DPGLEAN00129 in OGS1.0

New model in OGS2.0DPOGS214497 
Genomic Positionscaffold2737:+ 3468-19559
See gene structure
CDS Length3453
Paired RNAseq reads  2821
Single RNAseq reads  7259
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA013400 (0.0)
Best Drosophila hit  CG6498 (1e-152)
Best Human hitmicrotubule-associated serine/threonine-protein kinase 4 isoform c (5e-174)
Best NR hit (blastp)  PREDICTED: similar to MAST205 [Tribolium castaneum] (0.0)
Best NR hit (blastx)  PREDICTED: similar to MAST205 [Tribolium castaneum] (0.0)
GeneOntology terms






  
GO:0006468 protein amino acid phosphorylation
GO:0005515 protein binding
GO:0004674 protein serine/threonine kinase activity
GO:0016740 transferase activity
GO:0000287 magnesium ion binding
GO:0005524 ATP binding
GO:0000166 nucleotide binding
GO:0005737 cytoplasm
InterPro families








  
IPR002290 Serine/threonine-protein kinase domain
IPR020635 Tyrosine-protein kinase, catalytic domain
IPR001478 PDZ/DHR/GLGF
IPR011009 Protein kinase-like domain
IPR023142 Microtubule-associated serine/threonine-protein kinase, pre-PK domain
IPR015022 Microtubule-associated serine/threonine-protein kinase, domain
IPR017442 Serine/threonine-protein kinase-like domain
IPR000719 Protein kinase, catalytic domain
IPR000961 AGC-kinase, C-terminal
IPR008271 Serine/threonine-protein kinase, active site
Orthology groupMCL10494

Nucleotide sequence:

