| New model in OGS2.0 | DPOGS205166 |
|---|---|
| Genomic Position | scaffold140:- 9187-24386 |
| See gene structure | |
| CDS Length | 4668 |
| Paired RNAseq reads | 2864 |
| Single RNAseq reads | 7395 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001268 (0.0) |
| Best Drosophila hit | phosphotidylinositol 3 kinase 68D, isoform D (0.0) |
| Best Human hit | phosphatidylinositol-4-phosphate 3-kinase C2 domain-containing subunit alpha (3e-162) |
| Best NR hit (blastp) | PREDICTED: similar to Phosphotidylinositol 3 kinase 68D CG11621-PA, isoform A [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to phopsphatidylinositol 3-kinase, putative [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0035005 phosphatidylinositol-4-phosphate 3-kinase activity GO:0046854 phosphoinositide phosphorylation GO:0016303 1-phosphatidylinositol-3-kinase activity GO:0046934 phosphatidylinositol-4,5-bisphosphate 3-kinase activity GO:0005543 phospholipid binding GO:0035004 phosphoinositide 3-kinase activity GO:0048015 phosphoinositide-mediated signaling GO:0005942 phosphoinositide 3-kinase complex GO:0005515 protein binding GO:0007154 cell communication GO:0035091 phosphoinositide binding GO:0006911 phagocytosis, engulfment GO:0006974 response to DNA damage stimulus |
| InterPro families | IPR000403 Phosphatidylinositol 3-/4-kinase, catalytic IPR000341 Phosphoinositide 3-kinase, ras-binding IPR002420 Phosphoinositide 3-kinase, C2 IPR001263 Phosphoinositide 3-kinase, accessory (PIK) domain IPR001683 Phox homologous domain IPR011009 Protein kinase-like domain IPR016024 Armadillo-type fold IPR008973 C2 calcium/lipid-binding domain, CaLB IPR018936 Phosphatidylinositol 3/4-kinase, conserved site IPR015433 Phosphatidylinositol Kinase |
| Orthology group | MCL10931 |
Nucleotide sequence:
ATGTCCGAGTACGATCTACAGTTTGAAGCGGACCTAGAAAAGGCCCAAGCTCTTAGCTTA
GAAAGTTTGGCATTGGAGCAATTTCGAAGACAGAAACAGCTATCTAATTCAGATAATGTT
CGGGAAACGGTCAGCAGTATACGTCGTAGAGAGGAACCCGACGGTGCGCCACCAGCTCTG
CCTCCACCACCAAGGAAACCACCAAGGAAGACGTCCACATCAGAGAACTCTAGGTCATCA
