New model in OGS2.0 | DPOGS209095  |
---|---|
Genomic Position | scaffold627:+ 10933-16632 |
See gene structure | |
CDS Length | 3438 |
Paired RNAseq reads   | 2563 |
Single RNAseq reads   | 5507 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA009697 (1e-144) |
Best Drosophila hit   | wishful thinking (3e-48) |
Best Human hit | bone morphogenetic protein receptor type-2 precursor (4e-44) |
Best NR hit (blastp)   | AGAP005567-PB [Anopheles gambiae str. PEST] (4e-72) |
Best NR hit (blastx)   | GK18023 [Drosophila willistoni] (9e-55) |
GeneOntology terms    | GO:0007165 signal transduction GO:0006468 protein amino acid phosphorylation GO:0005026 transforming growth factor beta receptor activity, type II GO:0005886 plasma membrane GO:0004672 protein kinase activity GO:0007528 neuromuscular junction development GO:0007274 neuromuscular synaptic transmission GO:0005024 transforming growth factor beta receptor activity GO:0016020 membrane GO:0005524 ATP binding GO:0048813 dendrite morphogenesis |
InterPro families    | IPR011009 Protein kinase-like domain IPR017441 Protein kinase, ATP binding site IPR000719 Protein kinase, catalytic domain IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR015770 Bone morphogenic protein type II receptor IPR017442 Serine/threonine-protein kinase-like domain IPR000472 TGF-beta receptor/activin receptor, type I/II |
Orthology group | MCL15257 |
Nucleotide sequence:
ATGATGGATGGTATGTTGTCTCAGAGGGTGACTCCTTTACTCAAATGTGTGGTGCTGTTT
ATGTTCATCTTCACCGCTAAAGTCCTTACCTCAAGACCGCACGACTCTGAAGACGCCACA
AATAGCATCCATCAGCAGAAACCTTCTCACTATGTGAGAACTTTCACTAAATATCACCAC
AGAAGAACTAGTCAATTGAACAATCTCGATGACCCATACTGGATCTTAGCCCAGGACCAG
CCCAAAGTTATCGTGAAGAGGAGTGTCAAACAAATAGGCAACGAGCTGTTGAGTACATCG
GACGACATAAACCAAGTAGCCCCTGTGTCCATTGGGGATGAAGTCGTAGATCAGATGGAC
AAACCCATGGGGGCAAAAGATCAACAAAAAAGCACTGATTCAAGGAAGTACAAAGTGAAG
GCGGCAGTGATTGTGACAGACGCTCCGACTACTCCCGGCCCGACCATATCCTGTTTGTAC
AAAATACACAGTGTGGCGTTAAGTGTCACTCCGTCTTATCACGATGGAAATGCTCAGTTT
ACAGTCGAAAATGAAATATTTGACAGAGGCGATATAACCGAGACAACGCTGCCGAGCGGG
