| New model in OGS2.0 | DPOGS214481 |
|---|---|
| Genomic Position | scaffold3268:- 5517-20012 |
| See gene structure | |
| CDS Length | 6000 |
| Paired RNAseq reads | 16921 |
| Single RNAseq reads | 42571 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013415 (2e-19) |
| Best Drosophila hit | CG7177 (6e-134) |
| Best Human hit | serine/threonine-protein kinase WNK3 isoform 2 (1e-120) |
| Best NR hit (blastp) | PREDICTED: similar to Serine/threonine-protein kinase WNK3 (Protein kinase with no lysine 3) (Protein kinase, lysine-deficient 3) [Apis mellifera] (4e-155) |
| Best NR hit (blastx) | serine/threonine-protein kinase wnk 1,3,4, putative [Pediculus humanus corporis] (4e-144) |
| GeneOntology terms | GO:0005524 ATP binding GO:0006468 protein amino acid phosphorylation GO:0004674 protein serine/threonine kinase activity GO:0007411 axon guidance |
| InterPro families | IPR008271 Serine/threonine-protein kinase, active site IPR017442 Serine/threonine-protein kinase-like domain IPR011009 Protein kinase-like domain IPR000719 Protein kinase, catalytic domain IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain |
| Orthology group | MCL10570 |
Nucleotide sequence:
ATGATTGCACAGCAAAGGCCTCTTCTTCCTCATATGGAGAAGGAAAAAAAGCTGAATAAG
ACTGAACGTCTCAGGTTCCGCGAGGAGGCTGATATGTTGAAGAAGCTGCAGCACCCGAAC
ATCGTGCGGTTCTACAACTACTGGGAGGGCACGGTGGCCAAGAAGAAGAACATTGTGCTC
ATAACAGAGCTCATGGTCTCCGGCACGCTCAAGACCTATCTGAGAAGGTTCAAGCGGATC
AATCCCAAGGTGTTGAAGTCTTGGTGTCGCCAAATACTCAAGGGGCTGAATTTCCTTCAC
TCCCGAACACCGCCTATTATCCACAGAGATCTGAAGTGCGACAACATCTTCATCACGGGC
ACCACGGGCAGCGTCAAGATAGGAGACCTCGGCCTGGCCACGCTCAAGAATAGGAGCTTC
GCTAAGTCTGTTATAGGCACGCCGGAGTTCATGGCCCCGGAAATGTACGAGGAGCATTAC
GACGAGTCCGTGGACGTGTACGCCTTCGGCATGTGTATGCTGGAGATGGCCACCGGCGAG
TACCCCTACAGCGAGTGCAGCGGCCCGGCGCAGATATACAAGAAGGTGGTGTCGGGCGTA
AAGCCGCAGAGTCTAGAAAAAGTCACCATTCCAGAAGTAAGGGACATCATAGAGTCCTGC
