New model in OGS2.0 | DPOGS211677  |
---|---|
Genomic Position | scaffold1788:- 370-7073 |
See gene structure | |
CDS Length | 3048 |
Paired RNAseq reads   | 10141 |
Single RNAseq reads   | 23241 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001370 (0.0) |
Best Drosophila hit   | rhea (0.0) |
Best Human hit | talin-2 (0.0) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC009358 [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | Talin-2, putative [Pediculus humanus corporis] (0.0) |
GeneOntology terms    | GO:0007475 apposition of dorsal and ventral imaginal disc-derived wing surfaces GO:0016203 muscle attachment GO:0007016 cytoskeletal anchoring at plasma membrane GO:0005925 focal adhesion GO:0003779 actin binding GO:0007155 cell adhesion GO:0008360 regulation of cell shape GO:0005158 insulin receptor binding GO:0005200 structural constituent of cytoskeleton GO:0001726 ruffle GO:0005856 cytoskeleton GO:0032582 negative regulation of gene-specific transcription GO:0006911 phagocytosis, engulfment GO:0035160 maintenance of epithelial integrity, open tracheal system |
InterPro families    | IPR015224 Talin, central IPR018979 FERM, N-terminal IPR019748 FERM central domain IPR002404 Insulin receptor substrate-1, PTB IPR019749 Band 4.1 domain IPR015710 Talin-related IPR014352 FERM/acyl-CoA-binding protein, 3-helical bundle IPR011993 Pleckstrin homology-type IPR000299 FERM domain |
Orthology group | MCL10506 |
Nucleotide sequence:
ATGGCGACGCTGTCCCTGAAGATATCCCTGGAGGGGGGCAAGGTGGTGAAGACGATACAG
TTCGAGCCGTCCACCAGTGTGTACGACGCCTGCAGGATCATCAGAGAGAAGATACTGGAA
GCCAATGACAATGACCCTAAAGAGTACGGCCTGTTCCTGGCCTCCGAGGAGGATAACAAG
AAAGGCATCTGGCTGGAGGCGACTCGCAGTCTGGACTATTACATGCTGAGGAACGGGGAC
CTGCTGGAGTACAACAAGAAGACCAGGAACCTCAGGGTCCGGATGTTGGACGGCACGGTC
AAGACTCTGCTGGTGGACGACAGTCAGATAGTGGCCAACCTGATGGTGGTGATCTGCACC
AAGATAGGCATCACCAACTACGACGAGTACGGCCTGGTCAGGGAGGAGGTGAAGGAGGAC
GCCGACCCTTGCGAAAGACCCAACTACGGCACCCTCACGCTGAAGAGGAGACATCATGAG
AAGGAGAGGGACGCCAAGATGGAACAGCTCAGGAAGAAACTCAGGACTGACGATGAAGTA
AACTGGGTGGAGCCGTCCAAGACTCTCCGCGAGCAAGGCATCGAGACCAGCGAGACGCTG
CTGCTTCGTCGGAGACTGTTCTTCTCCGACCGGAACGTGGACTCTCGCGACCCCGTGCAG
CTCACTCTGCTGTACGTGCAGGCCCGGGACGCCATCCTGGCCGGCACACACCCCATCACA
CAGGACAAAGCGTGCGAGTTCGCGGGTATTCAGTGCCAGATACAGTTCGGAGATCACAAG
GAAGACAAACATACGCCCGGATTTTTAGACCTGAAGGAGTTCCTGCCAGCGTCTTACGTG
AAAGTGAAGGGCATCGAGAAGAAGGTGTTCCGCGAACATCGCAAGCACGCCGGCCTCAGC
GAGCTGGACGCCAAGGTGCTCTACACCAAGAGTGCCAGGGACCTCAAGACTTATGGAGTC
GCATTCTTTTTGGTCAAGGAAAAGATGAAAGGCAAGAATAAACTGGTTCCTCGTCTCCTG
GGCGTCACCAAGGACTCCGTGCTCCGCCTGGACGAGAAGACCAAGGAGATCCTGCAGACC
TGGCCGCTCACCACCGTCAGGAGGTGGTGCGCCAGTCCCAACACCTTCACGCTGGACTTC
GGAGACTACAGCGACCAGTACTACTCGGTGCAGACGACGGAGGCCGAACAGATCCTGCAG
GTGATCGCGGGCTACATCGACATCATCGTGAGGAGGAGGCGGGCCAGGGACCATCTCGGC
CTGGAGGGAGACGAGGGATCCGCCATGTTGGAAGACAGCGTCGCGCCGTCCAAGGCTAAC
