGTCAAGGAAATGGTCAATTTAATGGTGAACACTCT
ATTCATATTAGTGGGGGTCAAGCGACGGGCGGCCAATCGACCTACGTAAATAGAGGTCAA
GCATCAAGTGGTCAATATGGCACCCACATTAGCGGTGGAAGAGTTGCAGGCGAACAGTAT
GGCAGTACCCAAGTATCTGGCACTCGTTACGGAACCCATGTCAGTGGACAAACGGGTGAA
ATATCTGGTGATCAAATGGGAACACATGTAATTGAAAATAGTGGTTCAGTTTCTAACACA
TACGGTACCCAGCTCAATAAAAACAATGATCAAATTTCTGGAGGACAATATTATGGTGGT
CAAATGGGTGGTGGCGGACAAGGGAGTGGAAGTTCCTACTCTTATAATCGTACATGGTCC
AGCGGCTCAAATGAAGGATTATCAGCTGAAGAACAAGAAGCTATACGAAAGAGATTGCAA
GCTATGGCACAACCAAATTACCAAGGGTCCGGTCGAGAATATAACGAAGGAGGTCAAAAT
ACCTATTCTCAAAGCAGTTCTCATGGTTCGGCTTATGGTCAAAATGGTTACAGCCAAGGT
GGCCAATATTATGGTCGAGAACAAAATCATGGCGGACAAAGTTTTAACATTCAAGGCGGA
CAAGGAGTGGGATCTGCGGAATATGGCCAAGATGGACGTATAGTTCGAATTAGAAACAAA
ACTGTCGTGTTCGATTCTAACCATAATGTAATTTCCGAGTCTGAAACGAGTACTGAGTAT
GGATCATTGGGGCACGAGGGTGAAGCTGGTAGCTCTTTCAACACTTACCTTAATAATCAG
GGAGTCAATCAGAATTATGGTTCTAGTCAAGGTTTTGTTCACGGTTCATGGGGTACTACG
GAAACCGTTAATCCAAATCTAATGAACGCCGGATCCAAAACCTATAGAAATCCAAGCGTT
ACTGTCGTGGGCGATGAAGACGAGGACAAACTTGAAGGTTTTGGAGCCTACGCAGCCCAA
AACTCTAATAATGAATTTAAGTTTGGTATCGCTGACGTGACTAACCAGGCCGGCTCTAGT
GGAGGCGGTGCAGCATACAGATCTGGTTCACAAGTCTACCAGAACGGTCAACAAGGAGCT
TTCCAGGGCGGCGTACAAGGAGGAGCGTCTTCTTCATACGGTAACAGTGGAAGTTATTCG
TACTCTTCCTCACAATCAGGCGGTCACAGATCATATTCACAGTCAGGACACAGTTTCAGT
TCGTCATCGGAACAGAGACGAGAAAGTACTAGAAGAAAAAGACAAGATGAAGTCGATACG
GAACTGAAGGAGATGCTGTCCCGCTGCGAAGAGAAGTACAAGTGCTCAGTGGTGCGGTGT
CACACGGGCCGCCTTGTGAAGGGACAGGCTGTGTGGGTCGCGCTACGGTCGCGAATCAAC
TCCTCTGTACTCAATGAAATCTCTCAGGAACGCTCCGTGAAACTGTCATCGCTGGGCGCG
GCTCGCGTGTCCCGTCTGCCTCTGGTGGGTAGGCCCCTGGAGCGCGGCTGGCGGTCGGCG
GAGGCGGTGACGACTCTCACGCCTCAGCTGGAAGCGCGTGACTCCGGCGCCATCCCCCTG
TGGGTCATCATACTGGCAGCTGTCGTCGGCGCGCTGCTGTTGTTACTGCTCATCTTCGCG
CTATACAAAGTGAGTAGAACAACTTGTTATTGA
Protein sequence:
MCQAGFSAAVSKDGQRLFLGAPGSFYWQGRTFSIDTSARFNYFMPKEGQLKVQTLNSKPV
LISTPEDSPKHDDSYMGYSVTVGDFAGQGIQGVAVGVPRGSELRGLVVLYTWELQIIKNI
SGSQIGAYFGYSMASGDIDGDGADDIIVGAPMFTKTKSDGYEHGRIYVIYQGSDRSFQKN
HARTGEVSKGRFGLAVTSLGDINYDGFGDIAVGAPYGGESGRGVVYIYHGSELGIGEKYS
QAITAEEISPVLTTFGFSLSGGVDLDNNNYTDLAVGAYKSDSVVFLKSRPVVKVMAEVRF
MGESKLISLDDRRCVLSNGTNVACARLMFCLTYDGVNVDQQINFEVTLDLDSRQKTSKRL
FLMESRQTVYTTHILLNQGQQECKEITVYLDEEIRDKLTPLEVKMTYELVQPGGSAGASG
AVPPVLDRTLGVERTDSLNIQKNCGPDNVCVPDLKMFVTTPTVNYVLGSGENVHIDVKVD
NGGEDAFETAYYLQIPAGVTYAKMERLDKDTAETSPIYCSIKNKGTSGNSTLKCDLGNPM
ASGQSVNFRVVLEVDTRVTGLNFDMESNSTNPEVGTQYDNTRHLAIGVVIKAVLSVIGTS
DPPELHYNASLYESRDLKDDTKLGPQVIHKYNIKNEGENLMYMVVQPQWAGDIVCDVARN
VNPDNLFIQNPYAYMLTKEKEEMMSSEFYSGAQIGGAGGYYGQQYWEEKHTISGEQAGQT
GAGQVNRGQTASNAFGTQTSSGGQYAATSQGNGQFNGEHSIHISGGQATGGQSTYVNRGQ
ASSGQYGTHISGGRVAGEQYGSTQVSGTRYGTHVSGQTGEISGDQMGTHVIENSGSVSNT
YGTQLNKNNDQISGGQYYGGQMGGGGQGSGSSYSYNRTWSSGSNEGLSAEEQEAIRKRLQ
AMAQPNYQGSGREYNEGGQNTYSQSSSHGSAYGQNGYSQGGQYYGREQNHGGQSFNIQGG
QGVGSAEYGQDGRIVRIRNKTVVFDSNHNVISESETSTEYGSLGHEGEAGSSFNTYLNNQ
GVNQNYGSSQGFVHGSWGTTETVNPNLMNAGSKTYRNPSVTVVGDEDEDKLEGFGAYAAQ
NSNNEFKFGIADVTNQAGSSGGGAAYRSGSQVYQNGQQGAFQGGVQGGASSSYGNSGSYS
YSSSQSGGHRSYSQSGHSFSSSSEQRRESTRRKRQDEVDTELKEMLSRCEEKYKCSVVRC
HTGRLVKGQAVWVALRSRINSSVLNEISQERSVKLSSLGAARVSRLPLVGRPLERGWRSA
EAVTTLTPQLEARDSGAIPLWVIILAAVVGALLLLLLIFALYKVSRTTCY