New model in OGS2.0 | DPOGS209766  |
---|---|
Genomic Position | scaffold92:+ 62887-79093 |
See gene structure | |
CDS Length | 4992 |
Paired RNAseq reads   | 483 |
Single RNAseq reads   | 1207 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005406 (2e-10) |
Best Drosophila hit   | CG42284 (4e-84) |
Best Human hit | ND |
Best NR hit (blastp)   | PREDICTED: similar to CG30264 CG30264-PA [Tribolium castaneum] (2e-154) |
Best NR hit (blastx)   | PREDICTED: similar to CG30264 CG30264-PA [Tribolium castaneum] (4e-148) |
GeneOntology terms   | GO:0016301 kinase activity |
InterPro families    | IPR000749 ATP:guanido phosphotransferase IPR022414 ATP:guanido phosphotransferase, catalytic domain IPR007858 Dpy-30 motif IPR022413 ATP:guanido phosphotransferase, N-terminal IPR020683 Ankyrin repeat-containing domain IPR002110 Ankyrin repeat IPR014746 Glutamine synthetase/guanido kinase, catalytic domain |
Orthology group | MCL17480 |
Nucleotide sequence:
ATGAAATTAATGCAAACGACGGCTAATGAAATTAAAATAACCTTCCAAGCGATAGCAGCA
GTGACACAAACTAAACTTCGTCAATGGGCCCTTAGCGGACCGAGTTGCAAGCTGGAGCGA
GCTATACTCGCGGGACACGGCCGCCGCTTGCTAGAAGAGGCGGAGGCACTGCCATTATCA
AAATACCATATAAATTTGATAGCAAAATGTAATGCATTGCATGAAGCTACTAGCAAAGGA
TCTCTGTTAGAGTTACAGACACTTTTGGAAGGTGAATATAACCACCAAAAGTACGTGATG
TGTTACGACGAGGCTGGTGTTGGCCTTCTACACAAGGCTGTCTTCTACAACTTCATAGAT
ATAGTTGAGTGGCTTGTTAAAAACTATCCTCAATTGGTGCACCAGAGAGATTCGTTGGGT
CGTACGCCGTTGCACTATACCGCTGCGAGCCGTTCCGAAGGCTCAGCTAGTTCATTGCTT
GAGTCGGCGGGGGCGGACAGGGGCGTAAGGGACGCCGCCGGACATACTATAGCTCACTAC
AGAGCCAACCTCACTCAACTAGCGCTACCCGACATGCCAACCCGACCTAACCCGCCCGGA
CTGGTGATAAAGCGTCATAACATCCGCATATGGTGCCATGAGTGTGATATGGGAAAGCTG
CAACGTGTGGTTTGGGAGGGGCAGGGAGCGCGGCTCCTCAGTGAGGTCTCCAGTCAGCCA
GTCGTTAAGAAGTTTCTAGAAGCTGTGCCCTATATTATGAACACTATACGCGACATCCAC
AATGCAGTAATTCAAAACGACTTAGAGGGACTCATAAAATTAACAGGAGAACCCGTACCG
CCTCACGCCCTCTCCTGCAGAGACAGCAATAACATGACTCCGATGCATAAAGCAGCAGGG
TTAGGTCACGGCGGAATTTTAAAGTACATCATTGAAAGGTATCCACAAGGTATAAAGGAT