GGAACGAGTCCGACGAGGAATACGAGCAGCGATCTAATATCGTTCACGAGTCCTACAGCG
AAATCACCCCCAAATAACTCTCATGCTTCCCTCAAGGAATATCTTGATCAGCTTAGCAAA
TTGGGCCAACAAACCGAGGATCTTACAATAAATGCGCCTGAACAATCAACCACAATGAAC
AACCAGTATAATCACAGGCCGAGCTTTCCCTATAATGCTCAGTACAATTACCCCCCTCCG
TATACACCAATGCCTCCCTACCCTCCATCCACACCATACGGCATGCCTGTACCCATGGGG
CCAATGCCCAACTACCCCTACTACCCAATACCTGCACATCACGATCAGCCACCAACATAT
GTGGTCACGAACCCACCAATGTATGCACCAACGATACCATATAATCAGACCAGAATGGCC
TCACCGTCACCATATATGCCACAATATCCCCACGGTCCACAGTACAATTACAATACAACG
AATCTAATATCTCGAGCACCGAGACCCAATCTCTACCCACAGTTAAGTCAGACGGCCAAT
TATCCACAGATACAACAAAACGCACAACATAAAACTGTGAATAACAACAATAGTGTTAAA
AAGCAACCTCCGGTTAAAACTGAACCTTCAAAGGACAGTGCTGAGAATGCTGTCAAGTCG
ACTGAGTCCGACGAGTCCACGGCCGGCGGGGATCCAAATCTGATAGACTTCGATAGATCC
CAAGGTAGCGTAAGAGTGAGTGTTTTAGAGGCATTCGACCCACTACTAACAGAAAACGAT
CACGATCTAACAGTCCCAAGCGACACGAGCAGTGTGTATGAGGACTATGATCCTCTCGAC
TTTCTGTACGGGGAGACAGAGCTGAGGGAACCGGTGTACTCCACCGTGGACAGGAAGACG
GCGCCCGGGCCTTCGCCCCACAAGAAACTACCATCACCCACGCTGACTACTAGACATACC
ACGAATAAACTATACGACTGCATCGTGAAGTCCAGGACCAAATTTTACGACAGCGAACAC
GAAGCGTTCCTGAAAATGGTTCTCGACGTCAGAAAAAAATTCATATACACGGATGTTAAG
ACGAACCCTGGTCACGTGATAGCGGCCAGGTCCGGGGGGAGGTACCCACCGAACACTAGT
ATTAAGATTCTAGTCCACAACACACACACAGACGAACCGATCACATTCACGTCAGACGTG
GAGTCGACGGTGGAGCACGTTATATTGACTGTAGTGTGCTCCCTCGACGAGGACATAAGG
GAAGACATGTCCGGTTACATGCTAAGGGTGTGGGGCGCCAAAGAGTATTTGACCCCCGGC
AGCGTTCTCAGTGAATACGACTACATACGGGAATGCGTTCGTCTAGAGAAGGACGTGTCT
CTATGTCTCTGTGAGGGTAGAGACGACTCCCTCGCCAGGACTGACAGAGACGACGCTAGA
CACGCCCATCTCACTCTAGACGACCTCATACCTGCCCAGGGCTCCCTACACATGTTGTCG
TTTGACAACCTCTCTATCTTACTCGAGACTCTGGAGGGTGAGTTGTCCCGCGCCGTGGGT
GTTGTGGGTGCGGAGGGTACGTGTTCACCGTCGGCCGTGTTCCAGGCCGTGAAGGCCATC
TGTGCTCTGGCCGGGGGTCTAGTGACCTTGCACCTCACCTACACACTCAACGCATTCGCT
CAGGCTTGCACGGCGCAGCCATCTAGCACCGTCCGTCCCGAGATCCAGTCGGAGTCGGGT
CCGTATTGCGCGGTGTCCCTCCGTGCGGCGAGCCCCCGCGAGGCGCTCTCCCTGCAGTGC
GCGAGGCTCCGGGACGCCGTGCGCGCCCTGCTCGCCTTGTACACAAGAGCTACGCTGCTA
GACTTCCGACTGGCCGACGGACCATTCGCCACGGACCACGAAAAAGCGGTATCCTCACAG
TCAGTGACAGAGACGATGTTGTTCTGTATCGAGGCCGTACACAGCCTGCCGCTGTGTTGG
