New model in OGS2.0 | DPOGS213006  |
---|---|
Genomic Position | scaffold152:- 44278-50491 |
See gene structure | |
CDS Length | 2553 |
Paired RNAseq reads   | 443 |
Single RNAseq reads   | 1126 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006914 (0.0) |
Best Drosophila hit   | fused (1e-96) |
Best Human hit | serine/threonine-protein kinase 36 (2e-88) |
Best NR hit (blastp)   | GI11181 [Drosophila mojavensis] (1e-117) |
Best NR hit (blastx)   | serine threonine kinase [Culex quinquefasciatus] (4e-105) |
GeneOntology terms    | GO:0007367 segment polarity determination GO:0004674 protein serine/threonine kinase activity GO:0007224 smoothened signaling pathway GO:0007293 germarium-derived egg chamber formation GO:0043234 protein complex GO:0007228 positive regulation of hh target transcription factor activity GO:0005737 cytoplasm GO:0035301 Hedgehog signaling complex GO:0042993 positive regulation of transcription factor import into nucleus GO:0006468 protein amino acid phosphorylation GO:0005515 protein binding GO:0030162 regulation of proteolysis GO:0005524 ATP binding GO:0016020 membrane GO:0031647 regulation of protein stability |
InterPro families    | IPR000719 Protein kinase, catalytic domain IPR011009 Protein kinase-like domain IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR017442 Serine/threonine-protein kinase-like domain IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site |
Orthology group | MCL12302 |
Nucleotide sequence:
ATGGAAAATTATATTGTTCTGTCATTTATTGGTGAAGGATCATTCGGTCGAGTTTTTAAA
GCCAAGCACAAAGATACTGATGGTATTGTAGCTTTAAAAGTTATAAGAAAGAAAGGAAGA
TCCTCAAAGGACTTAAAAAACTTAAGACAAGAATGTGATATTCAAAGGCAACTGGATCAT
CCAAATATTATTCGAATGATCGATAGTTTTGACACTGAATCGGAACTGGTAGTTGTGACC
GAGTATGCAGAAAAGGAATTACACAGTATTCTAGCCAAGGAAGGATGTCTCAATGAAGAG
GAAGTAAAGAAAGTGACCTGGGATTTGGTATCTGCCTTGTATTATTTACATTCCCATAGA
GTGCTTCATAGAGACCTAAAACCACAAAATGTTCTGTTAGACAGCACAGGAAAAGCTAAA
CTTTGTGATTTTGGTCTGGCAAGAATAATGACTAATGCTACCCACATTCTGACATCAATA
AAAGGTACACCATTATACATGGCACCGGAGCTTATTGATGAAAAGCCATATGATCATCAG
GCAGATCTTTGGTCACTTGGTTGTATAGTGTATGAGTTGATGGCTGGTCAACCACCATTC
TGCACAATGTCAATTTGGCAGCTCGTCCGTATGATAAGGCATAAACCAGTGCAATGGCCT
AGTTTTATTACAGCTGAGGCGAGATCTTTTCTGCAGGGCCTTCTGCATAAAGACCCATCT
AAAAGAATGTCTTGGTCTGAAATTCTTGAACATCCATATGTGAAAGGTCATGTTTTAATA
TTGCCAGAAGACAAACAAAGTGACTCACCCTTCACCAAGCCCTTGTCTTGCAGCCAACAA
GAAGCCAAGTTTCTACAGACGGAGAAAATGAGTAAAAATATAAAAACCGACACAAAAATC
ATAAGTGAAGTTAAATCTGAGAATAGAGAGCATGACTTGAGAAATGTTCGGGTTATGCAT
