| New model in OGS2.0 | DPOGS207550 |
|---|---|
| Genomic Position | scaffold150:+ 96984-108541 |
| See gene structure | |
| CDS Length | 3294 |
| Paired RNAseq reads | 1041 |
| Single RNAseq reads | 3229 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004687 (1e-174) |
| Best Drosophila hit | auxillin, isoform B (4e-174) |
| Best Human hit | cyclin-G-associated kinase (1e-146) |
| Best NR hit (blastp) | PREDICTED: similar to AGAP003715-PA [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | GG12187 [Drosophila erecta] (0.0) |
| GeneOntology terms | GO:0016191 synaptic vesicle uncoating GO:0004672 protein kinase activity GO:0006468 protein amino acid phosphorylation GO:0031072 heat shock protein binding GO:0005524 ATP binding GO:0004674 protein serine/threonine kinase activity GO:0007219 Notch signaling pathway GO:0001745 compound eye morphogenesis |
| InterPro families | IPR000719 Protein kinase, catalytic domain IPR001623 Heat shock protein DnaJ, N-terminal IPR014019 Phosphatase tensin type IPR014020 Tensin phosphatase, C2 domain IPR011009 Protein kinase-like domain IPR008973 C2 calcium/lipid-binding domain, CaLB IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR008271 Serine/threonine-protein kinase, active site IPR017442 Serine/threonine-protein kinase-like domain |
| Orthology group | MCL11599 |
Nucleotide sequence:
ATGAAATTGAGAGTGAAGAAAGTTATAGCAGAAGGTGGATTTGCATTTGTTTTTGTTGCT
CAAGATGTATCCTCTGGTACAGAGTTTGCTCTTAAGAGATTGATGGCAGCCGATGAACAA
GCTAATAAAAATATTATACAAGAAATAAGCATATTAAAAAAGTTATCTGGCCATCCTAAT
ATAATTAAATATATAGCGGCTTCATTCCTTGACAAAACCAAAACCACCCATGGAATGGGT
GAATATTTATTATTAACTGACCTCTGTAGTGGAGGTAGTTTGATGGAGGCTTTGCAGAAC
AGGGGGCAGGCTTTCCCTCTATCAACTATATTAAGGGTATTCTATCAAACATGCAAGGCT
GTACAGCATATGCATGCTCAAGTGCCTCCTATAGCACATAGAGATCTTAAATTAGAAAAT
TTTCTTATATCAAATGAAGGTACAATAAAGTTATGTGATTTTGGATCTGCGACAACTGAA
GTCTATTCCCCAAATCCATCATGGAGTGCAAATCAAAGAAATATGCTGGAAGAAAATCTG
GCCCAATTTACAACTCCAATGTATAGGGCACCAGAAATGTTAGATACTTGGGACAACCAC
AAGATAGACCATGCCGTTGATATATGGGCATTAGGCTGTATATTGTATACCTTGTGTTAC
ATGCAACATCCATTTGAAGATTCAGCAAAGTTAGCAATACTTAATGGAAATTTCAACCTT
AATCCAAATGATCAGCGTTACAAATGTTTCCATGAGATAATAAACGGCTGCCTGTGTGTC
AACCCAGCCCAGCGGTTGACCGTCAGCGGTGTGCTGGAGAGGCTCGCTGCGGTCGCTGAG
TCCAACAACATCAACCTCAAGCAACCACTCAAATTTGAGCGTAAAAAAGTTGAACAATCC
GTGGCCACTAGCTCGCCAGCTAATAACGGTACACCAAATATACAAGAGCCAGCGGTTCCC
CGACCCCCGGAGCCCGCTCGTCCCCCGCCGCCCGCGCGCCCCCCCGCTGCGCCCCACTAC
CACCCACCACAACAACAGATCCCCGCCACGGGGGGACTCTTTTCCTCTATCAAAGATGGC
GCCGGTAGTTTCTTGAAAAACCTTAAAGACACCTCGTCCAAGGTCATGCAGACGGTCCAA
CAGTCCATAGCCCGCGCCGATTTAGACATTAGCTATATAACGAGTCGCGTGGTTGTGATG
TCCTACCCATCGGAACTATTGGAGAGCGCGTATAAAACGAATCACATAGAAGACGTTAGG
ATATATCTGGAGAGTCATCATCCGGGCGGTAAGTACTGCGTGTACAGCGTCCACGAGTCC
CGGGCGCGTTTCCCTCGCCGGCAGCTGGTCACTGACACATCACTATGGCCGAGGGACGAA
GACCGCGCCCCGCTCCTCGCGCCATACTACGCGCTTCTGCAGCACATGTACCAGTACTTA
GGGAAGGACGATAAGTCCGCGTTGGTTATAGCCTGCCAGGATGGCAAGTCCAGGTCGTGT
ATGCTCCTCTGCGGCCTCCTGATGTACGCCAAGCTGGTCACCGTACCCGAGGACGCTCTC