GTTGACAACGATGGACGAACTCCTCTACATTATGCAGCCCTTGTCAAAGACGATCAGCAT
ACATATAATACTCTACTAGGATCTGGAGCAGACGAAAGTGCTGTCGACAACAAAAATAAA
ACACCTGGTTATTATATAAATAAGAGTCATGATATAGACAAAAATATTTTCAAAACATTG
CCTGACGCACCGAGAACACCTTCTAACTCGTATCCTCCTTCCTGGGATTGGAAAATTTTG
GAAAGTGATTACACAGCGGATATCAATAAAAAGTTTAAAAAGAAAAACCATAGAACTTCT
AATGAAAATATATCTTCAAAAAATAATACGAACACAATTTCTGAGAGCATTGAAACTAAT
AACGGAGTGATGAAGAATAGCAGCACACAAGAACTAATTTCTACTTTTCCTGATTTAAAT
GAAAACGAAAAGGCAGAACCGGAAACTACCGAAACTAATGAAAATACTACACATATCCAG
GAAGATACACGTATTGATGAGGATAATGAAATTAAAAAAGAGGTCAGTAATAATGAAGAG
AGCTCCGAGACTGAAAATCAAGACGAGCAAGACCAAAATAACTCAAAAATTATAGAAAAT
GATGACGGTATTAATGAAGAAAACCTTAATGATGAAGATCACAATAAAGAAGGAGAAATC
AATGACGTTGTTCTTAATAGCAGTTCTGACGTTAATATTACTAATGAAAAGAGTGAACAA
GATCAGAAAGAAAATAATATCGTAGATTTTAATAGTACACAAAAAGAAGTTGTTGAAGAT
ACTCAAAATATAGATGATGCAGATGATGAAAATATTAAAGACCATCATAATATACAAGAA
GAGAATGATAAAAATAAAAACATAGAAGATATTGATGATAAAGATGATAAAGATGTAAAT
GTGGATATGGATAATAAAGACAAGGAGGAAGTGGTCGAAAATAATGACATTCCTGATAGC
CTAGAACTAAATATGAATGAATCTAAAGTAAATAATGACTTAGAAGAAAATGTATTAGAC
AATGATAGTCAAGAAGACAAATCTGATAACCATAATGAAGATATATCAAAAGAAACGAAC
GATATTATCAATGAAGACTTAATAGTTGGAAGGGCTTCATCAAATACGTCAAATAAAGAA
GGAAACCCTGTCAGCGGCCGTAATATTCAGGAAAGTCTCATAGAAGGATTAATTAGTAGC
GAAGCAGAACAGGAAACAGAAGACGCGAGTATATCACAAAGAGAGAGCTCAGTTCACAAC
GATATTTTAATTGTAGACAATGAAATAGATCCTGAAGTTACCGATTTAATTAATACTGCA
AACATGGAAATGTTAGCTACATTAGTATTGAACGGAGAAGGAGCCAGATTGATCGGAAGA
CATTCTGGAAATTTAGAATTGCAAGCTTTTTTAAATAATGTCCCAACGTATATGCAAAAG
ATAAATAGAGTACATATTGCAGCTAGGGAAGGGAATATAAGAGATTTACAAGCAGCTCTA
GATCGTAGAAAATTTGCTATTGCCCGAGATCCTATATCACCGAACGGAGCAACTCCTTTG
CATGTAGCAGTTGTTTTTGGTAAAACGAATATTATAAAATATCTAGGAGGGAGGTTTCCT
GAAACATTGTCTGCTGTTGATTTTGAAGGCCGTACAGCTTTACATTATGCGGCTGTTTTA
CCAGATAATGGTCATTATTTTAATTTGTTACAACAGCTGGGAGCAAATTCTAAAGATTTA
GATGATATGGGACGATCTGCTGAGGATTATTACAAAAATCCTACTCTGTTGACTTTCAAA
CAATTGTTAGCGGACTTTGGAGTAAGTGAAGAAGTAGCTCAAGAAATGTTTACAGATAAA
GTGCCAGATGATCGCGTTTCTTCCCGTCGAGTTTTAGATAACTCTGAAGCCTTGGATACT
