| New model in OGS2.0 | DPOGS212581 |
|---|---|
| Genomic Position | scaffold9:+ 451851-467450 |
| See gene structure | |
| CDS Length | 3342 |
| Paired RNAseq reads | 872 |
| Single RNAseq reads | 2366 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012318 (5e-154) |
| Best Drosophila hit | Fak-like tyrosine kinase, isoform A (2e-179) |
| Best Human hit | activated CDC42 kinase 1 isoform 2 (2e-66) |
| Best NR hit (blastp) | tyrosine-protein kinase pr2, putative [Pediculus humanus corporis] (0.0) |
| Best NR hit (blastx) | tyrosine-protein kinase pr2, putative [Pediculus humanus corporis] (0.0) |
| GeneOntology terms | GO:0004713 protein tyrosine kinase activity GO:0006468 protein amino acid phosphorylation GO:0004715 non-membrane spanning protein tyrosine kinase activity GO:0048102 autophagic cell death GO:0035071 salivary gland cell autophagic cell death GO:0005575 cellular_component GO:0005524 ATP binding GO:0005515 protein binding |
| InterPro families | IPR000719 Protein kinase, catalytic domain IPR000095 PAK-box/P21-Rho-binding IPR017441 Protein kinase, ATP binding site IPR008266 Tyrosine-protein kinase, active site IPR001245 Serine-threonine/tyrosine-protein kinase IPR011009 Protein kinase-like domain IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain |
| Orthology group | MCL16899 |
Nucleotide sequence:
ATGGATAACTCAGCTAATGATCAAGAGGATTTGATTGCATTTCTTGAAGAAGCTGATCTT
GAGCAGTATTATGGGTGTTTTAGGGATATTTTGAAAGTCACAAAATTATCACAGCTGAAG
TTTGTGGCTGTTGAAGATTTAATTCAAATTGGACTTTCAAAGCCAGAACAACGAAGATAC
AAGAAATTGTATTCAAGATACTTCCCGAACACATATATAACTAAACTGAAGAGACTTATA
AGCGGCCACAGAAAGGCAGATTTAATGAAACAGGAGCAAATAAATGTAACACTTGATGTA
CAAACATCAGACATGAATGTAAAAGTGCCTACAAAACACATTATTTCAATTGAGGACATT
ACAATTAATAAGGAACTTGGTATGGGACAGTTTGGAGTTGTGCAGCAAGGCACATGGAAT
ACTGGAAATCAAAGACTGCAAGTGGCAATCAAATGCCTTGGAAATGAAAAGATGACATCA
AACTCAACAGAGTTCCTCAAGGAAGCAGCGGTGATGCATAGTATTGAACATCCCAATATT
GTACGCTTGTATGGAGTTGTATTGCATTTAGATTCTTTGATGTTGGTGACTGAACTTGCA
