| New model in OGS2.0 | DPOGS203254 |
|---|---|
| Genomic Position | scaffold1201:+ 57285-73670 |
| See gene structure | |
| CDS Length | 7494 |
| Paired RNAseq reads | 898 |
| Single RNAseq reads | 2147 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA007036 (0.0) |
| Best Drosophila hit | meiotic 41 (0.0) |
| Best Human hit | serine/threonine-protein kinase ATR (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to esr1 protein [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to esr1 protein [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0007131 reciprocal meiotic recombination GO:0016321 female meiosis chromosome segregation GO:0007126 meiosis GO:0048477 oogenesis GO:0007348 regulation of syncytial blastoderm mitotic cell cycle GO:0000077 DNA damage checkpoint GO:0007133 meiotic anaphase I GO:0006281 DNA repair GO:0004672 protein kinase activity GO:0016310 phosphorylation GO:0016301 kinase activity GO:0007444 imaginal disc development GO:0001700 embryonic development via the syncytial blastoderm GO:0009314 response to radiation GO:0007093 mitotic cell cycle checkpoint GO:0007349 cellularization GO:0007088 regulation of mitosis GO:0000075 cell cycle checkpoint GO:0008360 regulation of cell shape GO:0007015 actin filament organization GO:0005488 binding GO:0004674 protein serine/threonine kinase activity GO:0000723 telomere maintenance GO:0030261 chromosome condensation GO:0045002 double-strand break repair via single-strand annealing GO:0045003 double-strand break repair via synthesis-dependent strand annealing GO:0006974 response to DNA damage stimulus |
| InterPro families | IPR011009 Protein kinase-like domain IPR012993 UME IPR000403 Phosphatidylinositol 3-/4-kinase, catalytic IPR018936 Phosphatidylinositol 3/4-kinase, conserved site IPR003151 PIK-related kinase, FAT IPR003152 PIK-related kinase, FATC IPR014009 PIK-related kinase |
| Orthology group | MCL12672 |
Nucleotide sequence:
ATGGAAGAAGAGAGTGATGGGCCTTTTAACGTTTGGCAAATGTTTAATGCTCCAATAAAC
