Genomic Position | scaffold805:- 51603-57248 |
---|---|
See gene structure | |
CDS Length | 5490 |
Paired RNAseq reads   | 802 |
Single RNAseq reads   | 2159 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005985 (0.0) |
Best Drosophila hit   | plexin B (0.0) |
Best Human hit | plexin-A2 precursor (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to plexin B CG17245-PA [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to plexin B CG17245-PA [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0017154 semaphorin receptor activity GO:0007411 axon guidance GO:0035021 negative regulation of Rac protein signal transduction GO:0008045 motor axon guidance GO:0035025 positive regulation of Rho protein signal transduction GO:0007165 signal transduction GO:0005622 intracellular GO:0016020 membrane GO:0005515 protein binding |
InterPro families    | IPR001627 Semaphorin/CD100 antigen IPR008936 Rho GTPase activation protein IPR014756 Immunoglobulin E-set IPR016201 Plexin-like fold IPR015943 WD40/YVTN repeat-like-containing domain IPR013783 Immunoglobulin-like fold IPR003659 Plexin/semaphorin/integrin IPR002909 Cell surface receptor IPT/TIG IPR013548 Plexin, cytoplasmic RasGAP domain IPR002165 Plexin |
Orthology group | MCL10098 |
Nucleotide sequence:
ATGGCTGCATATAAGACAGTATTAGTCATAACGTTTTGGCTTCGATGCACAATAATTTAT
GGCTACGAGTTCATATCACAATATCCAAAAAATATAAATGAAACTTATCAATTTAACCAC
CTTGCCGTTGATAAACAAAGTGGTCAAGTATATGCAGGTTCTTTAAATGCCTTGCACCAG
TTAAGTCCAGATCTAAAACCTCTTCACGTCGTGCGGACCGGGCCAAAACTAGATAATCCG
GTGTGCCATGCCAGTGGGTGTCCTTCTCCCGATACACAAACTGTATGGACAGATAATGTG
AATAAAATATTAGTGATTGACCAGGAATCAAGAATTGTCATAGCATGTGGATCTGTAGCT
CAGGGTTCGTGTACTAAGTATAAGTTAGGAGACCTTTCTGCAGAGCCCGAGTTTATTCCT
GAAAGTGTCGCCGCTAATGATGCAGAAGCATCTACATACGCCTTTATTGGTCCCGAAAGA
TACAACTCCTGGGATCGTTCAAATGTACTTTATGTGGGTACAACTTTCACAAACATTGGA
GAGTACAGACATGATGTTCCTGCAATATCCAGTCGTGATCTCATGACCTTGCAATTGGCT
CAGTTCACATTTTCCAAGCAGAGTTTAATACAAATAGATGTTAAATACAGGGACAATTTT
CTTGTGCAATATTTATATGGATTTAATGCTAGTGACTATGCTTACTTTCTTATTATACAA
AAACATTCCCATCTAGCTGGTAATGAAGAGTTAGGATATGTGTCACGTTTGGCCCGTACT
TGTGTTAATGATGATAATTACAATAGTTATACAGAAGTTACGCTAGAATGTAATGTGTGT
GAAGATACTGGTAATGGTAAGTGTGAAACAGTCAATTATAATTTAGTTCAAGATGCTAAG