ATGCAAGTTAGAGGGGTACGTCCGACCCCAGGGTTAGATGCGAGCAAGCGAACTAATCTG
GTGCGCATGCGACGCTCAGCTCTCGGAAAATCTGCACCGACTCTCTCCGTCCACGTGAAA
GAACCATGTTCTATCTCCCGTCGACCGTCACGTCTACCGCCTCCACCTCCTCATCACAGA
CTTTCGCTTGTGGTGGGTTCAGGTCGGTGTAGTTCACCCGGGACTGGTCCTCTGTCCCCC
GCGGAGGGACCTCGCTGGCACCCCCACCACGCTCATCCACTACATCATGCCCTGCTATCC
TCTAGCGTCAAGAGGTCCAAAGAAATTGACGGTCGCCGGTGGTCGGTGGCATCTCTACCA
TCATCAGGGTATGGCACCACTCCGGGAAGCTCCAGCTTGTCGTCGCAATGCTCGTCTCAG
GAGCGCCTGCTGGCGGCACAGCCACCGTGCGAGCCGCCCCGGGCACCCTGTCCTCACTGT
CATCACAATCAGAACTCCCTCAACAGTTCGCAAGGCAGCGGCATGAACTGGGCGTCGCTG
TCGGACAGCGGGGGCAGTGGGCACACAGCGCGCGCTCCCTCGCCTAGAGCGGTGCCGAGG
AGAGTCAGGAGTAGGAGTCTGAGCTCTCCGTCCAGATCTCCCGGGGCCGGGGGGTCGGAG
GGGTCTCGTGATGACGCCGTGTCTGCTATGTCCGCTCTGTTCGCAGCGAGGTTCCCAGCT
GCTCAGAAAGCCATGGATGACAAATTAAGGTCGCTGATAGATGAGCTGGCGGAGTTAGAT
AAGAAGCCAGATCGACCTCCCATCGAGAGATTTGTCCAGAGACAGGTGCTAGAAATGGCG
CGCGACTGCCTCCACAAATCGGAGTCGAAACAGGTGACCAGCTCGTACTTCTACGACATG
GCTGACAGCTTGGACAGACTGCTCGCTGAGACACGTGAGAAGTCTTCAGAGGCGGGTGCC
CAGGTGGCGCCGCTGGTGACTCGCCTGACACTAGCTATGGCCAGACCGGCTAGACTGCTG
GAATGTCTGGAGTTCGATCCCGAGAGGTTCTACAGACTTCTGGAAGCTGCCGAAGGACAT
GCTAGACACCTGCAGGGTATGACTACCGACATCCCCCAGTACATAATCCACAAGTTGGGC
CTGTCCAAGGACCCCCTGGCGGAGCTTCATGTGCCCCCACCACCTCCGCCACCACAGAAC
TCCTCGCCGTCCAAAGTGAGGGGTCGCCAGTCGCCCCCCGGGGGTCAGGGCGGGTCGCCC
CCCTCCGAAAACGACTATCAAGTCATCAAGCTCATTTCCAACGGGGCTTATGGTGCTGTT
TATCTCGTTAAACACAAACAGACGAGACAGAGATACGCTATGAAGAAGATTAGCAAGAAT
AATTTGATCCTGAGGAACCAGGTGGAGCAGGCGTTCGCTGAACGAGACATCCTGAGCTTT
GCTGACAATCCTTTTGTGGTGACTATGTACTGTTCGTTCGAGACGAAGCGCCATCTCTGT
CTGATCCTGGAGTTCGTGGAGGGCGGGGACTGCGCCACCTTACTCCGGGCGGGTGCTCTG
CCCCCCGACATGGCCAGGCACTACTTCGCTGAGGCCGTACTAGCTGTGGAGTACCTCCAC
TCGTATGGGATCGTCCACAGAGACCTCAAACCTGATAATCTCCTCATCACTGCGACCGGA
CACATTAAGCTGACTGATTTCGGACTCAGCAAAATGGGGCTCATGTCCTTGGCCACCAAC
CTGTACGAGGAGTACGCGGACCGGGAGGCCAGGCAGTTCTCAGACAAGCAAGTCTGCGGC
ACGCCCGAGTACATAGCGCCCGAGGTCATTCTGCGACAGGGTTACGGCAAGCCAGTGGAT
TGGTGGTCGATGGGCATCATACTGTACGAGTTCATAGTGGGATGTGTGCCGTTCTTCGGC
GACACTCCTGAAGAACTGTTCGCTCATACAGTTAACGACGATATAGAGTGGCCCTCGGAA
GACGATTTCCCTATAGCAGTGGAGGCGCGCGCCATCATCACCGAGCTGCTGGCGAGGAAC
CCCCGCGACAGGCTCGGCACGGCGGGGACGCATCAAGTGAAGGAGCACATTTACTTCTAC
GGCCTGGACTGGAACAACCTGCTGCGGCGGAAGGCCGAGTTCATACCGCAGCTGGAGAAC
GACGAGGACACCAGCTACTTCGACAGCCGGTGCGACCGATACAACCACAGCGAGGTGGAG
ACGGACGAGGCGGCGGAGGCCGGCGAGGCGACCGAGGCGCACGAGGACGAGGCCGGCCTC
TTCGCCGCCTTCTCCTCCACCTCCCCTCAGTGGCGCCGGCACTATTCCCACTCCCACTCC
CACTCTCACTCCCACTCCCACTCCCACTCTCAGTCTCACTCACAGTCCGCGATGTCGCAC
GACTCGAGGAGCACGGACAGTTGGCCGGGCACCCCGGACAGCGCGGGCCCGCCCACCACG
CCCACAGCGCCCACGGCGCCCATGCCGCCCACCGCCATACACCATCCCAAATGCCCTATG
GTGTTTAGTGGTGCGGGAGGGTCGACCGCGGAGTCCTCTCAGACGGACTCCGACGACGTG
TCCCCGGCTGCCCGCAGGCGCGCGGCGCTCCGCCCCTTGCACGCGCACCCGCTACACGCC
AGTCACGTGCTCGTCGCTAGAATACCGGATCTGCCGAAGAAGGATGACAAAGGCGTCGAC
AAACCCGAGAGGCCAGACAAGAGTAAGCCGATAGCACTCGCCAAGTCCATGAGACGATCC
GCGAGCACCTCGGGCCTCTCACTTGTCATACATCCCGAAGACACCCTGACGGTGGTGGCG
GGCGGCGCGGGCTCTCCCTGCGCTGGGAACACTTCCTCCACCAACTCCTCGCGGGACTCC
TCGCCCTGCAGGGATCCGCCCTCGCCCTTCGCCCTCGCCAACCACTCTCTGATCCAGTCA
TCCAAGCCCCCGATCGTGGTGCGTCGTGGTCCGCGCGGCTTCGGCTTCACCATACACACC
GTGAGGGTCTACTACGGTGACACCGATTACTACACCATGCATCACCTCGTCTCGGCGGTC
AGCGAGCAGGGGGCAGCCTGGGCCGCGGGGCTGCGGGCCGGTGACCTCATCACACAACTC
AATGGAGAATCCGTACAAGGGTTACTCCATACACAGGTGTTAAGACTGTTGTTGGCGGCC
CCGCACGCTACTCTGCGTGCGACGCCTCTCGAGCAGACCACAATACAGGCGGGCGGCAGG
AAGCGTGCGGGCGGGCGGAGGGCGTCCGCCCCGCCTCGTCCCCGGCCACGGAGACGTTGT
TCCCTGTTCAGACGGATATCGACCAAACGAGCGAGTCAGGAGATGCACCAGATGGTATCC
GGCGCGTCAAGTGAGTTACCATCCCCGGCCGCCTCGCCAGCCACCGACTCGCCACTGCAC
ACCACTCACCCCACCACACACTACCAACGGTAG