TTAGAACGATGTTATAGATTGCTAGCATCTGCAAGACCAACAAGAACACCTCTGTCTGCG
TCTTCTAATAAAGCCACTCCTCCAAATGTTTTAGGAAGATTCCTTAAACGACAAATATTT
CTTATGATAAAGGATAGAGTTACAAAACTAGACCACAACCTCTTTGACGTTATCTGGCCA
GCTGTAAAAAAGCTACCTGATAGCAGAAATATTATACAAACCGTGGAAGAGGATTTTCCT
GGTGGAGTCACTGCTCCAGATTATTATGTTTATGAAGTATTTTCAGAATTTTTAACGCCA
CTCATTAAAGATCTTCACAATATGAATGTTAATTCTGAGCTACCAGAACATCCAATATCA
GATTTTGTTAAAAATATACCATTAAAGGAAGTCACTGAAGCTCCGATAGAAATAAATGTA
GATCCTGGAGAAGATTTCGTACTGTCAGGAACAATGGAATGCTCAAGAAACCTCGATGGA
TTTGAATTACCGTTGAACTTAAAAATTGGCAAACTCGAAACCATTGAAAGAATTATAACT
ACAATTTTGATGAGACCAGAGTTCTCAAAAATTATAGAACAATTCAATCCCGAGTCCGAC
CAAAGATGGGGAACTTATTACACTTTGAATGAGGTGTTAGAGAAGCCTTCCGAAATTAGT
GCAACGCTAGCAGCGTCTGGATTACTTATCCCAATTTGTGATAGAGAAGAAATTGATGAT
AGCACTCATCTTCATGGTCAGCATTGGCCGTATGGGCGTGGGGTTTTTTTAAGTGACGAT
AAAACTGTGGCCGTTTGGATCAATGTTCATGATCATTTACGTGTACTAATTTCAACTCCC
CTTGATTCACCGGGGGAAATTGGATTAACATTCAGCACATTGACTCGCATAATGTCATAT
TTACAGAATAACCTAGATTTCGTTTGGGATCATAAATTAGATATAAGCACCACGGCTAAC
GGCCACATGGACATTCCCATATTTCAAACTGAAGAAGGCAGATATCTCGCAAAGTCACTC
GGCGATCCTTTGATTAAAGGTCTGACCGAAGTGGCTAATATCAAACCTAAAGATCCTGTA
GCATTTCTAGCGACTTTCCTACACAACTTTCCTGAACATGAGAAGCCTCGACCTGAAACA
CAGGAATCAAATGTATTAGTGACAAAAGAAGCTGCTGAATTTGAAAACGAACATCCGCCA
TACGCAGACGAGATGGAAGATGATAATGAGGATCCGTCAGTAATAAGAGAACAAGATCGG
TATCGCACCGCAACAAAACCACGCCCCATCGACGTTATAACTGTAGATCCTCAAACCGAG
ACCAGTCCGGATGCACCGGAAATCGCTAGCAGTAGTGCGAATAGGGATGAACACGGTCAA
TCAATGTTACATTTTGCTGCTGCTCGAACACATACAAACAATGCTCTGTTTCAACTATTG
CAAGAATCTGAAGTGAGCCTCGGTTATAGAGACGAGCTGTATCGGACAGCGCGCGACGTC
TCCATACAAGCGAACGTATTAGAAAATACTGTGGAGATAGACAGATGGGTACTTTCATTG
GCTGCGAGAGGGAAGACAGATAAAATCATGGAATTGCTTATTCAAGGCTACGATCATATA
TTGGATATTGTGGATGAAGAAGGAGTGCCCATGTTAGAAGTAGTTGGCCAACGTGGTGAC
GATAGCATGAACAATTTACTCGCCTCCATTCCACCCTTCGAGGAATCTCGGGAATCTCTC
CATGGAGCAGTTCGTCGTGGTGATATGAACGCTGTCCGTGAAATTATATCTGGTGATCGT
GGACATACCCTAGCACGTGCTCACAACGCACTCGGTCGCACTTCTCTCCACGTGGCTGTG
