New model in OGS2.0 | DPOGS204921  |
---|---|
Genomic Position | scaffold3496:+ 25959-44337 |
See gene structure | |
CDS Length | 6756 |
Paired RNAseq reads   | 6541 |
Single RNAseq reads   | 16453 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001770 (0.0) |
Best Drosophila hit   | ND |
Best Human hit | ND |
Best NR hit (blastp)   | ND |
Best NR hit (blastx)   | PREDICTED: similar to BC021381 protein [Nasonia vitripennis] (3e-08) |
GeneOntology terms    | GO:0005575 cellular_component GO:0003674 molecular_function GO:0008150 biological_process |
InterPro families   | ND |
Orthology group | MCL39587 |
Nucleotide sequence:
ATGTTCTGTTCTTTGGGAAAATGTAACGAACGGTGTGGGGTTGGGAGTGATACGGAAACC
GGTGATGGATTGGACAACTCTATACCTGTGGATGAGGTGGCCTCGGCCGTCGCTGCTGTC
TCGGACGAGATCGGGGACATCCTGAAGGACGAGCTGGGAGACGCCGAACGCGCTGACAGG
ATCGGGGCTGAGCTAGCGGACCTCACAGCCGAGTTAGGCCGCCTGGCTGGTCTCACTGGC
GAGCCCCAACAAAAACTTCCCTCCCTTTTCGAGCTCGTGATCGGTCATCAAGTAGTGGGT
GGGCGTGGGTCAGGCAGTGGTTCTTCATCTTCGTCATGGTCTGGGCGGGGCCGAGCAAGA
CGACCGACCAGGCAAAGAGCGGCTAGGCGGCGACCGATCGCCAAAGGAAAGGAGATATCT
CGTCTTCGGAGCGCCGTCGCACGTCGTGTCGCGATGCGCGTTCGTCGTGTCGAGGTCGTG
TCGGACGCGTCGGATGTCGGAGCCGACTCTGATTCGGACGATCAGTGGACAGAGATGGAT
GAAAACTCGGGCAGCACAGATAGCTCTTCAGGCAAAGATGTTGGAATGCATATGGACTGT
CCATCGTACCAACACAAGGGATCGCAGGTGGAGCCGCCAGCGATGGGTCAGTTCCTGTTG
CCGCTGCTGTCTGGGGCTGAGCACGGAGCGCCCCCCGAACATGAGCAGTTCCTCATCAGA
CACGAGGATATACTGCAGTTGCTGGCCTCAGCGGAAGAAAATGTAAGCGAGGACCAACCA
GCTCGTGACACGGGATTGGAGGCGACGCATGACGTTGTATCAGAATTATATGACTCGGAA
CCGGTTGTGACACCTGAAGATGAGGCAGCCCTGCTACACTATGTCTGCGCTGAACCACCA
CCACCGGAGCCCTTTAAGCCTGTTGAGGAGTGGCTGTTGGGGGTCTACCATTCCTGGTGT
GAGATCAGCGCTCTCATGTACACCCTCGTTGGGACCAACATTCCCTTCCCCCCACAAAAA
CATATAATATATAGTCCCTCCCCCCACAGGAGTTCAGAGATGTCGAGGTCGCCCTGGTCG
TACGTCGCTCGTTTCGGATGTCACTGCCGCCTGTGTCTGTCACTAGCCAATAACGAAACG
GCCCTTCAGACCTGGATGCACGGACTGGTAGCCGAGTTAGCTGCTGAACCACCACCACCG
GAGCCCTTCAAGCCTGTTGAGGAGTGGCTCTTGGGGGTCTACCATTCCTGGTGTGAGATC
AGCGCTCTCATGTACACCCTCGTTGGGACCAACATTCCCTCCCCCCAACAAAAACATATA