ATACGACCGGACAAGACGGACAGGCCGAAGGTCAAAGATTTGTTGAACCACGAGTTCTTC
GGCGAGGACATCGGGCTGCGGCTGGAGATCGTCGACCGCGACCTTGTAACCACATCAGAC
ATGCCCAAAATACAGTTCAGGCTAAAGATCATTGACCCCAAGAAACGCTCGTACACTCAC
AAGGAGAACGAGGCCATACAGTTTGAATTCGACATGATCCGGGACGACTGCGAGGAGGTG
GCCAAGGAAATGGCGAAGGCCGGCCTCATCATGGAAGAGGACGCCAGGATCGTGTTCAAG
CTGCTCAAGAGCCAGCTCATATCGCTTAATCGCGAGAGGAGCGAGAAGAAATCGCAAATG
CTGTTCAACCAGGAGCTGATAAACGAGCAGAACAGACAGCAGCAGTTGCTGTTGGAGCAG
CAGTTGAGACAGGTAAAAATGATCCAGAACCAACAGCAGGCGGGGCCGGTGGACCAGGTG
AAGGCGGGTCTGCTGAATGGAGTAGCATCACAACCAACCCTCGCCGCCGTGCAACTCGAT
CAACAATCTCAATTGTTGCAAGCGCAACAGCAAATCCTGCAGCACCAATTCCAACAGCAC
CTCACTAACGAGGAGAAGATGATGGTTTTGCAGCACAATCTAATGCAGGCTCGTATTTCC
CCATCTCTCACCGCTGACCAACAGCTCTTGCAGCAGAAACAGTTCCTAGAGCAAAACCTC
AAACAACAGGTGATGATTGAACAGAATCTTCTTCAACAATCCCTCGCAAAACAGCAAATG
CTCGAACAGACGGTGTCGAATCAGGCATTGATAGACCAACAGACACAGCAAGGTCTACTC
GAACCACAACAGACACAACTACAGAACTCCCTTTTAACACCTCAGTTAGTAGCTAATGAG
ATAACCAATCAAAGTCAGGTCCTGCAGCAGAAAATAATTCAGCAACAGCAGAATATAATC
GCACATCAAGCTGCAGCGATCCAGCAAAAACAGCTTGAGGAGCAGTTGACCAACCAGGAG
AGTATTAATACAGGTCCACAACAGAACCTCGTCACGGGTCAGATGTTAGATCCTTCTTTG
CAAAATTTACAGAACATATTGGCTCAAATAATTCACCGTCCAGAATCATTACAAACCAGA
AAAGATTCGGAGTCTGAACAAATCCAACAACATCATCATCAGCAACCGCAGCAATTGCAA
CAACAAGTTGTAGGACAGCAGACGGAAAATGTTGACGTGCAGCAACAACATCAAATGGAA
CAGGAAGCTGTTCAGCAACAGAACCTGTTGAAAGCCCAAATGCAACAACAAACTAGTCAA
AATGTTAATTTTCAACAAAATCAGCAGTTCATACCGACTAATCTATTAACAGCAGCCGTT
GATCCCGCTATATTGGCGCAACAACAACAAGTCGCTCAAGCACAACACCAAATGGCACAA
GCACAACAGCAGCTTAACGTCCAGAGGCAGATGCTGACTCAACAGCAACTCGTGCTGCAG
CAACAGCTCATTACTCAGCAGCAATTGCAGATGCCCGGACAGACGTTGTCTCCACAGCAT
ATAAGAAACATGCAGCAGCAACAGTATCTAGCGCAGCAAGAGTTACAGCTTCAAACACAG
CAGAATTTCATCGATCAGCAGAATCTCGCGTTGCTTGCCCAGAAGCAGCAGTTGATGGGC
CAGCAGCAGCAAAAAGTCGAAGAGATGCTCCGCGCTCAGCGACCTATATACACGCGGCAG
GGGTCCGAACAGAGCCAGCTCAGCAGCACGGATCTACACGAGCCGCCGGCGCTGCCTGAA
CAGTTTCAGCAAAAGCCCACCTTACACCCGCAAATGTCGGTTGACCACATGCAGTACCAG