ATCATCCAACACGACACCTTCAAGTCGGCCAAGCCCAATCAAGAATCAGTGGCCAAGCCG
GCCGTCCTCAGACCTGGAGCGGAAGGGGCCAAGCCGTTCTCGGTGGCGCACGTGACGGGG
GCCCAGCAGACCACGCTCTCGGGGAGGGTCGTCACCGGACACGCGCCGCCAGCTGCGACG
CAGGTTCAGCAAACAAAAATCACTTCTATACTGACGGAGCCGCAGAGGGCGTTGTTGTCT
ACCATCACGAGCGGCAAGGAGATCATCAAGCAGACGGAGGCCGGGCTCACCAGGACGTCC
TTGGAGCCCCCGAGCGGCGACGCGGGCTCGATACGCTGGCGGGAGGCCAGGCTCGGCAGC
AGCAAGCAGCTGGTGACGTCACACATCGCAGCAATGAACGCAGCGACAGCACAGGTCGTC
ACCCTCACCGCCGGGCCGGCGGAGGAGGTGGACCACACGGCGGTCGGCGCCGCCATCACC
ACCATCACCACCAACCTGCCCGAGATGACGAAGGGAGTCCAGATGATCGCTGCCCTCATG
GAGGACGAGCACTCCGGGGACAACCTCCTGGACGCCACCAGGAAGCTCTGCACCGCTTTT
TCCGACCTGCTGAAGGCGGCTGAACCTGACACTAAGGAGCCTCGCCAGAACCTGCTGAAC
GCAGCGTCTCGTGTGGGCGAGGCGTCCACCGGCGTCCTGCACACCATCGGCGAGGAGACC
GACGACGACAAGGAGACTCAGGTAACCTCCGGGGACCTGTACACCCCCTCCATATACACT
GATAGCGGTAAGCTAGAGGACGACGGCATATACGAGGACGTCGACACCACCGACTGGAAA
CTGCTGGGGGTTATACAGGAGGAGTCCGACAGCGACTACTACAGGAGTGTCGACTATTGT
AACACCTACTACAGGAACAAAAGGCAGCGGGAACACTCTGTATACGACACGCTCGACAAA
ACCTCGCTGAGACCTGACACGCCGCCCAAACTACAACCGAAGAGGGTCGCCGACAAGATA
TACGACTTTAAAAAAGACTTCTCCAACCATCACTACGCCAATATAGACCACGAGAAAAAC
TCGGCGCTCGACAGACGGACCAAAAACGAAATTCTGAGACAGAAGTTCTTCGCCGAATAC
AACAACGTCAACAAATGCAACAAAAATGAGTTCAATGACAAAATAAATAGACTGAACGAG
AAGAAAGCAGGGAGTCAGAGCTGGAGAGAAGGCGCGAAGACGGGGGACAGGGACAAGGCC
GCGCTCAACCTGAAGCTGTTTGACCTGGAGAAATATAACAGAGTGTTGACGACCACTGAA
ACATACAGGGAGACCAGCGAGGCCAGCTTCACCAGCTTCACCAGCAAGACGCTGAACACT
AAGACGGACCACTCACACTCAGACACGCTCACCAAGAGGAGCGAGGCCTGCACCAGCACG
CGGCGCACGGACATGGACGCCGGCCCCCTGAACAACTCCGCGCCGACTAAAGGACAGACG
GAGATCAGAATCACGTACAACCCCATACTGATGACGAGTCAGAAACACGGGGACGAGAGA
TGTCTCCCGGGAGACGAGGCCCGGCCCAAACTACAGCTGACAGATGTTTGGAGAGAAGAT
TGGTTGAACATACTGCTGTTACTGGCGTTCATACTCATAGCTGCAGCCTGGTTCATAGAC
TGGCTCCTGAAGCGTGTCTGCAGCGAGGACTGCCATCAGATGACGTGA
Protein sequence:
MATLSLKISLEGGKVVKTIQFEPSTSVYDACRIIREKILEANDNDPKEYGLFLASEEDNK
KGIWLEATRSLDYYMLRNGDLLEYNKKTRNLRVRMLDGTVKTLLVDDSQIVANLMVVICT
KIGITNYDEYGLVREEVKEDADPCERPNYGTLTLKRRHHEKERDAKMEQLRKKLRTDDEV
NWVEPSKTLREQGIETSETLLLRRRLFFSDRNVDSRDPVQLTLLYVQARDAILAGTHPIT
QDKACEFAGIQCQIQFGDHKEDKHTPGFLDLKEFLPASYVKVKGIEKKVFREHRKHAGLS
ELDAKVLYTKSARDLKTYGVAFFLVKEKMKGKNKLVPRLLGVTKDSVLRLDEKTKEILQT
WPLTTVRRWCASPNTFTLDFGDYSDQYYSVQTTEAEQILQVIAGYIDIIVRRRRARDHLG
LEGDEGSAMLEDSVAPSKANIIQHDTFKSAKPNQESVAKPAVLRPGAEGAKPFSVAHVTG
AQQTTLSGRVVTGHAPPAATQVQQTKITSILTEPQRALLSTITSGKEIIKQTEAGLTRTS
LEPPSGDAGSIRWREARLGSSKQLVTSHIAAMNAATAQVVTLTAGPAEEVDHTAVGAAIT
TITTNLPEMTKGVQMIAALMEDEHSGDNLLDATRKLCTAFSDLLKAAEPDTKEPRQNLLN
AASRVGEASTGVLHTIGEETDDDKETQVTSGDLYTPSIYTDSGKLEDDGIYEDVDTTDWK
LLGVIQEESDSDYYRSVDYCNTYYRNKRQREHSVYDTLDKTSLRPDTPPKLQPKRVADKI
YDFKKDFSNHHYANIDHEKNSALDRRTKNEILRQKFFAEYNNVNKCNKNEFNDKINRLNE
KKAGSQSWREGAKTGDRDKAALNLKLFDLEKYNRVLTTTETYRETSEASFTSFTSKTLNT
KTDHSHSDTLTKRSEACTSTRRTDMDAGPLNNSAPTKGQTEIRITYNPILMTSQKHGDER
CLPGDEARPKLQLTDVWREDWLNILLLLAFILIAAAWFIDWLLKRVCSEDCHQMT