Protein sequence:

MQVRGVRPTPGLDASKRTNLVRMRRSALGKSAPTLSVHVKEPCSISRRPSRLPPPPPHHR
LSLVVGSGRCSSPGTGPLSPAEGPRWHPHHAHPLHHALLSSSVKRSKEIDGRRWSVASLP
SSGYGTTPGSSSLSSQCSSQERLLAAQPPCEPPRAPCPHCHHNQNSLNSSQGSGMNWASL
SDSGGSGHTARAPSPRAVPRRVRSRSLSSPSRSPGAGGSEGSRDDAVSAMSALFAARFPA
AQKAMDDKLRSLIDELAELDKKPDRPPIERFVQRQVLEMARDCLHKSESKQVTSSYFYDM
ADSLDRLLAETREKSSEAGAQVAPLVTRLTLAMARPARLLECLEFDPERFYRLLEAAEGH
ARHLQGMTTDIPQYIIHKLGLSKDPLAELHVPPPPPPPQNSSPSKVRGRQSPPGGQGGSP
PSENDYQVIKLISNGAYGAVYLVKHKQTRQRYAMKKISKNNLILRNQVEQAFAERDILSF
ADNPFVVTMYCSFETKRHLCLILEFVEGGDCATLLRAGALPPDMARHYFAEAVLAVEYLH
SYGIVHRDLKPDNLLITATGHIKLTDFGLSKMGLMSLATNLYEEYADREARQFSDKQVCG
TPEYIAPEVILRQGYGKPVDWWSMGIILYEFIVGCVPFFGDTPEELFAHTVNDDIEWPSE
DDFPIAVEARAIITELLARNPRDRLGTAGTHQVKEHIYFYGLDWNNLLRRKAEFIPQLEN
DEDTSYFDSRCDRYNHSEVETDEAAEAGEATEAHEDEAGLFAAFSSTSPQWRRHYSHSHS
HSHSHSHSHSQSHSQSAMSHDSRSTDSWPGTPDSAGPPTTPTAPTAPMPPTAIHHPKCPM
VFSGAGGSTAESSQTDSDDVSPAARRRAALRPLHAHPLHASHVLVARIPDLPKKDDKGVD
KPERPDKSKPIALAKSMRRSASTSGLSLVIHPEDTLTVVAGGAGSPCAGNTSSTNSSRDS
SPCRDPPSPFALANHSLIQSSKPPIVVRRGPRGFGFTIHTVRVYYGDTDYYTMHHLVSAV
SEQGAAWAAGLRAGDLITQLNGESVQGLLHTQVLRLLLAAPHATLRATPLEQTTIQAGGR
KRAGGRRASAPPRPRPRRRCSLFRRISTKRASQEMHQMVSGASSELPSPAASPATDSPLH
TTHPTTHYQR