ATTGCAAAAGCTGGAATAAATCTGGCAACCCAGTTAGGTATTGAAACAGGTGATTCAATT
CTTGTAGCATCTTTTAGTCCATCTAAAGGTATTTCTAATGAGCCTACTACTAAATCAGCA
ATCTGTGTTTACTCACTACAAGAGATAGAAATTAAGTTTAATGAAAATGTACACATGTGT
TTTAATGGCAGTACTAAAGCTCGTAACATGGGTTATATATCAGGAATGATTTCAGATGGT
AAATGTCCAAGTGTTGGTTCTACTGGTAACATTCTTAATTTTTGTGAAGTAGGTCTTAAA
ATAAGTGGTCTTTATCCTATTAAAGCATCATCAGTGATTTATTGGAATGATACTTTGATA
ACATCAGTAACAATGTCAGTAACTGGTTTGCACACTGTTGCCTTCCTCGGTACTAATGAA
GGGATATTAAAGAAAGTGCTCATAGATGCTGATAAAGCACAACAATATTCAAGTGAGGTT
CTCCTATCTGGTCAAAAAATACTACCAGACACAACTTTATCTCCATATGGCAAATCCCTA
TATATTTTAGCTAAAAATTCGATAGTTCAAATTCCGACGGAGAAATGTGCAGAACATGGA
AACTGTTCATCATGTTTGGAATCCAATGATCCACATTGTGGTTGGTGTTCCCTTGAGAAA
CGGTGCACAGTTCAAAATATGTGTCAAAAAGGAACACAAAGTGCACCTCGGTGGCTCTCC
CAATATACAGGTCAACAGTGTATTGATTTTGAACAAATTTTACCAGACAGAATATCTATG
TCAGAAATTACTACTGTGCAACTTATTATAAGAACATTACCAGAACTTCCCTTTGGTGCA
AAATATAAGTGTGTATTTGGAAATGCACCACCAATAGATGCAGCTGTTACATCTAATGGA
CTAGCATGCCCTACACCAGATATTAAACATCCACTATCAGTCCATTCCTCTGAGACAAAT
AAAGATTTTGTTTCTCGTAATTTTGCATTTTTTGATTGTTCTAAACACATAACATGTCAA
ACTTGTATATTAAGCGAGTGGGCTTGTAACTGGTGTATATATGACAATAAATGTACTCAT
GATATATCTGTTTGTCAGCGCACTGTAATCGGTGGTGAAAACAATCCAAATAAATTACTC
AACCAGGGTATCGGTCATTGTCCCAGGATAAGGCAATACAAGAAACCCATTTTACTACCC
AATAACGTACCAAAAGAATTAGAGCTGGAAGTAGAAAATTTGCCTCACTTACAACCTGGT
CATACAGGCTTTCAGTGTATTGTCACAATTGAACTGGCTAATATGATTCTGCCTGCTCGA
GTGGAATCAAACCATTACATTGTTTGTGACAAAACTATGTATTCATATGAAGAGGATGTA
GGGGAATATAATATAAGCGTTAAGGTGTTTTGGAACCACAAACATTACATAGATACAATA
ACTATAACTCTATATAAGTGTGAGATTCTTGGATCCCACAGAGACCATGCTGATTGTTCT
CTCTGTATAACTCGAAATTCAGTCTATCAATGTACTTGGTGTGGCAATTCCTGTTCTTAC
AGTGAGTCTTGCTTAGAAAATCCTGTTACCGAATGTCCTAAACCTCGTATTGACATGATA
AAGCCTTTAAGTGGTCCTATAGAGGGTGGAACATTGGTCACCATTGAAGGTAGCAATTTG
GGGTTACGAGTTGAAGAAGTAACTGGAAAAGTAAGAATTGGAGATGTTCTTTGTGATATT
GTGGACTTTGAAGTATCTGTAAGTATAACATGTAGGACAGGACCTTCAAATGCGTCGGTA
ATTGCACCCGTGATTGTCGAGAATGATGCAGGTTATACAGAATCAACTGTGTTATTCAGT
TACAAAAACATTAAATTGCAGGGTGTCTATCCATCTCTGGGACCTGTATCCGGCGGAACC
CAACTAGCCATTGGTGGTCAACATCTTAACATTGGCTCATCTGTATCTACATATTTAGAT
GAAATGCCATGTTCTGTTAATAGAACTCAAACATCCAATAGCAGATTAATATGCATAACC
CCTAAAGCGAATTCGCCACGAATCATTCATACTTTGCTTGTAATCATTGACAACGCCAAT
AGAACGTTATACGGAGATTTGTTTAATTATACAGCTGATCCAACTATTATGGAGATAAAG
