New model in OGS2.0 | DPOGS202232  |
---|---|
Genomic Position | scaffold747:- 59140-68091 |
See gene structure | |
CDS Length | 4836 |
Paired RNAseq reads   | 71505 |
Single RNAseq reads   | 159912 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA013531 (9e-06) |
Best Drosophila hit   | Unc-89, isoform C (0.0) |
Best Human hit | striated muscle preferentially expressed protein kinase isoform 1 (3e-65) |
Best NR hit (blastp)   | PREDICTED: similar to CG33519-PB isoform 1 [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to CG33519-PB isoform 1 [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0006468 protein amino acid phosphorylation GO:0004674 protein serine/threonine kinase activity GO:0005622 intracellular GO:0005524 ATP binding GO:0005089 Rho guanyl-nucleotide exchange factor activity GO:0035023 regulation of Rho protein signal transduction |
InterPro families    | IPR020675 Myosin light chain kinase-related IPR003599 Immunoglobulin subtype IPR003598 Immunoglobulin subtype 2 IPR003961 Fibronectin, type III IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR013783 Immunoglobulin-like fold IPR011009 Protein kinase-like domain IPR008957 Fibronectin type III domain IPR017442 Serine/threonine-protein kinase-like domain IPR013098 Immunoglobulin I-set IPR000719 Protein kinase, catalytic domain IPR007110 Immunoglobulin-like |
Orthology group | MCL10154 |
Nucleotide sequence:
ATGCTCCGTCTACAGCTGCCGACCTTCGACGCCAAGTTCCCGGCGCGGGTGACGGGCGTG
CCCTCCCCCGAGATCTCCTGGTACAAGGACGGCGTCCCGCTGAAGACGTCTGACAAGTAC
GGCTTCAAGAGAGACGGCGACGCGTGCTGCTTGTACGTGAGGGACGTGACTGCGGCCGAC
GCGGGCCTCTACCGCTGTGTGGCTCGCAACAGGGAAGGCGAAGATAGCTGTGAAGCTGCT
CTAGAAGTCGTCGACAAGATAGCTCGCAAGCAGAAGGTAGAGCCTCCGTCGTTCCTGAAG
CGCCTCGGCGACGCGGAAGCTCTGCGTGGTCTCAGTGCCAAGTTCACGGCCTGCGTCACC
GGAACTCCCGACCCGGAAGTCGAATGGTTCCGTAACGACTTGAAGCTGTTCCCGTGCGAG
CGAGTTCGGATAGAGCAGGAGTCCACGGGCTTGTTGCGGCTCACGATATCGGGCGTGGGA
CCGGACGATGCCGGCGTCTACCGCTGTCGGATATCCAACCCTCACGGACAGGACGAGTGT
CAGGCTAACCTGATATACGACACGGGTCTAGAACCACAGTCCGGTAGAAAGCCGCTATCA