AATCAAATTCAGAGCGGTCAAGTCCAAAAGCAGCCGTCGGAAGATCAGTACCATCACGTG
CCCATGCAGGGACAATCGCTTCCTCACAACATGCTCAATCAATTCAACGTGGTGCAACAG
AACGAGAGGCAGATATCTAGTCACGAAGGCACCCCGGTGCAGAATTACGCTGCCAATCCC
CTGCAAATGTACCAACAGAGCCATCAAAGTCAACCAGCGCAAATTCAGACTGTGTACAAC
CAGGTCGATACTATAGCTTCAACCACGGTCCCAGCTTCGATTCCAGCCCCTATTCCCACT
TCAGTTCCTGTCCAGCCTCCCGTTTCAACAATCGCTCAGAAGCCTCCCGTAACCTATCAG
CAAACAGAAATGCCCTCAGTCATACCAACATCCGTGCCTACACAAGTGTCACAAGAGATG
AATCAGAACGCTCAGCCCCCAGAAGTCGTTCCACAGAAGCTTAATATTCAGCCCGAGGAA
GCTCTCACTAACGGCCAGAAGGAACAATTCCATACACCGCTAACAGAATTTCCGACCACT
CATCCTGAAGCCATACGACAGCCTGAACTCAGCTCCGTAGAGGAAAAACAGGCGGAGACC
CAGCCGCAAGAAGGTACGGCGGTGCCCTCGCCGATAACGAGCGATAAGAAGTCGAGGGGT
TCCAAGAAGCGCTCCAGAGAGAAGGAGAAGTTCCCTCGGCTGACGGTGCTGACGGTGAGC
GAGGGCGGCACCGTGGTGGAGTGCCAGCTGGAGTCCAAAGCCAAGACTGTGACCTTCAAG
TTCCACGTCCCGGATGTCAACCCTGAGGAGCTCGCCAATAACTTTGTTGCGAACAACCTG
TTGCCGGAGTGGCAGAGCACTGCTTTCACAGAGATGATCGGCGACATCGTCAAACAACTG
AGAGACGCGCCGCAAAGACCGCCCGCGCCGCCCGACAGGCTGAAACTACAAATAGACAAG
ACGGACTACGACTCTGAAACGACGGAGCGGGACGACAACCTGACGGACTCCAACCAGGAT
AACTCGGAGTGCACCACGCCCACCGCCTCGCAGGACAGCATCGCGCTCGGGGAACTGGAG
GAGCCCGAACCCGAACCCGAGCCCGAGCCCGAGCCCGAACACGAACCGGTCGACAAACGA
GCGGACTTACTGGCCAGGAAGATCAGCACGGCCTCCAGTATAGGTTCCAATCAATCGGAC
ACCGGCTCGGCGGCCGACCGGTCGGGCAGCACCGAATCTAACGGCGACAAAAAGTCCACG
AAACCCACTCGAAAGATATCGAGATTTCTAGTCAGTCCCGTAGTGGACCGCGGAGAAGAC
GTGCCGGAGGAGAAGGCGGAGAGAGCGCCGGAGACGAAACAAGAAACGAGCGACAAACAC
GTAGAAGCTAAGACCGAACGAGCCAAAGAACCGATCAAGGAAGTGCAAGTCAACGGCTTC
CCGGAACCGGAACCAGCGACACCTGTGCCGGCGGCGGCAGCGACACACGCCGAAACCACC
ACGGCCACCGAGGCGACGCCGCCGACGAAAGCTCTGCCACAGAGCGTGCCGCAGGAGAAG
TTCGTCCCCACACACCAGTACTCCCTGCCCGCACAGCTGACACACACGCCGCACACCATG
ATCGACCATCGACCGGCGGACATGCAGCAGAAACCCGCGGAGCAGATCCAGCAGGCGCCT
ACCATCACCTGCATCGGGAACATACCGGCGAACATACCGCAGATGCCGTACCAGGCGCCC
ATGAACCCCGCACTCAACGGGACGATACAACCCAACCTCACGACGCCGCTGCAGATCGCC
