New model in OGS2.0 | DPOGS209183  |
---|---|
Genomic Position | scaffold2168:+ 3851-19476 |
See gene structure | |
CDS Length | 7209 |
Paired RNAseq reads   | 1736 |
Single RNAseq reads   | 4182 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011535 (0.0) |
Best Drosophila hit   | sevenless (1e-162) |
Best Human hit | proto-oncogene tyrosine-protein kinase ROS precursor (0.0) |
Best NR hit (blastp)   | tyrosine-protein kinase, putative [Pediculus humanus corporis] (0.0) |
Best NR hit (blastx)   | tyrosine-protein kinase, putative [Pediculus humanus corporis] (0.0) |
GeneOntology terms    | GO:0006468 protein amino acid phosphorylation GO:0004713 protein tyrosine kinase activity GO:0005890 sodium:potassium-exchanging ATPase complex GO:0010966 regulation of phosphate transport GO:0007165 signal transduction GO:0005624 membrane fraction GO:0004872 receptor activity GO:0016740 transferase activity GO:0007283 spermatogenesis GO:0004714 transmembrane receptor protein tyrosine kinase activity GO:0010629 negative regulation of gene expression GO:0016020 membrane GO:0000166 nucleotide binding GO:0005524 ATP binding GO:0016021 integral to membrane GO:0005515 protein binding GO:0007169 transmembrane receptor protein tyrosine kinase signaling pathway |
InterPro families    | IPR011009 Protein kinase-like domain IPR008957 Fibronectin type III domain IPR001245 Serine-threonine/tyrosine-protein kinase IPR000719 Protein kinase, catalytic domain IPR003961 Fibronectin, type III IPR017441 Protein kinase, ATP binding site IPR008266 Tyrosine-protein kinase, active site IPR002011 Tyrosine-protein kinase, receptor class II, conserved site IPR013783 Immunoglobulin-like fold IPR011042 Six-bladed beta-propeller, TolB-like IPR000033 LDLR class B repeat IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain |
Orthology group | MCL13938 |
Nucleotide sequence:
TGCAGACTCGGATGCAATCTTTGGTTGGAAGGCTTGGAAAATTCCTGTCAGATAGTATGC