ACTCACGACGAGTATCTATTCCACGCTCAGATATACTACGGAACCCGGCCGCTGAAGACC
CTCCACGTGACACAGGAATCCAAGATAGAGTGCGGAGGCTTCTATCCCAGGATCATATTC
GATACCTGGTTAAACCTGGAAGATACCACGATCAGTTCGTTACCTCGGGAGTCCCGCCTG
GTGTTGACGTTGTATGGCCGGACCCAGAAGAGTGAGGACACAGGGACCGACCAGGCCGGC
GAGGCTGATGTGAAGTACGAACTGCACGAGCTCGGCTGGGCAGCGATACAGCTGTTTGAT
TATGATGGAGTGCTGTCTCACGGCCAGTACGTGTTGCCGTTGTGGCCGATGTGCTGCGAT
CGTCGTATGGGGCCGGCGCCACCTCTCCTGCATTCACCGCCCCCACCATATCCGGTTGTC
AATATCGAAATCCCGAGTTACAATCGAAATGGCGTCCGATGGTCGGACGGCGATGAGAAT
AATAAGAGTTCACAGCCCGAAGGTCTGCCAGCGTTTGATTCACTGGACGGGCACACACAG
CAACAGTTGCTACATCTGATAGAACAAGGAGCATACCAAAGAATGCCCACCGAGGGAAGG
GAGATATTATGGGAGAAACGTCAGTACCTCGTCCAAATCCCGGGTGCTCTGCCCCTCGTG
CTCTTAGCGGCGACTAGCTGGGCTGGGGAGCCCCGTGCTCAGCTGGTTTCACTTCTAGAA
CGATGGGAGAAACCTTCACCCACAAACGCTATGCATCTACTGCTGCCCTGCTTTCCAGAC
GCGGCGGTCCGTAAGTTGGCGGCGAAGCTAGCGAACGGCATGTCGGACGACGAACTGATG
AGAGTGTTGCCCCAACTCACACAGGCGTTACGTTACGAGACGTACGAAGCTAGTCCGTTA
GCAGAATTACTGCTCTCGAGAGCGCTGCGAGCGCCGGCCGTGGCTCATAAATTGTTTTGG
CTTCTAGTCCATTCCCTGCCAAACGTACCACAGGCTCCAAATCAAGAATTCCTAGGTATA
ACTCTAGAGGATGCCTGCATGACCTTCACCTGGAGAAGTCGACTGATGCTGCGAGCGTTG
CTGGCCATCTGCGGAGAAAACCTTAACAAGACACTACTGAGACAGCAGCTATTAGTCAAG
ACGGTAGCGGACGTGGCGATGTCGGTGAAATGCGCTAAAGAGAATCTCCGGCAGAGGGCG
CTGTACGGGGGAGGGGAGAAGTTGGCGGCCGTGCTGAGGCAGGAGCCGGTCGCTCTGCCG
TTCGCCTTACACCGATATGTACACGATATAGACATCAAGTCATGTTCATACTTCTCGTCG
AACACTTTACCGCTAAAGATCAACTTCATAGGCGTCGACAACGCAGTCGTTCCTGCCATG
TTCAAGGTCGGTGACGATTTGAGGCAGGACTCGTTGGTGTTGCAAGTCATCAAGGTTATG
GATAATCTGTGGCTTCAGGCCGGTTTGGATCTGAGAATGGTGACCTTCCAAGCCCTGCCC
ACCAGCAATCAGAGAGGAATGATAGAGATCGTATCCGAAGCGGAAACTCTTCGAGCGATC
CAAACGGAGTGGGGATTGACGGGGTCGTTCAAGGACAAACCTATAGCTGAATGGCTCGCC
AAACACAACCCCTCGGAACTAGAGTACCAGCGGGCCAGGGATAACTTCACGGCGTCGTGT
GCTGGGTATAGCGTGGCCACCTATCTGCTGGGTATCTGTGACCGCCACAACGACAACATC
ATGCTGAAAACCTCCGGACACCTCTTCCACATAGACTTCGGCAAGTTCCTGGGTGACGCG
CAGATGTTTGGCAATTTTAAAAGGGATCGCGCTCCATTCGTCCTCACTCACGACATGGTG
TACGTCATCAACGGCGGCGAGCGACCCACGCAGCGCTTCCAGCACTTTGTCGAGTTGTGC
TGCATGGCGTTTAACATAGTCAGGGCGCATCACGATCATATATTGGATCTGTTCGCACTG
ATGGCGATGTCTGGTGTGTCGGGCGTGTCTAGTGCGGCGGTGTGCTACGTCCGAGCCGCC