GCTATGGAATGCATCCCGATGTCTGACGATGATAGCGTTAGAGCGACGAGTGCTTTTAGT
GTAAGGGACAGTCTCAAGACAGACGACGAGGACCAATCGCAACCCATCACAGCAGCCAAC
GCTAAACTGCTAAGATACGAGTTCAATGTCATGAACAACTCGAATCTCGTGGTTTGTAAT
CTGGAGAATAACATGGCACAGTTAGAAGCGGCTAACCAAAAACACGAATTGAACAAAATG
CATAAGATTGTTGAAGAAAAGCACGAACTGCATAAAGATGTACCAGTTGATGTAGATAAC
GTATCCGTTGTTAGTGATAAGAAAGATGATTCTAAACTCAAACCCAAACAGACGGACACA
GCATCACATAGCCTGGAGCATCCGAAGAGCTCAACAAAATGCAGTAGCGATGTTAGTTCG
GGTCTTAGCAAAAGTGTACCGCCGTCCTATAAACAAAAAATATTACAATTCTCAAGGGAC
AAGTTACGTTTTGGAAGCGGCGGTAATAGGTTGACCAGGAGCATCAAGAGATCATTCCAT
TTTAGCAGGAGTTTGGACAAAAATAAGACTGAGGTTCAGAGAAGGACGAGTGAACCAGCT
CTGGAAATAACCTGTACCGAGAAAAAGTCGGACACCGATAAAGAAAAGGGTCCCAAAGAG
GACAAAGATCAGGATATAGAAAAATGTGAGATCATTGAAGAGGCATCAGATGAGAAAGAT
CTGGCTAATAATGATCATCCGCTACCAACAGTTGAAAAGGATGAAATAAAAGAACCGTCG
TCCTTGGAACTAGAGGAATGGGAGGCGTTCCTGAACTCGAACATCACTGAGGTCATGGAA
GGCGATGTAGAATCCCTTACACAACTGAACATGGTTAGTATGGTGGTGGGCGTAGTAGGC
GCGGCTGCCCGTTGGCGTGGCGCGCGGGTCTGTGGGGCCGTCGCCGCGCTTCTAGCACTA
CCAGCACTCTCACAGTCTCTGCCACGACACACCCTTCTCAATATACAGGATGTATATCTT
GAAGCGAAAGTTGTTTTCAACTTTGTAGCTGCCATAAACACGCTCATGAAAGACAAAAGA
GATTCCGACCCAGACTCCGAAGACAGATGTCGTTCTATATCCCGTATGGTGGAGGTGTGC
TCGTGGCTGTGCGTGCGTTCGCCTCGAGCTGTGAGACAATTCGCTACAGCTGTCACCGCC
TTCAGCGCGCATATCGTATTCACACTACTACTAGAATACCATTCAAAAACACCAAGAGAA
TCACAGAACGTAGTCGGTATTTTGATAACCGTTTTACAAGACCTCCCCGAACACGCGGAT
GTGGTGGAGAAGATTCTGTTCGATAGTGCGAGTTTTAACTTCCTGAAGCTTCTAGAACAT
TCCAGCGATGCGCTCAAAATGAGAGTGTGCATTCTCATAAGTCTCCTGTGCACATTCTCG
TGTACAACTTTTTCAGCGGCCATGGAATCGAAGTGGAGCAAGAAAGAAAGTGATAAACTT
GAGGCTCTTCACAGCCACTGTAACGTGACACTTAACAGGGCGGCTAGATTGGCGACAAAG
GAATTGAGCAATATGCCATTTTATACTAGCTGA
Protein sequence:
MENYIVLSFIGEGSFGRVFKAKHKDTDGIVALKVIRKKGRSSKDLKNLRQECDIQRQLDH
PNIIRMIDSFDTESELVVVTEYAEKELHSILAKEGCLNEEEVKKVTWDLVSALYYLHSHR
VLHRDLKPQNVLLDSTGKAKLCDFGLARIMTNATHILTSIKGTPLYMAPELIDEKPYDHQ
ADLWSLGCIVYELMAGQPPFCTMSIWQLVRMIRHKPVQWPSFITAEARSFLQGLLHKDPS
KRMSWSEILEHPYVKGHVLILPEDKQSDSPFTKPLSCSQQEAKFLQTEKMSKNIKTDTKI
ISEVKSENREHDLRNVRVMHAMECIPMSDDDSVRATSAFSVRDSLKTDDEDQSQPITAAN
AKLLRYEFNVMNNSNLVVCNLENNMAQLEAANQKHELNKMHKIVEEKHELHKDVPVDVDN
VSVVSDKKDDSKLKPKQTDTASHSLEHPKSSTKCSSDVSSGLSKSVPPSYKQKILQFSRD
KLRFGSGGNRLTRSIKRSFHFSRSLDKNKTEVQRRTSEPALEITCTEKKSDTDKEKGPKE
DKDQDIEKCEIIEEASDEKDLANNDHPLPTVEKDEIKEPSSLELEEWEAFLNSNITEVME
GDVESLTQLNMVSMVVGVVGAAARWRGARVCGAVAALLALPALSQSLPRHTLLNIQDVYL
EAKVVFNFVAAINTLMKDKRDSDPDSEDRCRSISRMVEVCSWLCVRSPRAVRQFATAVTA
FSAHIVFTLLLEYHSKTPRESQNVVGILITVLQDLPEHADVVEKILFDSASFNFLKLLEH
SSDALKMRVCILISLLCTFSCTTFSAAMESKWSKKESDKLEALHSHCNVTLNRAARLATK
ELSNMPFYTS