GAGCAGTACTCCGATTTCGACAAAATGAAAAAAACGGGTGTGCCCATGCCGCTGACGGAC
AAACCCATCATCTCTCGCATGGCTGACAGACACCTGACACTGTCCTGGAAGCCGTCCATC
CCGCACCAGCCGCGGTTCCCTGTCACCTACCAGGTGGAGATGTGCACCATACCAGATGGC
GATTGGTTTACCGCTCGTACGGGGCTGCGGTCTTGCGCCTGTGACGTGCGCAACCTGGAA
CCCTTCCGCGACTACCGCTTCAGAGTCCGTGTCGAAAACCGCTTCGGTGTCAGCGACCCG
TCGCCCTACGCCGTCACGCACCGCGCCAAGCTGGAACCCGACCCGCCCAAGTTCGTGCCT
TACCTACAGCCCGGCATCGACTTCCGCCCGGAGACCTCGCCCTACTTCCCTAAGGACTTC
GACATCGAGCGGCCTCCCCACGGCAGCTATGAACAGGCTCCCAAATTCCTCCGTCAGGAA
CAAGACTCACAGTACGGTGTGAAAGGCCACAACGTAGACCTGTTCTGGTTCGTTTATGGC
TACCCGAAGCCCAAGATGACTTACTTCTTCGACGATCAACCCATCGAGGCCGGAGGACGG
TACGACTGGAGCTACACCAGGAACGGACAGGCGACGCTTTTCATAAACAAAATGTTAGAG
CGTGACGTGGGTTGGTACGAAGCGGTGGCCACCAATGAGCACGGCCAGGCCCGGCAGCGC
GTGCGGCTCCAGCTGGCAGAGCACCCCGCCTTCATACGACGGCCCGAGGAAGTGGTCGTC
ATGACGCGGCGAACTGCTCGACTCGAAGCACGCGTCACCGGCCTGCCTTACCCCGACATC
AAGTGGTACAAGGACTGGCAGCCACTGGCACCCAGCTCCAGGATTAAGATGTACTTCATC
GAACCGGATACAGTACAGCTGGTGATAACGGACGCCATTCTGAAGGACGAAGGTCTGTAC
TCGGTGTCAGCACGTAACGTCGCCGGCTCAGTCAGCTCATCAGCAATGCTCTATGTGGAA
GAAAGTGAACACGAATATTCACAAAGAATCCGTGAATACCCTCCGCGAATCAAGCCTAGC
AGCAAACCCTTTGGAGACCATTTCGACCTTGGCGACGAGCTGGGCCGTGGAGTGCAAGGG
GTCGTGTACCACGCCGCCGAGAGACTTTCAGGTCGTAATTATGCTGCTAAGATAATGCAC
GGCCATTCGGAGCTGAAGCCGTTCATGAAAAACGAACTTGACGTGATGAACCAGCTGAAC
GACCGCCACCTGGTGCGGCTGTATCAGGCCTTCGAACACGACCACACCTTGGCGCTGGTC
ATGGAGCTGGCTGCTGGTGGGGAACTCGTCAGAGATCGGCTGCTGCGTAGTACCGGCTAC
AGTGAGCGCGAGGTAGCGGGCTACATGCGACAGCTGCTAAGGGGATTGAAGCACATGCAT
GACAACAGCTACGCTCATCTCGGACTCACGATCGGCGAGCTGCTTCTGTCACATTCAGGA
AGCGATCATTTGAAAATCTGCGATTTTGGCCTCTCGCGCAAGATCCATCTTGACAAACAC
GCTTCCTTGAGTTACGGTATGCCCGAGTACGTGGCACCCGAGGTCGCCAGAGGAGAAGGA
GTCACCTTCGCCGCGGACATGTGGAGCACCGGCATCATCACTTACATACTGCTGAGCGGA
ATGTCGCCCTTCAGAGGTGCCAATGATAGAGAGACGCTCACGAGGATTCAGGAAGGCAAA
TGGCAGTTCGAGGAGGAATGGTGGTCCCGTCTGAGTCGGGAGTCGAGGGACTTCATATCC
AAACTGCTAGTCATCAACTGGAGAGACAGAATGGACGTCGACGCAGCCCTGAACCACCCC
TGGCTGACGCTAGCCGACAAGATCTATAAGGACGAATATATCATATCAACGGACAGATTG