AATGTGACGTCAGAAGCAGTATTCTCGAGGGAACTATACTGCGTTATGGGGTGCAATGAA
GCACTTAATACTTACGTGCAAAAAGTTAAGGATCTGTTAGGCACCCCGCCGGCGCCAGCC
CTTGTAGCTGATAGCCTGACTGCTACGTCTTTATCTCTGGTGTGGGACGCTCCTAATCTT
GGAAATCTTAGTTATCTGGTTCAGTGGCGGTATGAGGAACTGCCAGGCAGCTGGCAATAC
TATTCTAACTCCAGTCGCACTGATAAATCCATAATACACGTTGAAAATCTGCGCCCCTAC
ACCAAATACAGGTTCCGAGTAGCGATTTTTCTATCCAGTCACAGCGGTTCCGGAGAGCCG
GTGTATTCAACACCTTCCGTGGTCATATCAACACTTGAGAGTGGAAAACCAAGTTCAGCA
CCATCGAGCCTAAGAGCCGCAGCTCCAGATCCGAGCCGAGTGGCCATTTCTTGGGAGCCA
GGCCCATTCCCCAACGGACCACTTATATCATATGTTTTAAGGCTTGGCGACACGCAGCCC
AATACGAACGATGCGTTAGAAGACATGCCAGCATCAAACAACACGCTATTCTATATGTTT
CAAAACCTTGCTCCTGCTAGAGAATATGAAGTGTCCGTAGCAATGAGAAACGCTGTAGGC
GAGGGTCCGAGGGCCACCGCCAGGATTAAAACGCCACCATTACCAATTTCTGTTCCAAGT
CAACAACCGGTTCTCATTTTGGGAGGAGAACAAAACATTCTTGCAGCGCCTGCCAATGAT
ATGTTATCGGATCCAATAGAACTTTATAGCACAGAGCATAAAATAAAAGGTGTCGGATTG
GATCTGTCGAGTGACTCCTTGTTCGTGTCAGTATCAAATGGTTTCGTCTACCGAAGCTCA
TTATTGCGAAAGAGTCACTCGGAAGCTATTTTAAGATCTGAAAATATATTAGACAAGCCT
CTCGATCTATCCGTGGACTGGCTCAATAAACATCTATATGTCCTCGCCGAAGTGAACTAC
AATAAAGAAGCCTCAAACTGGTCTAACGCAAGTCTATACGCGAGTTGGAAGATATTGAGG
TGTGACTTCGACGGGAGAAATCAACTTGTTGCTTTATCTGGGTTTAACTCTCGTCCAATA
CATTTCGAAGTAGATTCTTATAATGGATACCTCTTTTGGGCGTTACGTGGCGTGGAACGC
GGTGGTCTGTATCGATTGGACCTGGCGAATATTTCTAACGGAGTAAGACATAACGCGAAG
CCGGAGCTCATAGTGCGAGATGCCCATCTTGGCGCCTTTACAGTAGACCACGCTGATTTT
AGACTACTTGTTGCGCACCTCAGACGTAATACAGTACTAGCTGTTTCGTTGGATGGACGA
GAAGTGACAGACTTTAGAAGTAACACGCAGACTCCAATGTTTTCTTCTGCGCGATCCATA
GCTTACGCTAATGGACTGTTTTATTGGACAAATGGCGAAGAAATGGTATCAGAAGAATAT
CATTCCCGAAGTGACAGTTATTTTCACAACGAATATCCTTTAGCATATAACACAAAAACA
ATTTCGGTGAGGCAAGTATTGGTTGCTTTGAGAAGCTGTCAGCCGATACCCGTTCCAGTG
AACCCACCTTTAGGTGTCCAGAGTGTTATGGGAATAAATCGTGCCAAAGTGTCATGGTCT
CCTCCACATCTCCTGGGTCATCAGGGGATCGGAGCATGGCAACAATGGACGTTTCATATG
CAACTCACAGAAACCAAGACAGGAAAAATAACAAGGATAGAAAATATCAACGAGTCAATG
TTTATCGTTGAAAATTTAAAGCAAGACACTGAATATAGCATTCAAGTTGCGGCTGTAACA
GAATCAGGCTCAGGTCCGTGGTCTTCGGAGTTTGTTGGCAAAACATTAACATCGACCCCC
