New model in OGS2.0 | DPOGS215820  |
---|---|
Genomic Position | scaffold815:- 7678-24222 |
See gene structure | |
CDS Length | 7233 |
Paired RNAseq reads   | 773 |
Single RNAseq reads   | 1815 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007036 (7e-47) |
Best Drosophila hit   | telomere fusion (2e-101) |
Best Human hit | PREDICTED: serine-protein kinase ATM-like, partial (5e-143) |
Best NR hit (blastp)   | PREDICTED: similar to mutated in ataxia telangiectasia [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to mutated in ataxia telangiectasia [Nasonia vitripennis] (0.0) |
GeneOntology terms    | GO:0000166 nucleotide binding GO:0005524 ATP binding GO:0016301 kinase activity GO:0016740 transferase activity GO:0016773 phosphotransferase activity, alcohol group as acceptor |
InterPro families    | IPR018936 Phosphatidylinositol 3/4-kinase, conserved site IPR015519 Ataxia-Telangiectasia Mutated IPR000403 Phosphatidylinositol 3-/4-kinase, catalytic IPR003152 PIK-related kinase, FATC IPR014009 PIK-related kinase IPR011009 Protein kinase-like domain IPR016024 Armadillo-type fold |
Orthology group | MCL15801 |
Nucleotide sequence:
ATGTCTTTAGAAGAAACAGTGCGAGAAACATGTGTAAATTTAACATCAGTTCGAGCTACA
GACAGAAAAAAAAGTGCAGAATCACTAAAAGACTCCCTTTCAAGAAATGCTGTTCCTACA
TTATTGACAAAAAATACTTTAAATAAGAAAGGATACAACTGGAACAATGTTTTTGATGAC
ATCAATGACTACATCATGAAGGAAACTGAGAAGTTTGAATCATCAAAAACTTTTCAGACA
ACGACAGTCCCCCTTTGCACCAGTTTATTGCACCTTTGTTTAGCTGGCTCTAACAGAGGT
AAAGCTTATATAAAATGCGAGAAAATAACAAGAGCTTGTTTAGATATATTGAACAACACC
CGTCTCACTAACGCAATAGGGGATGCATACATCAGTTTACTTTACAAACATGTCTTAAAT
AATGAACACCATTTAAGTTTCATCACACCATCAACCTGGGAAAAGATGAGACAGAAATAC
TTTGCATGGTTAGTTAATGGAAATATAACGAATCTGAACGTGGATTGTATAGAAGATTTC
ATATTGAGGCTTATAAGTAATGATAATATATCAATACACACAAAATCGTCCGCTGACAAT
GAAAATGTATACGACGTCATATTTAAACATACGGACAGAAGTCTATTGTACAATGAATTT
GAGTATCGAGTGACTGATAAAGAAAACGAAAGCGTTCAAGATAAAGAACACTTTGAGGTG
AACTCTGAATTATATGCCGTTATAGAAGATTATCTAGAGAAAACAATTATTATAAATGAT
GATGTTGACCTTATAAAAAATTGTAAATACTTGGAAATCGTTATCGCGTACATCAATCTC
ATATTGAAATTCAAATTGAAGACACCTAATGAGGTTGAATCAACTCTCATATACGTTAAG
CTTCAAAAAGCCTTAGAATATTTGTACACATCGCTGACAAAGGTTCTTAAATCTGGTATA
CAAATCCGTGATAAGATAGCAACACTGAAAGCGGTACAGGGCATACTCATGAAACATTAC