AGGAATTATTACAATTTATACAGGGAATGGATGGACAACGCCCAATGTCGCACGTGGTTC
CGTCGTCGGCCGCTGAGTGGCGCCTTCGAGCATCCCTCTAAGATGGTGTACCCACCCGGC
ATCGTGTACACACCTGAAGGAACTCCTGAGCGCGATGACGTCTCCAGAGACAGAAAACCC
GCGGAGTGGGACCTTAAGTTCAAGCAGTGGGATCACCCTGACTGGGAGGTTTCCGCCAAG
TCTGAGAGCCACTACCAGAATGGTCCAGATACCTACCTGTTGCAGCTACGAGATACTTCG
TTCCCTGTGAGACTCCGAGAGTATATGAAGGTGGCCTGCACGCGCTCGCCCGGCTACAGC
CTGGCCGTGCACGACACATACGACCCCAGGACGCCAATAATCCGAGAACGTCGGCGGTTC
ACGGACATCATGGACGAGGAGATTGACGATGAACGGCGTGAGAGGATCAACAACTATGGA
ACGGAGTCGTACACCATCCGGAGACTTAGACACGAGCTCGGCACACGCCTCGACAGCTAC
GCGGAAGCACAGGCGTTCATGGAATCTAAAAAGGACGGCCAACTGCCCTTCTTCCGAGAA
AAGCCCCAAGTCTTGCCCGTCCAGGAGGGCGATCAAGCTCAGCTCTCCTGCTTCGCCGTA
GGAGATCCTCAGCCTTCAATACAGTGGTTCAAAAACGACATGGTCATCGCTGAGGGCCAG
CGCATCAAAATCATTACAGACGAGGACGGCAGATCCACTCTCAAATTTGACCCAGCTATG
CATCACGATATAGGTTATTATAAGGTGGTAGCCAGAAATAAGGTCGGTCAAACGGTGGCT
AGGACGAGAATAGTAGAGGCTACTTACCCGGACGCCCCGGACAGCCCAACCGCGGCTGAC
GTCTCCGACACTGAGGTGCTGCTCCGGTGGAAACAGCCGAAGTACGACGGCAACTCTCCG
GTGGTGTGCTACAGTCTGCAATATAAAAAGGGCGATAGCGTGGAATGGATCACAGTCGCT
GAGAATATTGACCACGAGTTCTTCGTCGTGAGGGACCTCGAACCGGACACGAGCTACCAA
TTCAGATTGTCATCTCGCAACAGGATCGGCTGGAGCGACAAGGGCATCCCGACTAACTTG
GTTAAAACGAAACAAATGGGTTCTCCGAAAATAGAAGTTACAAAGGCGATGAAACACCTG
CAACAGTTGACTGAATCTGGACAGGAAATTGTTTTGGACGAAAATAAGCCCGTACTGGAT
TACGAAACGGAAAACAATCCACTGGAATGGGACACGGCCACCAATGTCGCCGAACGCTAC
ACGTTCATATCCGAGCTGTGGCGAGGAAATTTCTCAACTATAGTAAAAGCCGTCGACAAG
AACACAGACAGCGTTGTAGTAGCAAAGCTTCTAGAAAACCGACCCGAGACTGAAGTTCAA
GTGCAGAGGGAGTACAATTGCTTAAGGAAACTTAAACACGAGAGAATATCGAGCTTGATC
GCGGCGTATCAAATTCCGGGATCACCCGTGGCCGCGCTCGTTATGGAGAAGCTACAAGGC
GCCGACGTGCTCACATACCTGTCCAGTCGCCACGACTACACTGAACAGATGGTGGCCACG
ATCGTGAGCCAGGTGTTGGACGGCCTCCAGTACCTCCACTGGCGCGGCTACTGCCACCTC
AACCTGCAGCCCGACAACGTCGTGATGGCCTCCGTCAGAGCCATCCAAGTCAAACTGATA
GACTTCGGCTCAGCACACCGAGTCACCAAGTTGGGCACCAGCGTCCCACAGGTCGGCGAC
TTGGAATATAAAGCGCCGGAGATAATAAACGATGAGCCGGCCTACCCACAGACGGATATA
TGGTCACTCGGTGTTTTGACCTACATCCTGTTGTCGGGAGTGTCACCCTTCCGTGGCGCT
GACGATGCAGAAACTAAACAGAATATATCTTTCGTGAGATACCGCTTTGAGCATCTATAC