GTATTGTTTCAAAACCTGGAGCATGCAGAAGACGGATTGGTTAATTTGTTGACTTCCATT
TTAAAGTTATCAGGAGACTTATCTGAAGTTTTGGTTCCTAGACCAGGAGGTTTTAATTGT
CCAGAATCATACTATTGTGCTTTTAACACATGGCTTATTGGAAGATTATTTTATATAAGC
TCCGTTGAAGTACTCCACAGGATACATGAAACCAGCAAAGATGCCCAACTAAAAATTTTA
AATATTTTATGTTTTAATGGAGCTTCGTTTTACAAAAAAATCCACTCAGAATATTATACA
ATTATAACTAATCTTTTACAATTTTACTGTGATTATGCAAGAAGTAATGAAACAGAGTTA
TTAATACAGAATTTTACTCCAGAACAAGTGCAAATACCAAATGTAAACATTAAATTGGAA
CCAATTTATGTAAAAGTTAATGATCTTGCTACATGCAAAACATTGATAAGCATAAATTTA
AGATTATTGGCAGAAAGTATCCCACCCAGTCTTCTTTGTAATATGACGGGTCATGAAAAT
GGTATTTTTGATAAAATATTAAATGCAATAGAAAATTTTAGTATAGATATGAAATTAGCG
GGATTAAAATTCTTCAATAATTTAATAATGAATATCAGTAAAGTACCCGTGAGTGAGTTC
CAAGAGATGTTTCCAAATATTTATAATAATCTACTCCTTATCATGAAAGCTTTGATACAA
ACATTGAATGTATTGCATGATAAAGGTGAAATTGATAATATGATGCTGATTGATTTTAAT
TTATTGTATATGGAACTCATTAAAATTGTAGGAGACAGTTTGAAAATTGAACACAGAGAT
GATTACACAGATATATGCAATGTTGTTCTTAGCAATACATCAAACAGAATCTTCAATAAA
GATCTCAAACTGCTTTGTTTATCGATGAGCGGAAAAATAAATTTAAATGATGATTTTACA
AATATTGTTGACATGGATTGTGATGAAATAAAGTGTTTGGCAGATTTCTATTGTTCTCAT
ATAGTTGAACATATTAATACCAAAAGAATAAAAGATAAAGCAACTGATTTTAATGAAAAT
ATTTATCTAAATAGAATTATATCTGTGATAACATCTGTAAAAGCTTGTGACCAACCGAAT
ATTGATATATTTCTTATGAATCATCACTTGTCAAGATGTCTAAGCGCTTTGTCTGTTTTA
GAGAAAGTTATTATAGAAAATGTTTATAAGTTAGAAACTAATATGATAAGTAAACAAGAA
ATTAAATTGGTCTGGTTAACTCTAGTAAGGTTGGTAAAAGAGAAGAAAAGTGTTATAATA
AGTAACGAAACAAGTACTAAATTGGTAATGAACATAATTGTGAGCACAGCAAGCTTGCAA
ACAGATCTGATAGCAGATGATGTGAACATTGTACTTCAACTCATATGCTTCCAGGACTCT
CATATGTTCACAGAGCAGAACTTTCTATTCACTAATAATATTAAGTTGAATATCTTAAAG
TATCTGTTAGTGAATAAACTGATTATTTCGAAGAACCCTGCACATGAGAAATGGAATAAG
ATTATAACATTCCTGTACAGTTCCCTGATGAGAAACAAAGATTCATTACAATCAAAACAG
ATTATCGAAATTTGTCCACTGTTTTTGGTAAACAAAATTTTATCTGCAAGCAAAATTATC
GGAGAGATTTTAATTCCCGCCTTCATGTCCAAAGAAACCAGATGTCAGATTGAAGTGTTG
AGAATATTACCAGCTATTGTGTGTATTTCATTAGGACATTATGATATTGTTAAAACCGTA
TCAAGCGGTAACAGTCAAGAAATATTCAGTAACGAAAATTTCTCTTTAAATGTTATTTGC
AAAAAATGCCATGATACGACTATAAAAAATAGCAAAATAGTCCACAAAGAGACTGAGATG
TTGAATTTCAGTAATACTTCATATTTGAGCGGTTTACAAAGTTTATTTGTAAAATTTATT