GAACCTTTACTTAACAAAGTCATCAGAAGTTACATAGAGGAGGATTGTTTTAATTGTATA
CACGACGTCATAAGACAAGATGTGCCCAACGATGAAGGGGATAATTACTATGACGAGGAA
ATAGAGTTTACACCAGTGGGCTTGAAACTAAATTGCATTCACCTACTTGCGGCATATTGT
AGACATCGCAGTGAATTCACAGGAGACATTATGAAGTGCATATCAGATCCTGATCTGTAT
AACTTTTCAAACAGCTGGGAGATTGAGGGCGCATTAAAATTCATGCAAATTATTAACGAA
GTTAGCATGGAACGCTCATCGATAGAACTATTGTTCGGACTGATTAAAAACATGTGCAGA
GAACTGTTTAGACGGCCAAAAGCAACACGAGGTTTGCTTCTGATCGTAAAAGAGATGCTC
GATAAAATTTGGTCTAGTGATCACGACGATGAAATACTCCAACAGAATTGTTTCATTATG
ATCGACAGTTTCTCGCAGAGATGCAAAAACCTTTATTATCCACCCGACGTTGCCGCTCTT
TTATACGAATGTATCGCTAAGATCGTTGAACTGAATAATAAACGAAATCTAGACCGACGG
TTCAAAGACGTCTTAATAGATGCTATAAATAGAGACAATCATAAAATCAGGTTATACTGC
TGTCATTTATTAAGGCTCATGATTGAGGGATTCTCAGAAGACGACTTCCAAGAATTGATA
GCGAAATTAAAGAATATATTCGTTATAAACGTTTCAGATAACAAGGAAACCGTGCTACGA
GATGAATTAATGAATCGGACAACCGCTGTTTTACACTGTTTCTATGTCATGGGATTGTCA
AAACGATTTTGTATACATGAAATTGTCATTAAAGTGATCGAGTTTCAAAGCGAGAAGTGT
ATGGACCAAGCTATAGTGAAAAAAGTCCTCAATATCCTAACTACAACCGTAACAAATAGT
AGTATAGAAGTGTATATGAACGACAATATTTTAAGAATATTAGAATACTGGTTCCAGAAT
AATAAACAGTTTGAAGATCTCCCGTTGTTTCTATTCGGTTCTGAGAATATAGACGAGTTA
ATTCAAACGCATCTTAAATGGCTTGTGGCCACTGACATCTTGTGGCGAAGTAAGGGGGTG
GTAGAAAATAGCGCTGTTTTAAAATACATTACCGGACATTCACTTGAAAGTGCAATTGAA
ATGTGCTTCTGCAATATTGTAGCTCTGAGTATACCCTATATTGTGATAGAAAAATATAAA
ATAGAAACTGGAAGATCAAACGAATCGAGGACGGCGGAAGCTAGCAAAATGTTCCAATCA
ACAAGGAAGATTTTGAAAAACGATAAATGGAGTAATTTGTTTGTTGAGAATTTACGAGAT
TTATTGTTATTGACAGCTGAGAGTGTTAGCGATCACGACGATGCCTCTCGGCTGTTCGGT
TTCCAGTTGATGAACAGAACTGATTCGTACACATATTCGAAACACGTGTTTTCCGGTATA
TTGGAATATTTTGGGGAACTCATCGATGGATGTATCATGCAATATTTATGTGAAAATCAG
CCGCTGGTTCTTCTTAACGTCCTATTCAAGTTATGGAATAGAGTATTACGTGAAAAAATT
TTCGCGTACAGACTTTTGGCCTTTCATGCTTACTTGGTGTTCATAGACAAGATTCCGTTC
GGCTATCCATCCGATGCGATTCTCTACACATTTGCCTGCGTCAGTATATGTAACGCTTTG
AAGGAATCCAATACAAATGATGATGTAAAAATCTTCGTCGATGGTTTACAAAAAATATCA
AAAAGAGTCACGGACAATTGGACAATGTGTAACGAAAAATCTAAAAAGTTGATGATGTCA
AAAATAATAACAATTTTAGATTTAAAGATCTCAGAGGGTTTTGACGAATGCGATGGGTTA
TTATGTTATATCACAGAGGATATAAAAAAAGAGTTTGCGGAGAACGAGGATGTAGTGGAT
TATATGAAAGTTATGTCTCAGGGTACATCGAAGATGCATCCAATGATGTCAAAAGTACTC
TTTTGTGATAAACTAAAAACTTTTACGTCCAATTTGTCGAATGCAAGCCACAGAACACTT
GAAAAATTACATTTATTAATTAAGAGTAATAAGAAATTTATGAATGATATTTACATGGAA