CCATTGAGATCGCTTCTTGAGTGTTTGAGGGAGGTCACATTGCGTATTGACTTCTCTGTA
GCTGTGCTTTGTGAGTTTGCGGAACAGATCTGTGATGGAATGACTTACTTAGAGAAGAAA
AGACTGATACATAGGGATTTGGCAGCTCGGAACATCTTAGTATTCTGCAAGGATAGAGTG
AAGATATCCGATTTTGGTCTGTCCCGAGCTCTGGGAGTTGGAAAAGACTACTACCAGACA
AATTATAATGTGAATCTCAAATTGCCAGTAGCTTGGTGCGCCCCGGAATGCATCCTCTAC
CTTAGATTCACTTCTGCAAGCGATGTTTGGGCATTCGCTGTGTGTCTGTGGGAGATGTTC
ACGTATGGATTCCAGCCGTGGGCTGCTTTCTCAGGACAACAGATCCTTGAGGCCATTGAC
GCTCCCAATTTTCAGCGTTTGGAGCGTCCCGATTGTTGCCCCGATTCTTATTATTCATTG
ATGTTGGAGTGCTGGTCGCATGATCCAAACGATCGACCAAAATTCAAAGACCTTGCCATC
AAATTGCGTGGCATACGTCCTGAGGAGGTCCAGGCCATATCTACGTATAAGAAACATGAA
GATGGCAGGCGAAGCAACTTTCTCGAATACAAGACGGGACAAAAGATCACCGTGATCGGG
AAACAAAATTATACTAAATCTGCTATGTGGTATGGAGTGCTGCCAGGCGGTGCGTGCGGA
CTTTTCGATCCAAATCAAACCAAACCTTATGTAAAGCCCGAGCGAAGTTTGCCTGGCTCA
CTGTCTCATCCAACTCGCAATTCAACTCGTAACATTCGATCATCCCTATTGCGGTCGGAT
CTCAAAAGACACACATACTCCGGCAAACGTACCATACAGAGAAGCATGATATCAAGCCCA
CAGGGTGACGTTAAACACACCAGCCACTTTGGCCTTGACGGTGCATACTTTGGCGATATA
TCCTTCTTGGATTCCGCCGGCATTCCACCACGGCAGGTGGTGACTCCGTACAAACCATCG
GAGGATCTGGAGCAGATGCCGCTCATAAATCCTCACTCGCCATCCCATTTCAGCGCCTTC
CCGCTGCTTGATTCACCAAAACAGGATAATGATACAAACCCTGACGGCAAATTCAAAGGA
ATGATAAGACCTCTCAAAACCATCAATGAGCCGACTACAAGTAAAAGTTTCATCTACAAG
GTGAAGAGTGCCACGTTGGGACGTTCGAACAAGAGCGATGAGGGTGATAACAACAACGAG
GTCCACGAGTACCACGAGATATCTGACACCGATACGGAGAGTATTGCTGCTGAAAACAAA
GGTGAAGGCACTCCAGAGAGTCCTGGGATTGTTGTAAAGAGCTATGCTGACTTCAGCAAG
AGTCTTCTAGAAGAAATGGAGACTATCTTCCGCAGTCTAGAACACAAGCGGGGTGACGAA
ATCGTGAGAATCAAGGAAAGTGATGTTGAAGCAGCCTTGAGGCTCCATAATGTGAACCAG
TTGGAGAAGAGGAAGGGTAACTCTGGTACAATGAAACCGATGTCGGCCCACGATGAAAAA
ACTCTCAATACGGCCGTGGCTATGGCCAATGAGATTACTACCAAGTCCATGAACGATCTC
GGCGGTGTGACCAAGCCATTGAACTCACCGAGCTCCAAATTCCACTTCAGGTTCCCGTTA
GTGACATCGCTTAACACCCACAGCATCCATCACGAATCTCCCAAGGAAAATGGAGTCCAA
CACCGCAACTTCACGGAGCAAGCGAGAAGCGTTCCTGATATACAGGCTTCCCTCACTGAG
GAGAGTCGTCAGGCGTACGTGAGTTTGATCGAACAGCCTGTACCATCACGAGCTATGAGG
GCCCAGTTGTCCCGCGAGATGCCAAGCACGTCCGGACTGCACTACACACCGCCGCCGCCG