CCTCTTAAAAGTTTCGTATCGGGGGGCAGAATGATAACAGTTCATGGTACTAATTTGCAT
ACTATACAGAAACCTCTCATGAAACTTTATTACGCAAATGAAGTGATCCCTGTAAATTCC
ACGGAATGCGTTGTGTTAAACTCTAATCAAATGGAATGTCCAAGTCCGTCTATAAACAAA
AAATATAATGAAATTATACAAGCAACTAAAGCTCAGACAAACACTCCACAGATAGCGATG
AAAGTTGGTTTTGTCATGGATAATGTGGAAACTATGCATGATTTAGAAAAGTATTTTAAT
CCACCTAGGACTCATATGGTATTCGTTGAGGATCCACACGTGTACCAATTTCCGAATAAA
ATAAAATCGTACAAAGGCGATCCTTTAGTGATAGAGGGTGAAAATTTAATTAGAGCAAGT
GATGAAACTGATGTCATAGTCACTATTGGAACTCAATCCTGTAACGTGACAAGTCTTACA
ATGCAGCAGCTGCTTTGTACTCCCCCTGAAATTCAACCGCCAAATACTGACGAGAATGGT
TTCCAATTATCTGATATTAATTTGCCTTTAGTTGTCGTAAAGATAGGTAAAAATTTACGT
TTTCCTATAGGATACCTGCATTATGAATTGTTAAGAAATTATAATTTTCCTCCCGAAGCC
ATAGCGGGCATTGCTGCGGGTACATTTTTCCTTGTACTCATATTTATGATTGTTTTGGTT
ATGTACAGAAGACGCAGTACTAAAGCGGAAAGGGAATACAAACGAATACAGATACAAATG
GATACTCTTGAAAGTAACGTGAGATTGGAATGCAAACTGGCTTTTGCAGAACTTCAAACT
GATATGTCTGATTTGGCAGCGGATTTAGAACACTCTGGAATTCCGACTCTGGATCATGTT
AATTACGTTATGAAAGTATTTTTCCCCGGTGTATCAGATCATCCTATTTTAAATGTTCAA
AGACAATTCATAAATACGCCTCGAACTAATTATGACGCAGCGATGTTTCAATTTGAACAA
CTTCTAAATAATAAGTGTTTTCTTCTGTCATTTATAGACACATTAGAAAGCCAGAAAACC
TTTAATATAAGAGACAAAGTGAATGTAGCATCTCTATTGATGGTTATTTTGATGGGAAAA
ATGGAATACGCTACGGACATTCTCAAATCATTACTATTACCTATTAAACATCAAATCGAA
AAGGGCGTAGTAGATGCTATTACGCATGAAGCAAGATATTCATTATCGGAAGAAAAACTT
TTGAAGGAACAAATAGATCATCAAATTGTAACTCTACATATAGTCCAAGATGATTTCGAT
GATAAAGTACAATGCAAAGTTTTAGATTGCGATAGTATATCCCAAGTAAAATCGAAAATA
TTAGATGCTTTATTTAAGAACACTCCATTTAGTATGCGCCCGTCCGTCCACGAAGTTGAC
TTAGAATGGAGACATGGAAGAGGCGGACATGTTACGCTTCAAGATGAAGATCTTACAACG
AAAACCTTGAATGGCTGGAGAAGGTTGAACACGTTAGCTCATTATGGCGTAAAAGAGTCT
GCTGTTATGTCGTTAATATCGAGACAGAATGACAGCTTCAATACCCCCTATAAAATACCT
TGTAAAAATTGTACTGGCATTTATTGCACAAATTCTCACATAAGGGTGTATAAAAGTGAC
ATAAACGACCAAAACGTACACTATTATCACTTAGTTAAACCAATTGAATATCAACACATT
GTAAATAAATCTTCAGAGCATAGCCATAAAGCTATACCGGAAATATTCTTAACTCGACTT
CTTTCAACTAAGGGGACAGTTCATAAATTTGTTGATGATTTCTTTAGTACGATATTGACC
GTAAATGAAGTGTTGCCACCAGCAGTGAAGTGGTTATTCGATCTTTTCGACGATGCAGCT
AGATCACACGGTATAATCAATCCTGAAGTAGTTCACGCTTGGAAATCTAATAGCCTGCCA
TTAAGATTTTGGGTGAATCTTATCAAAAATCCCGATTTCATTTTCGACATTAACAAAACT
GCCACCGTCGATTCATCTCTCTCTGTTATTGCACAAACCTTTATGGACGCTTGTTCTCTC