AAAGAGATCACTCAGGAAGCAACACGTTTCCTCATGTGGGAAGCGACACGTTTCCTCATG
TGGGTGTTCAAGAAGGTCCCCCTGAAGCGTCCGTCTGCTGAGGAATGTCCGGAACACCGC
TGGCTCGCAAACTCAGACTTCATACAGAGGAAACGAGAAAGGGCTGTCTTCTTAGGCAAC
AGGCTCAAGGAGTTCTCAGATGAATATCACGAGCGTAAGTCTCGTGCCACCTCTCAGACG
GACATACTGGCTTCATGCGGCGCCGCCCCGCGATTGGCGCGCTCCAACAGCGTCGCTGAC
GAATTACAAACTAACACCGACTTCTGCACGCACTGA
Protein sequence:
MLRLQLPTFDAKFPARVTGVPSPEISWYKDGVPLKTSDKYGFKRDGDACCLYVRDVTAAD
AGLYRCVARNREGEDSCEAALEVVDKIARKQKVEPPSFLKRLGDAEALRGLSAKFTACVT
GTPDPEVEWFRNDLKLFPCERVRIEQESTGLLRLTISGVGPDDAGVYRCRISNPHGQDEC
QANLIYDTGLEPQSGRKPLSEQYSDFDKMKKTGVPMPLTDKPIISRMADRHLTLSWKPSI
PHQPRFPVTYQVEMCTIPDGDWFTARTGLRSCACDVRNLEPFRDYRFRVRVENRFGVSDP
SPYAVTHRAKLEPDPPKFVPYLQPGIDFRPETSPYFPKDFDIERPPHGSYEQAPKFLRQE
QDSQYGVKGHNVDLFWFVYGYPKPKMTYFFDDQPIEAGGRYDWSYTRNGQATLFINKMLE
RDVGWYEAVATNEHGQARQRVRLQLAEHPAFIRRPEEVVVMTRRTARLEARVTGLPYPDI
KWYKDWQPLAPSSRIKMYFIEPDTVQLVITDAILKDEGLYSVSARNVAGSVSSSAMLYVE
ESEHEYSQRIREYPPRIKPSSKPFGDHFDLGDELGRGVQGVVYHAAERLSGRNYAAKIMH
GHSELKPFMKNELDVMNQLNDRHLVRLYQAFEHDHTLALVMELAAGGELVRDRLLRSTGY
SEREVAGYMRQLLRGLKHMHDNSYAHLGLTIGELLLSHSGSDHLKICDFGLSRKIHLDKH
ASLSYGMPEYVAPEVARGEGVTFAADMWSTGIITYILLSGMSPFRGANDRETLTRIQEGK
WQFEEEWWSRLSRESRDFISKLLVINWRDRMDVDAALNHPWLTLADKIYKDEYIISTDRL
RNYYNLYREWMDNAQCRTWFRRRPLSGAFEHPSKMVYPPGIVYTPEGTPERDDVSRDRKP
AEWDLKFKQWDHPDWEVSAKSESHYQNGPDTYLLQLRDTSFPVRLREYMKVACTRSPGYS
LAVHDTYDPRTPIIRERRRFTDIMDEEIDDERRERINNYGTESYTIRRLRHELGTRLDSY
AEAQAFMESKKDGQLPFFREKPQVLPVQEGDQAQLSCFAVGDPQPSIQWFKNDMVIAEGQ
RIKIITDEDGRSTLKFDPAMHHDIGYYKVVARNKVGQTVARTRIVEATYPDAPDSPTAAD
VSDTEVLLRWKQPKYDGNSPVVCYSLQYKKGDSVEWITVAENIDHEFFVVRDLEPDTSYQ
FRLSSRNRIGWSDKGIPTNLVKTKQMGSPKIEVTKAMKHLQQLTESGQEIVLDENKPVLD
YETENNPLEWDTATNVAERYTFISELWRGNFSTIVKAVDKNTDSVVVAKLLENRPETEVQ
VQREYNCLRKLKHERISSLIAAYQIPGSPVAALVMEKLQGADVLTYLSSRHDYTEQMVAT
IVSQVLDGLQYLHWRGYCHLNLQPDNVVMASVRAIQVKLIDFGSAHRVTKLGTSVPQVGD
LEYKAPEIINDEPAYPQTDIWSLGVLTYILLSGVSPFRGADDAETKQNISFVRYRFEHLY
KEITQEATRFLMWEATRFLMWVFKKVPLKRPSAEECPEHRWLANSDFIQRKRERAVFLGN
RLKEFSDEYHERKSRATSQTDILASCGAAPRLARSNSVADELQTNTDFCTH