ACGGATACGCCCCTGCTAGGGTTGAGTCAGGTGGGGACGCCCATGGGGGTCGGAGCGGAC
CTGGGTTTGAACATAGCGCTTGGGGCTGTCGGCCCGGGTTTCGCCGACCCCATGGGCCTC
GGCAGGCTGACTCTGGCGCAACCTATGCTGACCCCCACCTCAGGGGTCACAGGCAGCCTG
GGAAACGCTGAAAATATTCAGAGAATGTTGCTCAAACAAAATATCATAAATCAACAGCAG
AGCCTGTCGGGGCCGAACCTGCTGGGCCTCCTGAACGCCCAGGCCTACCCTCAGCCGGAG
CCGCTGCTCTCCCTCCAGCCGGGCGCGCGGACCGCGTATCCTCCGCCGTTCTGCTACACG
CCCATGCTCGCCACCGCTAACGACTTCATAGCCCAGCAACAGGTGTTGCAGTCCGTGAAC
CAGCTGAACCCCATGGGGCAGGCGGTCCCGGGATTCGGTCTGGGGTTGGGACTGACGCCG
CTGCAGCCCGCCCTACATCAGAACATACCTCTCAACCAAAATCTCATGGGTCAAAACCTA
GGACAGAACTTAGGTCTAGCGGGTCAGAATTTAGGCTTGGCTAGTCAGAACTTGATGGGC
GGGCAGGGTATGATGGGGCAGAATATGGGGCTGATGGGACAGAACCTGGGACAGCTGGTG
GCGCAGAGGGCCGTGCACCACGCTCTGGCTAGGAGAGCCGTCGACATGGAAGTCGGTATG
ACGAACGTGAACTCTACCGGCTCGACTCAGCCGAGCACGCCCAACAAGAGTCAGTCCTAC
ACGGAATACATGATGACGTTTCAGAACAAACTAGCCTCTATATCTAACAGCGGCCCGGTG
TCTCCGCAGTCTCCCTTAGAGTACAGTCCCGCGCTGTCTCCCACACAACGAAGACTCGCC
GGGCTTAAGCAGGAGGTCGTAGATTGTGCCGGAGGTGCCGAGGGGCCCGCGGCGGGGGTC
CCGGGGCCGGCGGGGGGCTCCGTCGACACGGACGTGGCGTCGCACGCCGACCGGCTGGCT
CACCTCGATCATGAGCTCAGCAAGATAAGCCTACACTACAAGCACTCGGCCCCCAAGGAT
GCATTCAGCGACCAAGGAACGGATGAAATGTTGGCGGCGGAGATCCCCGACTCCGGCACC
ACATATGACGACAAGCGCGGCGTCCGGTTTCACGTGTCTCGTGCCGCCCCGCTCAGGAAC
TACGCTCTGTGTCGTCTCCTACCGGACAACGGTGGGTACATAGAGCTCGTAGTGGTAGGG
GGAGGTAAGGACAAGCTCGATCTATCGCAAGGCCAGTTTTCGAGTGACAACGCACTGGAC
GAGCTGTCGTGTGATAACACCTCCCTGTGCGAGGAGACCGCGGACGGAATAGACGGAGGG
GCGGGCAGGGAGGGGGAGGGAGAGGGAGACGAGCTGGGCGGGGACTGCGACACGTACGTG
CTGACGGACAGGGCGCGGGCGAGGTGCTACATGCTGGAGGACGCACTGGCTGACAGGAGA
CACGTCATACTGGACCCGGCGCCCAGGAGCGAGGTGCTGAGTCCCGGTGAGGCGTGCGAG
GAGCGCGACCGGAGTTACTTGATAGTGGACCCGGCCAGGGACGTGACCCGCGCCCTCGGC
CCTCGCCCCGCCCGCCCAACCGAAACGCCTCACCGCACGAACGAACGATCTCACAGCTGA
Protein sequence:
MIAQQRPLLPHMEKEKKLNKTERLRFREEADMLKKLQHPNIVRFYNYWEGTVAKKKNIVL
ITELMVSGTLKTYLRRFKRINPKVLKSWCRQILKGLNFLHSRTPPIIHRDLKCDNIFITG
TTGSVKIGDLGLATLKNRSFAKSVIGTPEFMAPEMYEEHYDESVDVYAFGMCMLEMATGE