CCGCCTCCGCCGTCCATCACACCGCATGTCACGATGCCTAAAATTGAACATGAGCTTGGA
AATTCTTCACAGGAGTCAGATTCAAGTGATGACGACGATGACAGCGAGAGCGGAAACGTC
ATTCCACTACCGCCTCGGGGCACCAAGCCGAAATTAGTTGAAAAACCGCGCCACGTTCGT
AAATATCCTCTGCGTCTACCAAACGAGCCACCCGCGAGCGTAGTGCCAGAGCGTCCAGCG
GCTGCTATATATCAGAACACGATCACTTGCGCCATCCACGGAGTGCAGATTGTAGACGGG
CCAGCACCGGGGCCGAGTGGTGTCGACGTGTATGATGGCCCAGAACATAAAGACACCAAT
CCGTTTAATTCCATGCAGGACAGCGCCTCGCCTTCAGTGAACCCATTCCAATGTTACATA
TCAGATAATGTCGACGACAACTCCGATGACGAGTATGAAGGCCCCGTTCAAGTCGATGGA
CCTGGGGTTATAGAAGTCTCTCTATCCAAAGATCATGTATCAGTGGAGGATTTGCTAGAG
TTTGCTGATCAAAAGCCGTCAGCTCAGCAGCGCGGCGTCGAGTCTGATGAAGTCAGGATT
ATGAACAAAGTCCTCAAACTTGAAGTTTCACCGGAAGAATGTCTTGAAGCTTTGGAGTTC
AGCAACTGGAATGTCCACAACGCTATCAAAGTGTTGCGCGTCAAGATAGCATCCAAGAAT
GACAAAGTATCTCTGGAAGAATGCCAACGCGAACTGGATTCAAATGACGGAGATATACTT
AAAGCAGCGAAACTCCTCCGCGATCACAAGATCAGCGAGTAA
Protein sequence:
MDNSANDQEDLIAFLEEADLEQYYGCFRDILKVTKLSQLKFVAVEDLIQIGLSKPEQRRY
KKLYSRYFPNTYITKLKRLISGHRKADLMKQEQINVTLDVQTSDMNVKVPTKHIISIEDI
TINKELGMGQFGVVQQGTWNTGNQRLQVAIKCLGNEKMTSNSTEFLKEAAVMHSIEHPNI
VRLYGVVLHLDSLMLVTELAPLRSLLECLREVTLRIDFSVAVLCEFAEQICDGMTYLEKK
RLIHRDLAARNILVFCKDRVKISDFGLSRALGVGKDYYQTNYNVNLKLPVAWCAPECILY
LRFTSASDVWAFAVCLWEMFTYGFQPWAAFSGQQILEAIDAPNFQRLERPDCCPDSYYSL
MLECWSHDPNDRPKFKDLAIKLRGIRPEEVQAISTYKKHEDGRRSNFLEYKTGQKITVIG
KQNYTKSAMWYGVLPGGACGLFDPNQTKPYVKPERSLPGSLSHPTRNSTRNIRSSLLRSD
LKRHTYSGKRTIQRSMISSPQGDVKHTSHFGLDGAYFGDISFLDSAGIPPRQVVTPYKPS
EDLEQMPLINPHSPSHFSAFPLLDSPKQDNDTNPDGKFKGMIRPLKTINEPTTSKSFIYK
VKSATLGRSNKSDEGDNNNEVHEYHEISDTDTESIAAENKGEGTPESPGIVVKSYADFSK
SLLEEMETIFRSLEHKRGDEIVRIKESDVEAALRLHNVNQLEKRKGNSGTMKPMSAHDEK
TLNTAVAMANEITTKSMNDLGGVTKPLNSPSSKFHFRFPLVTSLNTHSIHHESPKENGVQ
HRNFTEQARSVPDIQASLTEESRQAYVSLIEQPVPSRAMRAQLSREMPSTSGLHYTPPPP
PPPPSITPHVTMPKIEHELGNSSQESDSSDDDDDSESGNVIPLPPRGTKPKLVEKPRHVR
KYPLRLPNEPPASVVPERPAAAIYQNTITCAIHGVQIVDGPAPGPSGVDVYDGPEHKDTN
PFNSMQDSASPSVNPFQCYISDNVDDNSDDEYEGPVQVDGPGVIEVSLSKDHVSVEDLLE
FADQKPSAQQRGVESDEVRIMNKVLKLEVSPEECLEALEFSNWNVHNAIKVLRVKIASKN
DKVSLEECQRELDSNDGDILKAAKLLRDHKISE