CAGATATTCGCCGTGAAGCGAACCCCGATCAACCTCCCGCCAAGTCAGCTGAGATACCTC
TACTACCTCAGTAACATCGTTAGACCCGAACCAATTCTTCCTCACTTTAGACCAGTGTCA
CTGGTCTCTATAACAATTCAGCCTGTGCCACTTTTTACTAAAGCAAGGGACGGGTGCAGG
CCCTACTTAGAAGTTTACAATGAAGATAGATTAATTTCTCCGCCGATAAGAAATTATGAA
AGTCTACATTTGTATATGATGGCAGAAGGAAAGGTGACGCTGCCTGTGGACAGCACGGTG
TGCGGGGACGTCACGCTGGTGGTGCTCCACGCGCGGCACCAGCTCGGCCGCCTGCAGCGC
GTGCCCATGATGTCCGTCTCCTTCCACACCGGCTTCCTGGCATATGACCAGCATGCTATC
AAGTTTACCAGATCAGAAATTGACGGTATCGACGAAGCTAGTCCTGTGAACGATCACTTC
TCCTCAAATCTCACCGCGGTGATAAGTCTGGTCGTACAGAACGGTGAGCGAAGAAAACCG
AGGAGTGATCTCTGGGAAGAAGACCACTCCTATCCCATACGGACACCGAATGTATTGTTC
TCGAGTAATTTGGAGAGAGATGAGACTATTGATAACTTTGTATCGACGGACGTGCCCTCG
TCTTCAAGGGAGCCCCCCCGTCCCCCTCGGCCCGCGGCCCCTTGTACCGCGTCCCCCTCT
CCCGCCGCTCCCCACCGGCCGCCGCCCCCCGCTGTCACCGCGGACTTCCTCAACATAGAG
GAGAAACAGGCCTCGGTGAAAGCGACCCCTCAACTGAAAAACGAAGACTCCTTTGATTTC
TTCGGCATGATGGAGAAACCTAACGACGACTCATTCGGAGATTTTCTGAGCGGTCAAGCG
TCAGAAAACACACAATCTTTCCCGCAGCCGTCGCAGTCTTTATTTTCCGACCTGCCCGCA
CCGAACATCACCAACTCTAACGTGAACTCGAGCGACCCTCTCAACTTCGATCCTTTCGGC
CTCAACGAGCCTATACCAAAACAGGAACCGATACTCGCCCCGACTGTAAAGGAAGATGCA
AAACCTCAGAACGTACCGCCGGAGCAGGCCAAGCGTGATCCGTTCGCGGATCTCGGTATA
TTAGGCGCGGGTCTGGGCGGATCTATGACCCCAATGGTATCTCCTCGCGCCTCCCCCGCA
CACACTCCACACCACGTTCCGACCCCAGCCCGCTCGCCCGCACACCAACCAGACTACAGC
CGCACTCATTTTGACGCCGCTAAACCCGCCGGACCAACGGAAGAAAAGGTTAAGAAGTCT
GGGGATGTGTTCGGTGATTTATTGGGGAGTCAGGGATATGACTTCGCGAAACGAGACCCA
GGACCGAGGACCATCAACGCCATGAGGAAAGAGGAAATGGTCAAGGTCATGGACCCTGAT
AAACTAAAAATACACGAATGGACCGAGGGCAAGAAGGCGAACATTCGCGCTCTATTGTGT
TCATTACACAGCGTGGTGTGGGCCGAGTGTCGCTGGACGCGTGTCGACATGTCCCAGCTG
GTGTCTCCCGCGGACGTTAAGAAACATTACCGCAAGGCTTGTCTCGCCGTACATCCTGAT
AAACAAATGGGTACATCGAATGAAAACTTAGCTAAAATGATATTCATGGAACTGAACAAT
GCGTGGAGCGACTTTGAAAACGACTCCAAGCAACAGAACTTGTTCCAATCTTAA
Protein sequence:
MKLRVKKVIAEGGFAFVFVAQDVSSGTEFALKRLMAADEQANKNIIQEISILKKLSGHPN
IIKYIAASFLDKTKTTHGMGEYLLLTDLCSGGSLMEALQNRGQAFPLSTILRVFYQTCKA
VQHMHAQVPPIAHRDLKLENFLISNEGTIKLCDFGSATTEVYSPNPSWSANQRNMLEENL
AQFTTPMYRAPEMLDTWDNHKIDHAVDIWALGCILYTLCYMQHPFEDSAKLAILNGNFNL
NPNDQRYKCFHEIINGCLCVNPAQRLTVSGVLERLAAVAESNNINLKQPLKFERKKVEQS
VATSSPANNGTPNIQEPAVPRPPEPARPPPPARPPAAPHYHPPQQQIPATGGLFSSIKDG
AGSFLKNLKDTSSKVMQTVQQSIARADLDISYITSRVVVMSYPSELLESAYKTNHIEDVR
IYLESHHPGGKYCVYSVHESRARFPRRQLVTDTSLWPRDEDRAPLLAPYYALLQHMYQYL
GKDDKSALVIACQDGKSRSCMLLCGLLMYAKLVTVPEDALQIFAVKRTPINLPPSQLRYL
YYLSNIVRPEPILPHFRPVSLVSITIQPVPLFTKARDGCRPYLEVYNEDRLISPPIRNYE
SLHLYMMAEGKVTLPVDSTVCGDVTLVVLHARHQLGRLQRVPMMSVSFHTGFLAYDQHAI
KFTRSEIDGIDEASPVNDHFSSNLTAVISLVVQNGERRKPRSDLWEEDHSYPIRTPNVLF
SSNLERDETIDNFVSTDVPSSSREPPRPPRPAAPCTASPSPAAPHRPPPPAVTADFLNIE
EKQASVKATPQLKNEDSFDFFGMMEKPNDDSFGDFLSGQASENTQSFPQPSQSLFSDLPA
PNITNSNVNSSDPLNFDPFGLNEPIPKQEPILAPTVKEDAKPQNVPPEQAKRDPFADLGI
LGAGLGGSMTPMVSPRASPAHTPHHVPTPARSPAHQPDYSRTHFDAAKPAGPTEEKVKKS
GDVFGDLLGSQGYDFAKRDPGPRTINAMRKEEMVKVMDPDKLKIHEWTEGKKANIRALLC
SLHSVVWAECRWTRVDMSQLVSPADVKKHYRKACLAVHPDKQMGTSNENLAKMIFMELNN
AWSDFENDSKQQNLFQS