TTGGCACAACATGAAGATGTTGTAGACTACCTTTCAGAGACATGCCCTGAGCTACTGCGG
GTCGGGGACAATTTGGAAAGAACGCCATTACACTATGCAATGGGAATGGAGAAAATGGAA
TCTCTAAGTCGTATTCTTATTAAAGCGGGCGCTAAGCGCGTTCTTAAGGATCTCAAGGGC
CGTCAGCCTTCTTATTATTTCATGAACAAGTCAGATATACTACGGTTGAAAGAAGAAGAA
GAAGCTTACTAA
Protein sequence:
MKLMQTTANEIKITFQAIAAVTQTKLRQWALSGPSCKLERAILAGHGRRLLEEAEALPLS
KYHINLIAKCNALHEATSKGSLLELQTLLEGEYNHQKYVMCYDEAGVGLLHKAVFYNFID
IVEWLVKNYPQLVHQRDSLGRTPLHYTAASRSEGSASSLLESAGADRGVRDAAGHTIAHY
RANLTQLALPDMPTRPNPPGLVIKRHNIRIWCHECDMGKLQRVVWEGQGARLLSEVSSQP
VVKKFLEAVPYIMNTIRDIHNAVIQNDLEGLIKLTGEPVPPHALSCRDSNNMTPMHKAAG
LGHGGILKYIIERYPQGIKDVDNDGRTPLHYAALVKDDQHTYNTLLGSGADESAVDNKNK
TPGYYINKSHDIDKNIFKTLPDAPRTPSNSYPPSWDWKILESDYTADINKKFKKKNHRTS
NENISSKNNTNTISESIETNNGVMKNSSTQELISTFPDLNENEKAEPETTETNENTTHIQ
EDTRIDEDNEIKKEVSNNEESSETENQDEQDQNNSKIIENDDGINEENLNDEDHNKEGEI
NDVVLNSSSDVNITNEKSEQDQKENNIVDFNSTQKEVVEDTQNIDDADDENIKDHHNIQE
ENDKNKNIEDIDDKDDKDVNVDMDNKDKEEVVENNDIPDSLELNMNESKVNNDLEENVLD
NDSQEDKSDNHNEDISKETNDIINEDLIVGRASSNTSNKEGNPVSGRNIQESLIEGLISS
EAEQETEDASISQRESSVHNDILIVDNEIDPEVTDLINTANMEMLATLVLNGEGARLIGR
HSGNLELQAFLNNVPTYMQKINRVHIAAREGNIRDLQAALDRRKFAIARDPISPNGATPL
HVAVVFGKTNIIKYLGGRFPETLSAVDFEGRTALHYAAVLPDNGHYFNLLQQLGANSKDL
DDMGRSAEDYYKNPTLLTFKQLLADFGVSEEVAQEMFTDKVPDDRVSSRRVLDNSEALDT
LERCYRLLASARPTRTPLSASSNKATPPNVLGRFLKRQIFLMIKDRVTKLDHNLFDVIWP
AVKKLPDSRNIIQTVEEDFPGGVTAPDYYVYEVFSEFLTPLIKDLHNMNVNSELPEHPIS
DFVKNIPLKEVTEAPIEINVDPGEDFVLSGTMECSRNLDGFELPLNLKIGKLETIERIIT
TILMRPEFSKIIEQFNPESDQRWGTYYTLNEVLEKPSEISATLAASGLLIPICDREEIDD
STHLHGQHWPYGRGVFLSDDKTVAVWINVHDHLRVLISTPLDSPGEIGLTFSTLTRIMSY
LQNNLDFVWDHKLDISTTANGHMDIPIFQTEEGRYLAKSLGDPLIKGLTEVANIKPKDPV
AFLATFLHNFPEHEKPRPETQESNVLVTKEAAEFENEHPPYADEMEDDNEDPSVIREQDR
YRTATKPRPIDVITVDPQTETSPDAPEIASSSANRDEHGQSMLHFAAARTHTNNALFQLL
QESEVSLGYRDELYRTARDVSIQANVLENTVEIDRWVLSLAARGKTDKIMELLIQGYDHI
LDIVDEEGVPMLEVVGQRGDDSMNNLLASIPPFEESRESLHGAVRRGDMNAVREIISGDR
GHTLARAHNALGRTSLHVAVLAQHEDVVDYLSETCPELLRVGDNLERTPLHYAMGMEKME
SLSRILIKAGAKRVLKDLKGRQPSYYFMNKSDILRLKEEEEAY