GCGAGTGACAAGGGATTTTCAGAAGATTGTAAAAATAGTGTGGTGCATCAAATAATATCC
ACGTTATCATATATAATAAAGACGACGTCTTATGAAAAGGTCATCATAAAATCTTGTGAG
TGCTTAGCAGAGATCGGGTGTTACGATATAAAAACACTCGTGACAGTCCCTCCTACAGAT
AAAAGCAGAATTGTGGATGTTAGTCCAAAGCAGTACTTTGCCGAGTCAGCATTGTCATCC
CTGGCAGAACATCTGTTTGATGACGATCCTACTTTAAGTAACGCTATAGCGATAGCAATT
AGCGATCTTTTAATGCACCGGGACGGAAAAATAGCTTTGGATGCCGTGGAAAATGGAAAA
GATATGTTGTTGTCTCTATCGACGTCTAATTGTAAAACAAATGCTGTATACAAAGTGGAG
AATATAAAGTTTGATTTATACAACGCTATAGATTACTGGATACCAAATAGAGATGAAAGT
CTTGACCAATGGGTCACGAGATTAACTTTGGCTCTGCTAGATCTGGTTTCATCATCCACG
AATTATTTGAGATCATTGATTACCGTTTGTGCGAAGAAGCCAAGCATATCCAAAAGGATT
ATGCCAGCGTTGATGGGTTTGATCCTTTCTTGTTCGACCGATGTGCACGCAGCAGTTTTT
GGAGGACAAATAAACGAAGTATTTAGATTCATTTGGAGCAATAGCTTCGATGACGATTTT
GAAAGTAGTGAATTCGGGGGCAGCCCGAAAAATGCTCGAAATATAAGCCACGATCATAAA
ATGATAGTACATTATCTGTTGGATATCGTAGACTTTGTCCGTATACAGATGGGGCATTGC
AAGTTTTGCATACAAGGTCGTAAAGTGAAAACTTTGAACTACTTAAACCTGGAATACGAC
AAAGTGTCGTGGGGCGCGACTGTCTCGGAACAGCCTCTGTTGGCAATTTTCTATGGGGAG
CTGTGGGCGGCCGCCGCAAACGGTGCCGTACCGCCCGCTGCGCCGTGTGACGTCACTCAA
CTACCGGGAGGAGACCACGTTCAGAGAATATTCAGGAGATGCTATGTGTCCATAGGTGAG
ATGGACGCCATAGATGGATGCGGCACTGCTCACTTGACTATCGAAAAGGAGAAACGGAAG
CATCTCATTAATACCGGCCAATATTCTGATGCGTTGCTTTTCCTAGACATAGCACTTTCT
CGAGGGAACGAGGATGATAATGTGTTATATGGGGTCGTGACGTCACTGCACAAGTTGGGC
ATGCATCATTTGGCGCTACAGTATATCAAATCTTACCCAGAAAGCGACAAGCTTGATGAT
ATTAAATATGACTGCTTGTCCTATCTTGGTGATTGGAGCCACTTTGTTGATACCGTGGAA
CTTGAAAACAAACTTACCATAGATAATATCAAGCAAGATTCGATTATTAAAGCGATGCGG
TATTCTTGCTTGAAAGATTGTCTGAACATGAAACCATCTGTGGATTTCGACATGAAACTC
GAGAAACCGTTTAACAGGGCTAAATTAGCTATAGCCAAACTCTGCCAGAACCTTAACATG
GAAAATTGTCAAAGTGTCTATAAGGTTGTTTCATATTTGCATCTATTTAGTGACATTGAA
CAATACTTTTCGGTGAGATGTGGAAAGATGTCTATATTAGAACTGATAAGAAGATGGAAG
GTCGATGATTTACCTCTTTTCAGTGATTTTAAACATGTCGAAGGTCTTATATGTCAGAGG
AGTTTAATTCTTGATCACGCTGCTCAAAATTATTCCATTTCTACAATCACTGATCTACAG
TTACAATACGCAGAACTGGGCCTATCAAACAAAAGAATCCAAATGGCTCAGCGTCTTGTA
GCCTCTGTAAAAAATCATCTATCATCCAAAAAAGTGGCGCTACTAGAGAGTCAAATTTCG
TGGGCCAAAGGACATAAGGACATCGCCCTATCTCTACTCAACGGAATAATTATACAAGAA
AAAGAAGATCCCGGCCTTATGGCTATGTCTTTAAGGCAATACGGTCTATGGATGGCAGAG
AGTAAAAGAGAGAATGCGAGGGATATAATACATAAATACCTTGAGAAGAGTCTTATCGCT
CTGAACAGTCGTGAAGATGTAACAACGAGATTTAAAGTGTACTACGACATAGCTACTTTT