AATACAAAAGATACTGAATTTGGTACAGACTATTGGAATTTAGTTGAGAGGCTTTGCAAT
CATTACTATATATTTGATCACGGAGTATCAACAGATATAATGCAAGAAAAATATTTAGAT
GACGTCTTAAAAACTTTTAAACCATTCATTAACGTTCAGAATAACAAAGGCCAGGATTGG
ATATCAAATCGTGACATGATAATGAATTTGTGTGTGAATCTTCTTGTTAAGTCAACAATA
ACAAGTCTAGAAAATAATGATTACAATCACCAAACTCAGACTTTAGACCGGATTAAGAGT
CTAGGACTGTGTAATAATGAAAAATTAATTCTGCCAATAACAAAATTATTAGTCTACTTC
ATTATGCATCCACAGTGTTCTTTAGCACCGAAGGCTATCGTTTATTTGAGAGATGTTTGC
GAATTTCAAGATCTGACCCCAAATCAAGTGTATCATAGATATAAGAAGGACTTTTGCAAG
TTGTTTGTGGAGTGCAGCCTTTATAATGGAAAAGATTTTGCTATTTTTCTTCTAAAAGTC
GTTAGAGCATTCGGATTTGTTGGATACAGAGATTTTATATCCAAAGATATCCATCACTTT
TTACCTTATCTCATACCATACTCGGTGACTGTAAAGGAAGTTCCATCCATGATAGAAGAG
ATTGCGGTTCTGGTGCAATGCTCGGTCTCAGATTTCCTTATTGAGAGATTTCCGCACATA
TATGTCCATGTTTATTTAACGGAATCAAAGGAAACAGCAAAAAAATGCTTTGATATCATT
GAGAGATTGACTAAAACGTCCACTCTGAACCTAATAAAGAAACATTTAAGGGTTATTTTG
ACGGAGTTTCTTTTGCAGTACTGCTGTAATCCACAAAAAGTTTTGGAAGCTTGTAAATAC
TTAGCTTATCACGACCTAGACGCTTCTTCATCCCAAGGCAACATTCTCAAGAGTTCAGCG
CAAGTTGCAGACTTTCTTAATCCGAAATTTTTAGGAGTGTTAGCTTACTTCGATCACAAG
CTCGTCAATGCCAAAGTGGCTTTGTCAGTTAAACGTAAAGCGTTAAAAAGCTTTTCTGCC
ATAATGCAATTAATGGGTACTAGATATTTAACGCCATTAAGGTTTAAAATTTTGGCAACC
TTAAGATCGGCTTTGCCTCTAGCAAAGGAATTTCCTATTATTCTCGCAGAGGCATGGTCT
GCCTTCATCCACAACATTGACAGCAGTTCTTTGGGACCCCTATTATCTAATCTTGCGGCG
CCACTATTGCATCAGATGGATTACGCACCAAATGAAATTAATAGCATATTCCAATACATG
ATTCTGAAAAACGAAAACCTCCTTAGTTCTCATATATCAAATTTGTTCTTTTTGGAAGAC
TCGAATGTATCAGACAACGTAAGAGCAGTGATTAAGAGACACGTTAAGCGATCACAGCCG
GAGAGTTTCCAGGATCAAATAAAATGGTACTTGCAGCATTTGAATCACGACATACCCATT
ATTAAGGCCAACGTCTTCTGTCACATGGAGAAACTATTGAAGAATAATAGGAGTGAAATA
CATAGATCTATATTCGGCGGCAGAGCGATTGAGGCGGTCATTGTTGAACTCATTGATTCT
TTATTGATTGGTTGCAAGGACATTAACCCTCAAGTGTCCCTGGCGAGTGGTTCCTGTTTA
GGTCAACTGGGTGCCATAGAAGCTGGTCATCTCCCGCGCCAGTACGTCCAACCTGATAGA
TCTCCATTCGCCTTCTCCATTAACGACGATTGCTTTGCCGCTACGGCTCTCACTGAACTG
GCTAGAGCTTTTCAATACGAGAAGGATACTATGAATATGGACTGCTACGCTCTAAGTATA
CAGGAGATATTGAAAACTTATGGTATATCCCCGAACGGCTCTAAGAAGGAAGTGTGGGAT
AGTTTCTCAGAAAACATGCATCAGTTAATGTCTCCACTGCTGAGCTCTAGGTACACACTG