GCTACTTTGCAAAGCACCTTGCTTTTGTCGGGCCCGGATGGGCTTCTGCAAACAGATCTG
ACAGGAGATAACTTACAGACGCTCATACACAGAGATCACCTGGAAAACCTCCACATAACT
GACATATCATGGTATAGAGACAAGCTTTACTTGGTCACAAACGCTTCGACTGTGATGTGG
TATAATACGACGACCAATGAACATGGGATGATGCCGAACATGGACAACGTTGGAAGTCTG
GCTGTCGACTGGGTTGGCAAAAAGATCTACTGGTCCAACCCAAAACAACAATTGATAACA
AGAGGAAATTTCGACGGAGGCAACCGTGAGCCCGTTCCTATCGTGACGGTAGCGAAAGAG
CTTACAATAGATTCGCTGGGCGCTTACATTTATTGGAATACCGGGCACGCTGTGGAGGCG
GCGAGGCTCAATGGAGAAAATAAAATCATATATTACCCAGCTCAGCTGTTCAGTGGAAAA
CAAGTGATGGGTCTCACAGCAGACCTGAAAAAGAAGTGGTTGTATTGGCTGGTCAGAAGC
TACGACGGCTCTGAATTACACCGTGCGCCAACAGCTGATCAAATATCTCTCGGAATCAGT
GAGGTCTCAGGATCTTTGGTCACTCGTCTGTCTGGAACAGCCACCCTCGGTCCTCTGTGT
TACTTTAGCGGACGATTAGTTTGGGTTCAGGACGCCTCCAGAGCCGTAGTTTCTGACCTC
GCTGGAAAATATACGGCCGAGCTCATCCCTAGGGTCCATGTGATAGCAGTTAGAGACCCC
AACCTACATAAAAATAGCGAGTCCATCATCGCGATACCGGACACGATAAACGCTTCCACC
ATCGACGTAAAAGGTGTATGGGATAAGTTCAATGTCACGTGGAGGCCAGACGACCGCGTC
AACGTCAACAATGGCCGAGTCTATTACGACGTCAGTCTGCATTTTCACGGACACAACAAA
ATTGAGAGAACTGTTGAAGTGCCATGGCTGGAAGTACGGTCACGGTCGGTGCTGCCGTAT
ACGGTGGCGGAGGTGACGGTCCGCGCGCACACCCAGTGGGGCGGAGGCGCGGCCGCTAGG
AGCGTCCTACGGTCTCCACAGGCACCACCGACCGCGCCACTGAGGCCTCGGCTGTATGTG
CAACGAACTACAAGCGACGGTCCATTGACGGGCACGTTTAGGTGGGGAGCACCCAGTCCC
ACTAATGGAGTATTGCGAGGTTATGAAGCCCAGTGCTGGACTCAGGGGACAGGGGGTGTA
CGCTCAGCCTGTGCTGACGCCCGCCTGTCACCCGTTCACACCCAGCTGATGTTACGAGAC
TTGGAACCTGCTTCTAAATATTTCTTTAGAGTTCGCGCCTTCACTGATGCTGGATTTGGC
CCATATACTGACACAGTTTACGCGCCGTCCGATGAAATAAATCCCATTCCCCGAGTGATG
ATATCGTCACAAGAATCTATACAAATTGTAGACTTAGATTCAGGAGAGAGTAGAAGAGTA
CCAAAGAGTACAGGCATTCCAATAGATTTTGCAATCATCATCGAAGAAAATGTTGCTTAT
TGGGTGAACAACTTGGAAGAAATCTTCTCATCCAAAATCAATAGTAGCGGGAACTACAAA
TTGACATCGATTAACGGGAGTGCAAGTAGTATCTGCGTAGATTGGGTCAGTCGGTCAGTG
TATTGGACCCAACAAGAGATAACGTCTACAGATTCGTCTTACGTAATGTACCGAGCCGAC
CTAGGAATGCCGAACAATCGTCCGCTCATCACACGAATACTGACTAGGAGGCAGCCAATG
TATAGTTTACAGATAGCTCCAATGTTGCGATCACTGTATTGGTACGAAGACAGCAATCAC
ACGGGTTTAGGCAATCTGTTCACCACAAAACTGGGTGGATCTAACGTGACTCATTTTTTC