GCTGATGCTGAGTATAAACAGGTTGTATCTTACATGAATTCTTCTGTGTATGAAGATAAA
GTAAAATGTGTTGAGAACATGAAAGGCGCAGAGGCTTCATTAAACACGTCCCAACAAAGG
CTAACGAAGGATCAAACCAGAGCTTTGAAGACTAATCAAACCTTCAGACGTTTAGATGAG
GCAGACATCGTTAATACGAAGGGAGAAAAGGAGAGTTTTCTTAAAATGGCGTTGAAATAT
TATCTATTGTCATTGAAAATATCTGATGAAAACAACCTGTCCGTATTTCGAGTGATTTCT
TTGTGGTTTGATAACCCGGGTTTCGAATTTGAAGACGAAAACTTAGATAAACTTCTCCAT
GAAGTACCATTGTGGAAGTTCATCACCGTTCTACCCCAACTAGCTCCCAGGCTCTCCAAT
GAAGATACGCCTTTCGCTAAACAATTAAACAAACTAATAAAGAGGTGTGCACTGGAGCAT
CCCCACCACACTCTCCCCATCCTTTTCAATCTTAAGAACTCTGATAAGGACAGCATCATA
TTGAACGCAAGTTCTTCAGTCTCACTTCCGAGCTCGGTTGAGCCTCGTATTTTAGCGGCG
GGAAGAATAATACAGGAGCTTTCTGATACAGAAATAGCCCTTCCCATATCCCAAATGGAG
CAGATCTGTAATGCTATAATAAGCTTCGCTTACTACGTTCCGAAATCTAAAGACCTTAAA
GCTCAAACGATTCCGAGAACGGAGCCAATATCGGCTTTAAACACTTTGAACGCTGTTCCG
ATACCCACCGATACGATACCGATAAAGAAGGATTCTAATTATTCTCAAATAGCTACCTTG
TCTTCATTTGAAAGCAGCTTTGAACTAGTTGGAGGTATCAACTATCCGAAGAAAATATCG
TGCTTGGGATCCGATGGGAAGAAGAGGATTATGCTAATTAAGGGGGAAGATGATCTCCGC
CAAGATGCTGTGATGCAACAGGTCTTCACCATCGTTAACACGCTCCTTGAAAAGAATCCA
ATTACTAACAGGAGTAAACTCCTAATACGTACTTATAAGGTTTCTCCGATGTCTCGACGG
TCCGGTGCTCTGGAGTGGTGTGTAGGAACCTCGACCTTGGGTACCTACCTTCTAGACGCA
CACAAACGATATAGGCCACAGGATATACCGCCATCTACCGCCAGGGGTAAGATAAAAACT
TACCAAGAAAACCGGGCGTCCAATAAACGCAAATTAGAACTCTTTAAGGACATATTGAAG
GCGTTTAGGCCGGTGTTTCATTATTTCTTCACTGAAAACTATCTCGATCCAGTCACGTGG
TATGAAAGAAGAGATGCATATACCAGAAGCGTTGCGACTTCTTCCATGGTGGGGTACATT
ATGGGTTTGGGCGATCGACACGTACAGAACATTCTGATCGATGGGACGACTGCTGAATTA
ATACATATTGACTTTGGTATAGCATTTGACCAAGGAAAAGCATTAAATACTCCAGAAACC
GTGCCATTCCGCTTGACTCAAGACATCATAGCAGGTTTTGGATGTAGCGGAGTGGAAGGC
ATTTTCAGACGGTGTTGTGAGAAAACCCTACAATTGCTCCGAGATCATCAAGAGACATTG
CTAACTATATTGGAGGTGCTTCTCTGCGATCCGTTATATTTTTGGATAGTATCTAAGAAT
ACTAAATTAGAGGAATCAAATTCGGAAAGTTCTTCGAGCAGTGGTCTGGCGTCCAGGGCT
CTGCTGGCCGTCCGCAGTAAGTTGAGCGGGGCGGAGGGTGTGGGTGGCTCTGGGGGCGTG
TCCGTCACCGGTCACGTGGCCAGACTCATCAGCGATGCCAGCGACCCCGCCAACTTATGC
CGAATGTTCCACGGCTGGCAAGCCTACTTATAA
Protein sequence:
MSLEETVRETCVNLTSVRATDRKKSAESLKDSLSRNAVPTLLTKNTLNKKGYNWNNVFDD
INDYIMKETEKFESSKTFQTTTVPLCTSLLHLCLAGSNRGKAYIKCEKITRACLDILNNT
RLTNAIGDAYISLLYKHVLNNEHHLSFITPSTWEKMRQKYFAWLVNGNITNLNVDCIEDF
ILRLISNDNISIHTKSSADNENVYDVIFKHTDRSLLYNEFEYRVTDKENESVQDKEHFEV