YPYSECSGPAQIYKKVVSGVKPQSLEKVTIPEVRDIIESCIRPDKTDRPKVKDLLNHEFF
GEDIGLRLEIVDRDLVTTSDMPKIQFRLKIIDPKKRSYTHKENEAIQFEFDMIRDDCEEV
AKEMAKAGLIMEEDARIVFKLLKSQLISLNRERSEKKSQMLFNQELINEQNRQQQLLLEQ
QLRQVKMIQNQQQAGPVDQVKAGLLNGVASQPTLAAVQLDQQSQLLQAQQQILQHQFQQH
LTNEEKMMVLQHNLMQARISPSLTADQQLLQQKQFLEQNLKQQVMIEQNLLQQSLAKQQM
LEQTVSNQALIDQQTQQGLLEPQQTQLQNSLLTPQLVANEITNQSQVLQQKIIQQQQNII
AHQAAAIQQKQLEEQLTNQESINTGPQQNLVTGQMLDPSLQNLQNILAQIIHRPESLQTR
KDSESEQIQQHHHQQPQQLQQQVVGQQTENVDVQQQHQMEQEAVQQQNLLKAQMQQQTSQ
NVNFQQNQQFIPTNLLTAAVDPAILAQQQQVAQAQHQMAQAQQQLNVQRQMLTQQQLVLQ
QQLITQQQLQMPGQTLSPQHIRNMQQQQYLAQQELQLQTQQNFIDQQNLALLAQKQQLMG
QQQQKVEEMLRAQRPIYTRQGSEQSQLSSTDLHEPPALPEQFQQKPTLHPQMSVDHMQYQ
NQIQSGQVQKQPSEDQYHHVPMQGQSLPHNMLNQFNVVQQNERQISSHEGTPVQNYAANP
LQMYQQSHQSQPAQIQTVYNQVDTIASTTVPASIPAPIPTSVPVQPPVSTIAQKPPVTYQ
QTEMPSVIPTSVPTQVSQEMNQNAQPPEVVPQKLNIQPEEALTNGQKEQFHTPLTEFPTT
HPEAIRQPELSSVEEKQAETQPQEGTAVPSPITSDKKSRGSKKRSREKEKFPRLTVLTVS
EGGTVVECQLESKAKTVTFKFHVPDVNPEELANNFVANNLLPEWQSTAFTEMIGDIVKQL
RDAPQRPPAPPDRLKLQIDKTDYDSETTERDDNLTDSNQDNSECTTPTASQDSIALGELE
EPEPEPEPEPEPEHEPVDKRADLLARKISTASSIGSNQSDTGSAADRSGSTESNGDKKST
KPTRKISRFLVSPVVDRGEDVPEEKAERAPETKQETSDKHVEAKTERAKEPIKEVQVNGF
PEPEPATPVPAAAATHAETTTATEATPPTKALPQSVPQEKFVPTHQYSLPAQLTHTPHTM
IDHRPADMQQKPAEQIQQAPTITCIGNIPANIPQMPYQAPMNPALNGTIQPNLTTPLQIA
TDTPLLGLSQVGTPMGVGADLGLNIALGAVGPGFADPMGLGRLTLAQPMLTPTSGVTGSL
GNAENIQRMLLKQNIINQQQSLSGPNLLGLLNAQAYPQPEPLLSLQPGARTAYPPPFCYT
PMLATANDFIAQQQVLQSVNQLNPMGQAVPGFGLGLGLTPLQPALHQNIPLNQNLMGQNL
GQNLGLAGQNLGLASQNLMGGQGMMGQNMGLMGQNLGQLVAQRAVHHALARRAVDMEVGM
TNVNSTGSTQPSTPNKSQSYTEYMMTFQNKLASISNSGPVSPQSPLEYSPALSPTQRRLA
GLKQEVVDCAGGAEGPAAGVPGPAGGSVDTDVASHADRLAHLDHELSKISLHYKHSAPKD
AFSDQGTDEMLAAEIPDSGTTYDDKRGVRFHVSRAAPLRNYALCRLLPDNGGYIELVVVG
GGKDKLDLSQGQFSSDNALDELSCDNTSLCEETADGIDGGAGREGEGEGDELGGDCDTYV
LTDRARARCYMLEDALADRRHVILDPAPRSEVLSPGEACEERDRSYLIVDPARDVTRALG
PRPARPTETPHRTNERSHS