AACAAGCGCAAAGGTTGCAGTTGTCCCGACAGGCCACAAGTGGCGAGAAGCTTTGTCCTT
GATATGACGAATAATAAAACTAGTTTACTTTGGTTGGACCCTTGGAAAAATAGAATATAC
GAATCAGATATCCTTGGCTGTAACTGCAGCTTGGTCGTTGACGCTTCTGAGAAAAAGAAA
TATGGCTTTTTGCCTACATCTATAACTGTAGATAGCAAATATGTGTATTGGTATAACTCG
ACGGAAAAATTCATATTTTATACGAATAAATTTAAAATAAGTAAAATAGAACAGGCCAAG
GTTTCTTTGGGATACAAGATTATGGCATTGGATCCAGGAAAACAACCTTATCCGCCGACA
CATTGCTTGCTTCCAAGCTCACAGAAACTCTTACCAAAATTTATAGGACATTCAGCGAAT
AGCATAACCTTACATTTACCTCATATAAGGAAACCCCACCACGAAGATTGTAGAAACTTA
CAATATGAGTTACCAGCTACCGAATATACAATTTTTTACCGAGCTCTAATAAAAAACATT
AGTATCATCTGCGACAGAGATTCATGTCCTTATTTGACAACTACCAGTACGGAAGTTGTA
CTCAACGAATTGAAACCCTTCGCTAACTATTCGGTGATGATCGAAGCCACTAACTATTAT
TCTAAACTTCACAATGTACCGCCTGTTTACGGGATGCCATTAATCGTACAAACTGCAGCA
GAAGCTCCGACCGCTCCAAAGAACGTAACGGGAATAGTTTTAAGCCCTGTTCTGGCTCGA
GTTGAATGGACTCCTGACCCTGGCTTGTGGTACGAGCTCCATTGGAAAACGGATGACTCC
ACATCATTACCGCGCCGATCGAAAGAGCATATATTCGAGATGTCCCGCGGTCGGAGTGCC
AACATGACTGGTCTCTCTCCATCCACGTCGTACACAGTATGGGTTCGTGCCCACTCCCGA
CATAGTGCAGTCACAGCGGACTCGACACCGCTGCGCCTGCGCACACGACCTGAACCAGCT
CCACTTACTCTTCGCAAGGCTGAAGCGTACCGGCTAGCAGTATCCTGGCCTCCACCCACA
TCGTATCCCTTGCACTCGTACGCTGTTGAATACACCGAGGTGTCTCCATCGAGTCAGGAG
GAATGGAAGCCATGTGAGAGGAACAGTGATGTGGAGTGGTCCGCGCCTGATCTGCAACCG
GCTACGAGATACCGCTTCCGATTGCACCTGCAGTATTTAAGTAACGCGCCTCCCTACTTC
TGGCCGGAGGACGACAGATTTACATATGAGACTATTGGGGACGTGCCAGGAGCCCCGGGC
GCGGTTCATGTGGAGGCGGTCGGTGAGCGGGTGCTCCGTGTCTGGTGGACGGAGCCGGAG
CCCCGCGGATCCCCCGTCATGGAATACCGGGTGTGGGGACGACCACAGCTTAGAATAAAC
GACGGCGAGGAAAGTGACACGAGAAACATTAGTGAAATGCTCATGAAAAACTTTCATCAC
AATCTGGACAACGAAACGAAGTTGGCCGTCCTCAGAGAAGGTCTCGAACTACTTCACAAC
GGATCACAGACTTACTGGTTGGTGGGCCGGCTCGCATATCGCCTCCCGCCCACCAACCGG
GCGCACGTAGCCCGCAACTCGTACGGTTGGGGAGCCCTTTCGACTGCCGCGAGGGTTTCC
TGGGCCACGCCGGCGCTTCGCCCCCCGCGTACTATACTAGCGCTTGTGCTGGGAGCGCTC
GCCGCCATAATAATAGTCGTCGCAGCTATAGTATTGTATACATACAATCATCGCAGTAAA
AAGAAAACGGCGCTCGGTAATCAACTCACTGCAAACATTGTGCGGAGAGGTCCAGACGTC
GAGCTCGCTACGTTACGACAGCTGCCCATAAGACATTCAAACAACATATTATACAACCAG