GCCTATCCGTCACAGCCAAAGAAAGTTCATCCTTTATTCGGATCGATGTACGCCACTACG
TTTTTGGAATGGGCACACAATTGGTCGGGACAGCTGATTGATGTAGTAGAATCCGACAGT
ATAAAGGATCTTCTTCGTACAGTTCACCCCAGTATGCGGCGTGACGTTCGAACGCTGTTC
CTCTTCCTTCCATATGTTTTGTTACACGCTATAATGTCCAAAAATAACATAAGGTACATA
CAAGAGGAGATATTGGCTGTTATAGGAGGTCAACATTCTAACAATGACCGCAGTGTCTCT
ACTGAGAGATCAAAGTATAAAATATTAAAACATATAAAAATGACGCCAAACATAAATCCG
GTTCATACAGAAGAAGGGAATCAAACCAAATGCAGCAAAACTATATACACTTTATTCGAC
TTCTTGAATCGCTGGCTCCTTGAATGGACTAATGTCAAACAGAAACCGTTAGAAAATGAT
AACTACAAAGCAATAAAGAAATTTATGGATTCGTTTGACAAATTGGCTATAGCAAGAGGG
AATTACGCATGTGGAGAGTTGGAACGCGCTTTGCAATATCTAGAAATGTATATGGACGAA
GATAAGGACAGAATACAGGAACAGCTGCCTTTCCTTGCTGAAATATACGCGCTGCTGGAC
GAACCGGATTCCGTCTCTGGAATTCTATCGATCCAGCGCGCTGAGCCGTCTTTGCAGGAG
TTGATTCTAGTGCAGGTGGTGACCGGCCGCTTGCAGGACGCTGCACTCTGTTACGAACGA
CTCGCTCATAGACACCTGGACGAGCACAGTCTGCAGGGCATGACGGATTGTTACCTAGCC
CTGGACCAGCCCTTCACTGCCCTCCGTCTTCTGAGCGAGCGTCAGGACGAGCCGCCCGTC
GAGCTGTCCGCCGAGCCGCTCTGGAGGTTGGGACGGTTTGAGCAGCTGGAACACCTCACT
AATACACCTGTACCTCCGTCCCGCGAAAACTGGGGTCTGCTTATGGGTAGAATTCTTCTA
GCGTATCGCAAACAAGATGAAGATTTGTTCAAAGTAACTTGCGATAACGCAATAAATAGA
TTACTCCTGCAGATGGATGGCGAGAGTCAGGGTGAAAACGCCCTTAGAGGTGGATATCAA
AGCGTTCTTGGTTTGCATATCGTGAAAGAAGTGCAACATGCGCAGGAGTTGTTACATAGT
TTGAAGAACTTACAAGACGGAAATGAACAGAGCACTGAAATGATAAACACACTTCTTAGT
GAATGGCGTCTGAGGCTAGCCGTAGTACAGTCCGACGTACGAACTATTGAACCGTTGTTA
AGACTTAGAAGGATATTGCTGCAGCAAACACAGGAGCTGTTAGAACCGACTCACGCCGCA
ACGGCGAACAAGTTAAAGGCGTGCATCGGAAATTTCTGGCTACAGAGCGCGAAACATGCG
AGAAAAGCCGGTATCTTTCAACAGTCCTACATGTACATCCTCAACGCTGAAGAGTATAAA
CCGCCGGAGTTGTTCATAGAAAAGGCCAAGATGTACTGGTCACGTGGACAACATGAGTCC
GCCTTCACCACACTGAAGCGAGGACTGGAGGAGGCTTTCCCCTCAACTGATACGCTCACA
CCGGAACAGAGGAAAACATGCGCTAAAGCGAAACTGTTGATAGCCAAGTACAACGACGAG
ACAAGCAGCGTGGACGTGAACGTTAACATCAATTATTACAAGGAATCAGTTGACGCTTTT
GAACATTGGGAGAAGAGTCTGGTGTGTTTGGGCGCGTATTACGAGAAAGTGAGCTCTATC
GACACGAACACTAAAATGATGTGGTCGCGCCGGCTTTACGCTCTCAATAGCTATGGAAAG
TCATTGCAATATGGACATAAGTACCTGTATCAGAGTATGCCGAGGATGCTGTCAATATGG
CTGGATGTGGAAGTGTCGTCAGCAGATCCAAATTCTCACGCAATAGTGACCCAGATGACG
GAAGTTATAAAAACTTATTCGGAAAAGTTGCCTATTTATTTATATTTTACGGCCTTCTCA