GAATCGGCTCAGGTGGAGAAGTGCACGGACCCTAAAGCATTCTGCTACACCCTGTGGCAC
CAGGACAATGACGCAAACGTCACCGTCCTAGGACAAGGCTGCTGGCGCTCGTCCCAGGGC
GGGCGAGCCTGTGACAAGTGTACTCGAGTCACGGCCCGACTGCCGCGGACCAGGTTCTGT
TGCTGTACGAGGAGTCTGTGCAACGCTGACATCACGACCCTCAAGGAGGAGTCAGTGACG
ATCAAAGCCGAGTCGACTATGAAGAGCACTCGCGGCGCAAACTACTCCAGCGTGCTGGCG
TCCGCCGTGCTGGCGCTCGTGGCGGTCATGCTGATGGCCATCGTGTTCAGGAAGATGTAC
TGCAGCAGGCCGGGCCTGGACAAGGGAGACATGAGCGACGGCCTGGATTTGGAGAAAGGT
GAGGTGATGGGCTCCGGGCCCGACGGACTCGCCACAGGCCTGCTGTGTGTGGACAACATC
ACACTCATCGAACACATCGGTCAGGGTAAGTTCGGGTCGGTGTGGCGCGGCGTGCTGGGC
GCTCGGCCCGTGGCCGTGAAGCTGTACTGCAGCCCGGCCGCCTGGAGGAAGGAGGCCGCC
ATATACGCCATGCCGCATCTGGCGCACCCCAACATCCTGAGGTACTATGGTAGTGACAGT
CGCTCGTCCCTGGTGGAGGCGGGCGGTCGCTCTCAGCTGGTGGTATTAGAGCTGTGCTCG
GAGTCGTTACGCGACCGTCTCGTGCGGGCTCCGGTCGACTGGACTGAGTTCGCCACCCTC
GCCCACGGCCTTGCCAGCGCCCTGGCACACCTGCACACTACCACGTCCTCCAAGCCGTGT
ATCGTGCACCGCGACGTGAACAGCGGGAACGTGCTGGTGAGTGTGGACGGCCGCGCCAGA
CTCGCGGACCTGGGCCTGGCTCAGGCGCTGCCCGTGACGCCCGACAGGACCTGCAGGCTC
ACGGAGGCCGGCACTCTCCGCTACTTGTCCCCGGAGGCGCTGGAAGGAGCTCTGGACCTG
TCCGGGGCGAGGGCCGCGCTGTGTGCGGTGGACGTGTTCGCACTGGGCCTGGTGCTATGG
GAGATGTTGTGGCGCTGTGAGGGGGCGCAGGCCCACGTGCCGCCCTACGCGCCGCCCTAC
CACCACCACGGCCTGCCCGCTAGACCTACGCTGGCACAGATGCAGGCCCTGGTGTCCCGC
GGCAAGGCTCGCCCTCCCCTCCCTCCGCCGTCGTCGTGCGGAGCCCGGGGGCTCCTCAGA
CCGCTGAGGCTGGCCTCCGCCACCTGCGACGAGTGCTGGGATCATGACGCAGAGGCGCGG
CTGACGGCGGTGTGTGTGGAGGAGCGGATGATGGAGCTGAAGAGTATACTGAACACCCTC
ACTGACCTGGACCGCGGCGCCGCGCCCGGAGGCGGAGACCACGGATCCACCGAACCGTCT
CTCACTGATGCTGACAAGAAGTGTAACGCCAATGTGGTCCAGGCCGGCGACTCCACCCCC
CTCCTGTACCCTGACCCACACATGGGAAGGAACGCGTGTATAGAGCGGAACACTAACACT
CACACGCAGACACACACGGTGGAACTCATACCCAAGACTCATAGAGACGCCGACCACGAG
CAGAGGAATGTGCAGAACTGTCAGATGCTGGCGAGGACGCACGCGCAGGGGACCCGGCAC
AGAGACAACATAGAGCGGCTGAATGAGATACGGTCCTATCAGAGACCCTTGGAGTATGTC
CAAAACGACGTGACGAGGCACGAGGAGGCGGAGGGCGCCTGGAACAACGGGGGCGGGAAG
GAAAAACAAAGGTGGGGGATCAGGAGACTGTTTGAGAAGAAGGCCAAGGACACCAGGGTC
GGCCTAGAGACCAACGTCACGCAGAACGGAAAGGTCAAAACGTCGCTGGTGGAGAAGTTC
ACCAACTTGACCTTCGACCGACCTTCCAATTTGGTACTGGACGACGAGAGATCGCTGACC