CTGCTGCCGGCCGCCACCAACGCCGAGGCAGCCGCGGCCTTCGCTAGGCTCATACACTCC
TCGCTCAAGAGCAAATTCACTCCTATTAACTTCTTCCTCCACAACCTGGCCCAGCTCCGG
GCGAGCGGCGACCAGGGGAACAGCACCTCCGAGCTGCTGTCGTTTATGCCCCGGACATAC
ACCATGGCGCAAGAGGGTCGCCTCGTCCGCGTAGAGTGTCTCAGCTACGAGAAGCGCTAC
GACCCGGAGAAGCACTACGTGTACGCGCTACGAGTCTACAGACAGGGACAGGCCACGCCC
TCCGTCCTGTACCGCTCCTACAAACACTTCACCGAGCTCTATCAAAAGATATGTCTGCAC
TTCCCCCTGGCGAAGGTCCACAGGTATTATGACAACCAATATATTTAG
Protein sequence:
MSEYDLQFEADLEKAQALSLESLALEQFRRQKQLSNSDNVRETVSSIRRREEPDGAPPAL
PPPPRKPPRKTSTSENSRSSGTSPTRNTSSDLISFTSPTAKSPPNNSHASLKEYLDQLSK
LGQQTEDLTINAPEQSTTMNNQYNHRPSFPYNAQYNYPPPYTPMPPYPPSTPYGMPVPMG
PMPNYPYYPIPAHHDQPPTYVVTNPPMYAPTIPYNQTRMASPSPYMPQYPHGPQYNYNTT
NLISRAPRPNLYPQLSQTANYPQIQQNAQHKTVNNNNSVKKQPPVKTEPSKDSAENAVKS
TESDESTAGGDPNLIDFDRSQGSVRVSVLEAFDPLLTENDHDLTVPSDTSSVYEDYDPLD
FLYGETELREPVYSTVDRKTAPGPSPHKKLPSPTLTTRHTTNKLYDCIVKSRTKFYDSEH
EAFLKMVLDVRKKFIYTDVKTNPGHVIAARSGGRYPPNTSIKILVHNTHTDEPITFTSDV
ESTVEHVILTVVCSLDEDIREDMSGYMLRVWGAKEYLTPGSVLSEYDYIRECVRLEKDVS
LCLCEGRDDSLARTDRDDARHAHLTLDDLIPAQGSLHMLSFDNLSILLETLEGELSRAVG
VVGAEGTCSPSAVFQAVKAICALAGGLVTLHLTYTLNAFAQACTAQPSSTVRPEIQSESG
PYCAVSLRAASPREALSLQCARLRDAVRALLALYTRATLLDFRLADGPFATDHEKAVSSQ
SVTETMLFCIEAVHSLPLCWTHDEYLFHAQIYYGTRPLKTLHVTQESKIECGGFYPRIIF
DTWLNLEDTTISSLPRESRLVLTLYGRTQKSEDTGTDQAGEADVKYELHELGWAAIQLFD
YDGVLSHGQYVLPLWPMCCDRRMGPAPPLLHSPPPPYPVVNIEIPSYNRNGVRWSDGDEN
NKSSQPEGLPAFDSLDGHTQQQLLHLIEQGAYQRMPTEGREILWEKRQYLVQIPGALPLV
LLAATSWAGEPRAQLVSLLERWEKPSPTNAMHLLLPCFPDAAVRKLAAKLANGMSDDELM
RVLPQLTQALRYETYEASPLAELLLSRALRAPAVAHKLFWLLVHSLPNVPQAPNQEFLGI
TLEDACMTFTWRSRLMLRALLAICGENLNKTLLRQQLLVKTVADVAMSVKCAKENLRQRA
LYGGGEKLAAVLRQEPVALPFALHRYVHDIDIKSCSYFSSNTLPLKINFIGVDNAVVPAM
FKVGDDLRQDSLVLQVIKVMDNLWLQAGLDLRMVTFQALPTSNQRGMIEIVSEAETLRAI
QTEWGLTGSFKDKPIAEWLAKHNPSELEYQRARDNFTASCAGYSVATYLLGICDRHNDNI
MLKTSGHLFHIDFGKFLGDAQMFGNFKRDRAPFVLTHDMVYVINGGERPTQRFQHFVELC
CMAFNIVRAHHDHILDLFALMAMSGVSGVSSAAVCYVRAALLPAATNAEAAAAFARLIHS
SLKSKFTPINFFLHNLAQLRASGDQGNSTSELLSFMPRTYTMAQEGRLVRVECLSYEKRY
DPEKHYVYALRVYRQGQATPSVLYRSYKHFTELYQKICLHFPLAKVHRYYDNQYI