NSELYAVIEDYLEKTIIINDDVDLIKNCKYLEIVIAYINLILKFKLKTPNEVESTLIYVK
LQKALEYLYTSLTKVLKSGIQIRDKIATLKAVQGILMKHYEPLLNKVIRSYIEEDCFNCI
HDVIRQDVPNDEGDNYYDEEIEFTPVGLKLNCIHLLAAYCRHRSEFTGDIMKCISDPDLY
NFSNSWEIEGALKFMQIINEVSMERSSIELLFGLIKNMCRELFRRPKATRGLLLIVKEML
DKIWSSDHDDEILQQNCFIMIDSFSQRCKNLYYPPDVAALLYECIAKIVELNNKRNLDRR
FKDVLIDAINRDNHKIRLYCCHLLRLMIEGFSEDDFQELIAKLKNIFVINVSDNKETVLR
DELMNRTTAVLHCFYVMGLSKRFCIHEIVIKVIEFQSEKCMDQAIVKKVLNILTTTVTNS
SIEVYMNDNILRILEYWFQNNKQFEDLPLFLFGSENIDELIQTHLKWLVATDILWRSKGV
VENSAVLKYITGHSLESAIEMCFCNIVALSIPYIVIEKYKIETGRSNESRTAEASKMFQS
TRKILKNDKWSNLFVENLRDLLLLTAESVSDHDDASRLFGFQLMNRTDSYTYSKHVFSGI
LEYFGELIDGCIMQYLCENQPLVLLNVLFKLWNRVLREKIFAYRLLAFHAYLVFIDKIPF
GYPSDAILYTFACVSICNALKESNTNDDVKIFVDGLQKISKRVTDNWTMCNEKSKKLMMS
KIITILDLKISEGFDECDGLLCYITEDIKKEFAENEDVVDYMKVMSQGTSKMHPMMSKVL
FCDKLKTFTSNLSNASHRTLEKLHLLIKSNKKFMNDIYMEASDKGFSEDCKNSVVHQIIS
TLSYIIKTTSYEKVIIKSCECLAEIGCYDIKTLVTVPPTDKSRIVDVSPKQYFAESALSS
LAEHLFDDDPTLSNAIAIAISDLLMHRDGKIALDAVENGKDMLLSLSTSNCKTNAVYKVE
NIKFDLYNAIDYWIPNRDESLDQWVTRLTLALLDLVSSSTNYLRSLITVCAKKPSISKRI
MPALMGLILSCSTDVHAAVFGGQINEVFRFIWSNSFDDDFESSEFGGSPKNARNISHDHK
MIVHYLLDIVDFVRIQMGHCKFCIQGRKVKTLNYLNLEYDKVSWGATVSEQPLLAIFYGE
LWAAAANGAVPPAAPCDVTQLPGGDHVQRIFRRCYVSIGEMDAIDGCGTAHLTIEKEKRK
HLINTGQYSDALLFLDIALSRGNEDDNVLYGVVTSLHKLGMHHLALQYIKSYPESDKLDD
IKYDCLSYLGDWSHFVDTVELENKLTIDNIKQDSIIKAMRYSCLKDCLNMKPSVDFDMKL
EKPFNRAKLAIAKLCQNLNMENCQSVYKVVSYLHLFSDIEQYFSVRCGKMSILELIRRWK
VDDLPLFSDFKHVEGLICQRSLILDHAAQNYSISTITDLQLQYAELGLSNKRIQMAQRLV
ASVKNHLSSKKVALLESQISWAKGHKDIALSLLNGIIIQEKEDPGLMAMSLRQYGLWMAE
SKRENARDIIHKYLEKSLIALNSREDVTTRFKVYYDIATFADAEYKQVVSYMNSSVYEDK
VKCVENMKGAEASLNTSQQRLTKDQTRALKTNQTFRRLDEADIVNTKGEKESFLKMALKY
YLLSLKISDENNLSVFRVISLWFDNPGFEFEDENLDKLLHEVPLWKFITVLPQLAPRLSN
EDTPFAKQLNKLIKRCALEHPHHTLPILFNLKNSDKDSIILNASSSVSLPSSVEPRILAA
GRIIQELSDTEIALPISQMEQICNAIISFAYYVPKSKDLKAQTIPRTEPISALNTLNAVP
IPTDTIPIKKDSNYSQIATLSSFESSFELVGGINYPKKISCLGSDGKKRIMLIKGEDDLR
QDAVMQQVFTIVNTLLEKNPITNRSKLLIRTYKVSPMSRRSGALEWCVGTSTLGTYLLDA
HKRYRPQDIPPSTARGKIKTYQENRASNKRKLELFKDILKAFRPVFHYFFTENYLDPVTW
YERRDAYTRSVATSSMVGYIMGLGDRHVQNILIDGTTAELIHIDFGIAFDQGKALNTPET
VPFRLTQDIIAGFGCSGVEGIFRRCCEKTLQLLRDHQETLLTILEVLLCDPLYFWIVSKN
TKLEESNSESSSSSGLASRALLAVRSKLSGAEGVGGSGGVSVTGHVARLISDASDPANLC
RMFHGWQAYL