CAAATAATATCGAGGATATGTCACCCAAAAATAGAGGTGTATAACCAGCTGAAGGCGATT
ATAGTGAAACTGTTGGCGGCTTACCCGCAACAGTCTCTATGGATGATGCTCTGCGTGCTC
AAATCTAGTTACCCTGCGCGCGTGGCTCGATGCGAACAGGTTTTAGCCGATGCACGACTC
AAGCCATTGGGCAAGCTAGTGCGTGACTTCAAACAGCTTGCTGAAAAGCTAATCGAGCTG
TGTAACAAGCCGATAGCCGGGAAAGTTATGACTGCAACAGTCTCGAGTCTGGTGCCAACT
TTGCCGCGTCTTCTCGAATCGGAGAGCTTCAGCCACATAATGATGCCGTTCCAAGAGTTC
TGCAAGATCGTTCTTCCGTCTAAAGCAGCGAGCGACATGCCCTTAGCGGGGATTCAGGAA
CAACTTACCAGGTTGCCATCTCTGCAGCAACCCAGAAAGGTTACCTTGATAGGTTCAGAC
GGAAAGAAATACATCATCATGTTGAAACCTAAAGACGACCTGCGAAAAGATTTCCGTTTG
ATGGAATTCAATGGCGTCGTTAATAAATTCCTTCAAGACGCGCCTGAAACTAGGAAGAGA
CGGCTTTATATAAGGACGTACAGCGTCCTGCCTCTCAACGAGGAATGTGGTCTGATAGAA
TGGGTTCCCAATCTCGTTGGATTACGACCGATCCTGATACATATATATAAACAGAAAGGC
ATTCAGACCAGCAACAGTGAGCTTCGGAAAATGATGTGTTCAAGTAGCGACAGCGTGGAG
AAGAAGCGTGATATATACGAGAGGTTGTTACTACCGCGACATCCGCCCGTCTTCCAGGAG
TGGTTCAGGAAGACCTTCTCGGACCCATACGGATGGTATCAGGCGAGGTCAGCGTATATT
AGAACCACTGCTGTTATGTCCATAGTCGGTTATATTTTAGGTCTAGGCGATAGACACGGT
GAGAACATATCGTTCGACTCCACTAACGGTGACACGGTTCACGTGGACTTCAACTGCCTG
TTCAATAGGGGTGAGAGCTTCGAATGGCCCGAGCGGGTGCCCTTCAGACTCACACACAAC
ATGCAGGCAGCCATGGGGCCTCTCAAACACGACGGCATGTACAGGAAATGCTGTGAGGCT
GTAACGCGAGTGCTGCGGTCTCAGACGGAGGCTCTCATGTCTGTGGTTGGTCCTTTCGTG
TATGACCCTCTGGTCGCCTGGAACAAGAGACACGACACGGGAGAGAGGACCAACGACCAG
GCGAAGTTACATCTAAAACATATACTGCAGCGTCTTAGAGGGATGGTAAAAACTAAAAAT
ACGGAGTTTTCATTGTCCCTGTCACCAGAAGGTCTTGTGGAGCATCTGATAGCTGAAGCC
ACGAGTGTGCATAATCTGTGTCAGATGTATATCGGCTGGGGATCGTTTTTGTGA
Protein sequence:
MEEESDGPFNVWQMFNAPINVLFQNLEHAEDGLVNLLTSILKLSGDLSEVLVPRPGGFNC
PESYYCAFNTWLIGRLFYISSVEVLHRIHETSKDAQLKILNILCFNGASFYKKIHSEYYT
IITNLLQFYCDYARSNETELLIQNFTPEQVQIPNVNIKLEPIYVKVNDLATCKTLISINL
RLLAESIPPSLLCNMTGHENGIFDKILNAIENFSIDMKLAGLKFFNNLIMNISKVPVSEF
QEMFPNIYNNLLLIMKALIQTLNVLHDKGEIDNMMLIDFNLLYMELIKIVGDSLKIEHRD
DYTDICNVVLSNTSNRIFNKDLKLLCLSMSGKINLNDDFTNIVDMDCDEIKCLADFYCSH
IVEHINTKRIKDKATDFNENIYLNRIISVITSVKACDQPNIDIFLMNHHLSRCLSALSVL
EKVIIENVYKLETNMISKQEIKLVWLTLVRLVKEKKSVIISNETSTKLVMNIIVSTASLQ
TDLIADDVNIVLQLICFQDSHMFTEQNFLFTNNIKLNILKYLLVNKLIISKNPAHEKWNK