TCCGAACACCGTCTGTGTAAGGATTCTCCTTCGAACAAGCTTCTCTTTGCAAAAGATTTG
CCTACATACAGGGATATGGTAATACAATTCTACCAAGCCGTCTCCCAATTACCTCAAGTA
TCCGACCAAGAGCTAAGTACCTCCATGCAACAACTTTCAGTTGAACAGCTTAATGAGTTT
GACACTCTGTCCGCATTGAAAGAGTTGTATATTTATGTCAGTAAATATAGAGAACAAATT
ATAGTAGGGCTAGAAAATAAAATGCACTTAGCTCATAAATTAGATAACGTAGCATGCACT
TTGGAGGGCGACCCCGCAGCTGTGTGCTGA
Protein sequence:
MAAYKTVLVITFWLRCTIIYGYEFISQYPKNINETYQFNHLAVDKQSGQVYAGSLNALHQ
LSPDLKPLHVVRTGPKLDNPVCHASGCPSPDTQTVWTDNVNKILVIDQESRIVIACGSVA
QGSCTKYKLGDLSAEPEFIPESVAANDAEASTYAFIGPERYNSWDRSNVLYVGTTFTNIG
EYRHDVPAISSRDLMTLQLAQFTFSKQSLIQIDVKYRDNFLVQYLYGFNASDYAYFLIIQ
KHSHLAGNEELGYVSRLARTCVNDDNYNSYTEVTLECNVCEDTGNGKCETVNYNLVQDAK
IAKAGINLATQLGIETGDSILVASFSPSKGISNEPTTKSAICVYSLQEIEIKFNENVHMC
FNGSTKARNMGYISGMISDGKCPSVGSTGNILNFCEVGLKISGLYPIKASSVIYWNDTLI
TSVTMSVTGLHTVAFLGTNEGILKKVLIDADKAQQYSSEVLLSGQKILPDTTLSPYGKSL
YILAKNSIVQIPTEKCAEHGNCSSCLESNDPHCGWCSLEKRCTVQNMCQKGTQSAPRWLS
QYTGQQCIDFEQILPDRISMSEITTVQLIIRTLPELPFGAKYKCVFGNAPPIDAAVTSNG
LACPTPDIKHPLSVHSSETNKDFVSRNFAFFDCSKHITCQTCILSEWACNWCIYDNKCTH
DISVCQRTVIGGENNPNKLLNQGIGHCPRIRQYKKPILLPNNVPKELELEVENLPHLQPG
HTGFQCIVTIELANMILPARVESNHYIVCDKTMYSYEEDVGEYNISVKVFWNHKHYIDTI
TITLYKCEILGSHRDHADCSLCITRNSVYQCTWCGNSCSYSESCLENPVTECPKPRIDMI
KPLSGPIEGGTLVTIEGSNLGLRVEEVTGKVRIGDVLCDIVDFEVSVSITCRTGPSNASV
IAPVIVENDAGYTESTVLFSYKNIKLQGVYPSLGPVSGGTQLAIGGQHLNIGSSVSTYLD
EMPCSVNRTQTSNSRLICITPKANSPRIIHTLLVIIDNANRTLYGDLFNYTADPTIMEIK
PLKSFVSGGRMITVHGTNLHTIQKPLMKLYYANEVIPVNSTECVVLNSNQMECPSPSINK
KYNEIIQATKAQTNTPQIAMKVGFVMDNVETMHDLEKYFNPPRTHMVFVEDPHVYQFPNK
IKSYKGDPLVIEGENLIRASDETDVIVTIGTQSCNVTSLTMQQLLCTPPEIQPPNTDENG
FQLSDINLPLVVVKIGKNLRFPIGYLHYELLRNYNFPPEAIAGIAAGTFFLVLIFMIVLV
MYRRRSTKAEREYKRIQIQMDTLESNVRLECKLAFAELQTDMSDLAADLEHSGIPTLDHV
NYVMKVFFPGVSDHPILNVQRQFINTPRTNYDAAMFQFEQLLNNKCFLLSFIDTLESQKT
FNIRDKVNVASLLMVILMGKMEYATDILKSLLLPIKHQIEKGVVDAITHEARYSLSEEKL
LKEQIDHQIVTLHIVQDDFDDKVQCKVLDCDSISQVKSKILDALFKNTPFSMRPSVHEVD
LEWRHGRGGHVTLQDEDLTTKTLNGWRRLNTLAHYGVKESAVMSLISRQNDSFNTPYKIP
CKNCTGIYCTNSHIRVYKSDINDQNVHYYHLVKPIEYQHIVNKSSEHSHKAIPEIFLTRL
LSTKGTVHKFVDDFFSTILTVNEVLPPAVKWLFDLFDDAARSHGIINPEVVHAWKSNSLP
LRFWVNLIKNPDFIFDINKTATVDSSLSVIAQTFMDACSLSEHRLCKDSPSNKLLFAKDL
PTYRDMVIQFYQAVSQLPQVSDQELSTSMQQLSVEQLNEFDTLSALKELYIYVSKYREQI
IVGLENKMHLAHKLDNVACTLEGDPAAVC