GGTGTCCTCTGTCCATCTGATGCCGAGCTCTCCAGCCTCCCTCACATCCGACGTGAACAG
ATCACACTCTCTAAATTCTTGGGATCGGGAGCTTTTGGGGAAGTTTTTGAAGGAGTCGCA
CGAAATATAAATAACGGCAACACTGACACCAAAGTAGCCGTTAAGACCCTGCGCAAAGGA
GCGACGGAACAAGAAAAGACTGAATTCTTAAAGGAAGCGGCTTTGATGTCGAACTTCAAA
CACGAGCACATCCTGCGCCTGCTCGGCGTGTGTCTGGACAACGACCCGCACTACATAGTC
ATGGAGCTGATGGAGGGAGGGGATCTGCTCAGTTACCTTCGGGCGAAACGATCCTCGCTG
TACACCCCGGAATCCCTGACGCTACTGGATCTCCTGAACATGTGCGTGGATGTGACGCGA
GGGTGTCGTTACCTGGAGGAGATGCACTTCGTCCACCGAGACCTCGCGTGTCGGAACTGT
CTGGTGGCTATGAGGGGGAATACACGCATCGTCAAGATAGGAGACTTCGGACTCGCCAGG
GACATATACAAGAATGATTACTATAGAAAGGAAGGGGAAGGTCTTCTTCCGGTTCGTTGG
ATGGCGGTGGAGTGTTTGGTAGACGGCGTGTTCTCCTGTCAGTCGGACGTGTGGGCGTGG
GGAGTGCTGTGCTGGGAGGTGCTGTCTCTGGGCAGACAGCCGTACCCAGCTCGCACCAAC
CGACAGGTGCTGAGCTTCGTGCGAGCTGGAGGCACACCGGACCGACCGCCTAATTGTCCC
ACGGTGTTCTACGAGCTCCTGCAAAAGTGCTGGAGTTATTCTTCGGAGTCCAGGCCGTCG
TTCCGCGAATGCCTCCAGGTGGTGGTGGCCCTCAGAGACCGCACTCCACCGCGGGAACCT
CTCGCCGCCACCCCACATCCACCGCCACAACCACATTACCTCACCTTATTAGCTGACGAT
GCCGTCGACAACCGTACGTACCTGCTGGACGAGAATGACAACGCTTTAGACGAAGAATCT
CCTGATCAAGAAATGGAACCATCGAATCTGTTGCCGCGAACTAAATATTTAGAACTGATG
TACGACACGGAGTCCCCTTCGAACACACTGTGCGACGGCTATGAAAAACCGCGGACGCCG
TTTACGTACGCGCCATTTTCTCGACACAGTATAGTGGGCGTGGCGCCAAACAGACTCATA
AAGCCGCCATTGTATCGAACGCACTCGCTGCGTACAAACAGCCGACCTCCGAACGCCACA
ATAATACCTCTTCGGAACGGTATCATGAAGCGGGCTTCTATATGCGATGGAAACTTCAGC
GACCCTTACCCTGGCCCCTCAAGGCCGCCGATAGATTTCGACAAACACGTCTTCAAGACT
CCATTTTAA
Protein sequence:
CRLGCNLWLEGLENSCQIVCNVTSEAVFSRELYCVMGCNEALNTYVQKVKDLLGTPPAPA
LVADSLTATSLSLVWDAPNLGNLSYLVQWRYEELPGSWQYYSNSSRTDKSIIHVENLRPY
TKYRFRVAIFLSSHSGSGEPVYSTPSVVISTLESGKPSSAPSSLRAAAPDPSRVAISWEP
GPFPNGPLISYVLRLGDTQPNTNDALEDMPASNNTLFYMFQNLAPAREYEVSVAMRNAVG
EGPRATARIKTPPLPISVPSQQPVLILGGEQNILAAPANDMLSDPIELYSTEHKIKGVGL
DLSSDSLFVSVSNGFVYRSSLLRKSHSEAILRSENILDKPLDLSVDWLNKHLYVLAEVNY
NKEASNWSNASLYASWKILRCDFDGRNQLVALSGFNSRPIHFEVDSYNGYLFWALRGVER
GGLYRLDLANISNGVRHNAKPELIVRDAHLGAFTVDHADFRLLVAHLRRNTVLAVSLDGR