IITFLYSSLMRNKDSLQSKQIIEICPLFLVNKILSASKIIGEILIPAFMSKETRCQIEVL
RILPAIVCISLGHYDIVKTVSSGNSQEIFSNENFSLNVICKKCHDTTIKNSKIVHKETEM
LNFSNTSYLSGLQSLFVKFINTKDTEFGTDYWNLVERLCNHYYIFDHGVSTDIMQEKYLD
DVLKTFKPFINVQNNKGQDWISNRDMIMNLCVNLLVKSTITSLENNDYNHQTQTLDRIKS
LGLCNNEKLILPITKLLVYFIMHPQCSLAPKAIVYLRDVCEFQDLTPNQVYHRYKKDFCK
LFVECSLYNGKDFAIFLLKVVRAFGFVGYRDFISKDIHHFLPYLIPYSVTVKEVPSMIEE
IAVLVQCSVSDFLIERFPHIYVHVYLTESKETAKKCFDIIERLTKTSTLNLIKKHLRVIL
TEFLLQYCCNPQKVLEACKYLAYHDLDASSSQGNILKSSAQVADFLNPKFLGVLAYFDHK
LVNAKVALSVKRKALKSFSAIMQLMGTRYLTPLRFKILATLRSALPLAKEFPIILAEAWS
AFIHNIDSSSLGPLLSNLAAPLLHQMDYAPNEINSIFQYMILKNENLLSSHISNLFFLED
SNVSDNVRAVIKRHVKRSQPESFQDQIKWYLQHLNHDIPIIKANVFCHMEKLLKNNRSEI
HRSIFGGRAIEAVIVELIDSLLIGCKDINPQVSLASGSCLGQLGAIEAGHLPRQYVQPDR
SPFAFSINDDCFAATALTELARAFQYEKDTMNMDCYALSIQEILKTYGISPNGSKKEVWD
SFSENMHQLMSPLLSSRYTLAYPSQPKKVHPLFGSMYATTFLEWAHNWSGQLIDVVESDS
IKDLLRTVHPSMRRDVRTLFLFLPYVLLHAIMSKNNIRYIQEEILAVIGGQHSNNDRSVS
TERSKYKILKHIKMTPNINPVHTEEGNQTKCSKTIYTLFDFLNRWLLEWTNVKQKPLEND
NYKAIKKFMDSFDKLAIARGNYACGELERALQYLEMYMDEDKDRIQEQLPFLAEIYALLD
EPDSVSGILSIQRAEPSLQELILVQVVTGRLQDAALCYERLAHRHLDEHSLQGMTDCYLA
LDQPFTALRLLSERQDEPPVELSAEPLWRLGRFEQLEHLTNTPVPPSRENWGLLMGRILL
AYRKQDEDLFKVTCDNAINRLLLQMDGESQGENALRGGYQSVLGLHIVKEVQHAQELLHS
LKNLQDGNEQSTEMINTLLSEWRLRLAVVQSDVRTIEPLLRLRRILLQQTQELLEPTHAA
TANKLKACIGNFWLQSAKHARKAGIFQQSYMYILNAEEYKPPELFIEKAKMYWSRGQHES
AFTTLKRGLEEAFPSTDTLTPEQRKTCAKAKLLIAKYNDETSSVDVNVNINYYKESVDAF
EHWEKSLVCLGAYYEKVSSIDTNTKMMWSRRLYALNSYGKSLQYGHKYLYQSMPRMLSIW
LDVEVSSADPNSHAIVTQMTEVIKTYSEKLPIYLYFTAFSQIISRICHPKIEVYNQLKAI
IVKLLAAYPQQSLWMMLCVLKSSYPARVARCEQVLADARLKPLGKLVRDFKQLAEKLIEL
CNKPIAGKVMTATVSSLVPTLPRLLESESFSHIMMPFQEFCKIVLPSKAASDMPLAGIQE
QLTRLPSLQQPRKVTLIGSDGKKYIIMLKPKDDLRKDFRLMEFNGVVNKFLQDAPETRKR
RLYIRTYSVLPLNEECGLIEWVPNLVGLRPILIHIYKQKGIQTSNSELRKMMCSSSDSVE
KKRDIYERLLLPRHPPVFQEWFRKTFSDPYGWYQARSAYIRTTAVMSIVGYILGLGDRHG
ENISFDSTNGDTVHVDFNCLFNRGESFEWPERVPFRLTHNMQAAMGPLKHDGMYRKCCEA
VTRVLRSQTEALMSVVGPFVYDPLVAWNKRHDTGERTNDQAKLHLKHILQRLRGMVKTKN
TEFSLSLSPEGLVEHLIAEATSVHNLCQMYIGWGSFL