TTCGAACCATGCACTCTCTCGCCGCCGAACAAGACGCTCAGTCCGACCATGATCAAGGAG
TCCGAGCTCAACACGGACAAGGTGTTCAGGGAGCTGCCCTCCAGGGACGACGGCGACAGG
AACCAGGTGTTCGCCGTTATCGTGCCGAAAGTGATACAGGAAACGAAACCACAGGGAGAG
TCGGGCTCCGAGTCCGAAGACTCCACCCTCAAGACACGAGCGAGTGCTGAGAACAAGACG
ATACACAGCGGACGATCCTCCAGGAACAACATCGAGCTGGAGCTGGACTTCATAGAGATG
CCGCGGGACTTGCGGGACAGCCCCTACGATCTCAACTCCGAGTGTTCCAGCGAGGACGAG
CACCTGCTGCTGCTGGCGGAGACGGGCGGCTCCAGGATCACCATGAAGACCGTCTCCAGG
ACCGACGACCGACACACCAGCGACGTGCTGCGAGAGGCCTCGCAGACCAACACCGACCAC
CTCTACAACAAGCACAACAAGTACAGGACCTTCGACAACGAGCTCAGCGACCCGCACGAC
AAGGAGAACCACAGCTACACGCTCGACAACCCGCTCTACGTGGCCGCCGACATCCGCGAC
GCAGAGGACACCGAGCCCGCCAACACTCTCGGCATCAAGAGGCAGCACTCCCTGGAACAG
GTGCGGGACATATTCAGCTCGGGAGACGCCACGCTGCTCAACCCCGCGGGGAGGGTGAAG
ACCCCGGGGGATCTGCCCGCCGCCGTGCGGTCCCGGGCCCGGGCCCTCGCGCCGCGGGGC
GAGGCCCTGGCGAGGGGAGGCTCCCGGAACAGGCTCAGCCTGTACGACGACCGCATGATG
TTCGGCAACACCCTGTAG
Protein sequence:
MMDGMLSQRVTPLLKCVVLFMFIFTAKVLTSRPHDSEDATNSIHQQKPSHYVRTFTKYHH
RRTSQLNNLDDPYWILAQDQPKVIVKRSVKQIGNELLSTSDDINQVAPVSIGDEVVDQMD
KPMGAKDQQKSTDSRKYKVKAAVIVTDAPTTPGPTISCLYKIHSVALSVTPSYHDGNAQF
TVENEIFDRGDITETTLPSGESAQVEKCTDPKAFCYTLWHQDNDANVTVLGQGCWRSSQG
GRACDKCTRVTARLPRTRFCCCTRSLCNADITTLKEESVTIKAESTMKSTRGANYSSVLA
SAVLALVAVMLMAIVFRKMYCSRPGLDKGDMSDGLDLEKGEVMGSGPDGLATGLLCVDNI
TLIEHIGQGKFGSVWRGVLGARPVAVKLYCSPAAWRKEAAIYAMPHLAHPNILRYYGSDS
RSSLVEAGGRSQLVVLELCSESLRDRLVRAPVDWTEFATLAHGLASALAHLHTTTSSKPC
IVHRDVNSGNVLVSVDGRARLADLGLAQALPVTPDRTCRLTEAGTLRYLSPEALEGALDL
SGARAALCAVDVFALGLVLWEMLWRCEGAQAHVPPYAPPYHHHGLPARPTLAQMQALVSR
GKARPPLPPPSSCGARGLLRPLRLASATCDECWDHDAEARLTAVCVEERMMELKSILNTL
TDLDRGAAPGGGDHGSTEPSLTDADKKCNANVVQAGDSTPLLYPDPHMGRNACIERNTNT
HTQTHTVELIPKTHRDADHEQRNVQNCQMLARTHAQGTRHRDNIERLNEIRSYQRPLEYV
QNDVTRHEEAEGAWNNGGGKEKQRWGIRRLFEKKAKDTRVGLETNVTQNGKVKTSLVEKF
TNLTFDRPSNLVLDDERSLTFEPCTLSPPNKTLSPTMIKESELNTDKVFRELPSRDDGDR
NQVFAVIVPKVIQETKPQGESGSESEDSTLKTRASAENKTIHSGRSSRNNIELELDFIEM
PRDLRDSPYDLNSECSSEDEHLLLLAETGGSRITMKTVSRTDDRHTSDVLREASQTNTDH
LYNKHNKYRTFDNELSDPHDKENHSYTLDNPLYVAADIRDAEDTEPANTLGIKRQHSLEQ
VRDIFSSGDATLLNPAGRVKTPGDLPAAVRSRARALAPRGEALARGGSRNRLSLYDDRMM
FGNTL