EVTDFRSNTQTPMFSSARSIAYANGLFYWTNGEEMVSEEYHSRSDSYFHNEYPLAYNTKT
ISVRQVLVALRSCQPIPVPVNPPLGVQSVMGINRAKVSWSPPHLLGHQGIGAWQQWTFHM
QLTETKTGKITRIENINESMFIVENLKQDTEYSIQVAAVTESGSGPWSSEFVGKTLTSTP
ATLQSTLLLSGPDGLLQTDLTGDNLQTLIHRDHLENLHITDISWYRDKLYLVTNASTVMW
YNTTTNEHGMMPNMDNVGSLAVDWVGKKIYWSNPKQQLITRGNFDGGNREPVPIVTVAKE
LTIDSLGAYIYWNTGHAVEAARLNGENKIIYYPAQLFSGKQVMGLTADLKKKWLYWLVRS
YDGSELHRAPTADQISLGISEVSGSLVTRLSGTATLGPLCYFSGRLVWVQDASRAVVSDL
AGKYTAELIPRVHVIAVRDPNLHKNSESIIAIPDTINASTIDVKGVWDKFNVTWRPDDRV
NVNNGRVYYDVSLHFHGHNKIERTVEVPWLEVRSRSVLPYTVAEVTVRAHTQWGGGAAAR
SVLRSPQAPPTAPLRPRLYVQRTTSDGPLTGTFRWGAPSPTNGVLRGYEAQCWTQGTGGV
RSACADARLSPVHTQLMLRDLEPASKYFFRVRAFTDAGFGPYTDTVYAPSDEINPIPRVM
ISSQESIQIVDLDSGESRRVPKSTGIPIDFAIIIEENVAYWVNNLEEIFSSKINSSGNYK
LTSINGSASSICVDWVSRSVYWTQQEITSTDSSYVMYRADLGMPNNRPLITRILTRRQPM
YSLQIAPMLRSLYWYEDSNHTGLGNLFTTKLGGSNVTHFFNKRKGCSCPDRPQVARSFVL
DMTNNKTSLLWLDPWKNRIYESDILGCNCSLVVDASEKKKYGFLPTSITVDSKYVYWYNS
TEKFIFYTNKFKISKIEQAKVSLGYKIMALDPGKQPYPPTHCLLPSSQKLLPKFIGHSAN
SITLHLPHIRKPHHEDCRNLQYELPATEYTIFYRALIKNISIICDRDSCPYLTTTSTEVV
LNELKPFANYSVMIEATNYYSKLHNVPPVYGMPLIVQTAAEAPTAPKNVTGIVLSPVLAR
VEWTPDPGLWYELHWKTDDSTSLPRRSKEHIFEMSRGRSANMTGLSPSTSYTVWVRAHSR
HSAVTADSTPLRLRTRPEPAPLTLRKAEAYRLAVSWPPPTSYPLHSYAVEYTEVSPSSQE
EWKPCERNSDVEWSAPDLQPATRYRFRLHLQYLSNAPPYFWPEDDRFTYETIGDVPGAPG
AVHVEAVGERVLRVWWTEPEPRGSPVMEYRVWGRPQLRINDGEESDTRNISEMLMKNFHH
NLDNETKLAVLREGLELLHNGSQTYWLVGRLAYRLPPTNRAHVARNSYGWGALSTAARVS
WATPALRPPRTILALVLGALAAIIIVVAAIVLYTYNHRSKKKTALGNQLTANIVRRGPDV
ELATLRQLPIRHSNNILYNQGVLCPSDAELSSLPHIRREQITLSKFLGSGAFGEVFEGVA
RNINNGNTDTKVAVKTLRKGATEQEKTEFLKEAALMSNFKHEHILRLLGVCLDNDPHYIV
MELMEGGDLLSYLRAKRSSLYTPESLTLLDLLNMCVDVTRGCRYLEEMHFVHRDLACRNC
LVAMRGNTRIVKIGDFGLARDIYKNDYYRKEGEGLLPVRWMAVECLVDGVFSCQSDVWAW
GVLCWEVLSLGRQPYPARTNRQVLSFVRAGGTPDRPPNCPTVFYELLQKCWSYSSESRPS
FRECLQVVVALRDRTPPREPLAATPHPPPQPHYLTLLADDAVDNRTYLLDENDNALDEES
PDQEMEPSNLLPRTKYLELMYDTESPSNTLCDGYEKPRTPFTYAPFSRHSIVGVAPNRLI
KPPLYRTHSLRTNSRPPNATIIPLRNGIMKRASICDGNFSDPYPGPSRPPIDFDKHVFKT
PF