GTATATAGTCCCTCCCCCCACAGGAGTTCAGAGATGTCGAGGTCGCCCTGGTCGTACGTC
GCTCGTTTCGGATGTCACTGCCGCCTGTGTCTGTCACTAGCCAATAACGAAACGGCCCTT
CAGACCTGGATGCACGGACTGGTAGCCGAGTTAGCTGGAGGTAGCACAGCACCGCTGGGA
GCCAACATTGTCCGAGCCCTGGGGCTTTCACCCGGAGAGCATCTACCACCTTCCACCTGG
GATATTGCTAGACTACAGAGGACTGCTGTCTGCGATGACAGTCTATCGATAATCCAGAAT
CACCTGGAAAGATTGTCCCAGGAGAATGACGTGACCAGCCAGATTGTGAACAACATTTGT
CTATGCAGAACATACGACCGGCCCTTCGAGAAGCAATATGCCATGGAAAGATTCTGTAAG
CTCCTAGAAAACTTCAAGACTGCATCTATAAGCGCATGGGCGGGCTACAAACATCGATGC
GATTGTCTCACACCTAGGACGCTATGCGCTCAGCAGAGGAAACAATTGCTCAGGATCTCG
TTCTTCGGCATGATGCAGGCTGTGAACGAATTCAACGGTAATAAAGATTCTGAAAAGCCG
CCGGTGGACGTTAAGGATAACACAAGTAGGGAGCTACAGCAGGGTGATGGGACAGGCGCT
AAACCTCCGGATTCCCTGGACGATGCTAATTCTCTGGACCTCAGCGATTCCAACGTGACA
GTGGATCTGGATGATTTGTCATCATCGTCAGCGGACTCCCACGGCCAGTCCACTTCCTCG
TTGGACTCGGCCTCCGAGCTTCTGCTGGCGGCTGCCGCGGCCGTGGACTCGGGCTCCTCG
GGCTCCGGCGGCGGTCAGCTGTGCCGCACCGTGAAGCAGCTCATGAGATCTATAGCGTCC
ATAGAGAGGCTCATGGATAGGGTGCTGCAGCACTGCGACCGGTGGGGCGACCGGGATGCC
AGGAAGCGTGTGGATGTTGGTCTGTCTGAAGTGGATCGGAAGCTGATGGCGATGTACCGT
CGTCTGCCGGACGTGCACAGGAGACAGCTGCAGCTGTACAGGAAACAGAAGAGGCTCTCC
ACTGTGTGTACTCAGCTGGTGGGCGGCCGAGCGCCCGCTCCCCCGCCGCCCGGGACTCCG
CCCCCCCTGCAGGCCCCTCTGTCCGGAGTACCACCTGCAACGGTGCGTCGGAAGGTGATG
CATATGAGAGACCAACAGCTATACTACCACAGACTGAGGATTTGGCTCGAAGACCAGCTC
AGGGTCGAGAGGGAGAGTCATCCAGAATGCAACGTGACCCTCGTAGAGGATTTGCCAAAA
CGCAAGCGGCGTAATCTCAGTCCGAAGTTGCCAAAAATGAGTTCAGCGCCGAAGAGAAAA
TTGAAACCCACCCTCCACAACAGCAGACCTCATAAGATACTCCAGCTGTTGAAGAACAGA
ACCAACGAGGACATGTCCCCATACAAAGATATCGACGACATGAAGGAGGTGGAACCGCCC
GAAGCGTTCCCTCTGAACAAGGACGATTTGAGCGACGCGGAGACGATAGTAGGGGACAAG
GACGACCTCTGCAAGGAGATGAAGGAGTGCCTAGCGAAATTCGCAAACTTCGCCCTCAAG
GACAAGGAAGCACCCGAAAAGGATTATCCTGAGTCCATCAGTCCGCCGTTGCAAGAGATG
TCCCCTACCACCGTCGATCCGCCGCTGTACAATCAGAAATCTAGAATAATAAACAAAATA
TCCAGCGATAAGATCGATTTCTGTCAAGGGCCGGAGATCAACGTGCCGTTGAACGCCAGG
GCGCCGCCTAAGGAAGACAAGGACGATGACAAGAACGATGTCTACAAATATGTGACGTTT
GGGCTGAAAATCAAGAAAGCTATGGAGGAGTGCCAGAACATAATAAACTCGTATAACAGA
GGCGGCGATAAGAGGAAAGTGGAGGAGCCGCCGTCCCTGGAGCAGATCATCGAGGTAATG
ATGACGTTGGACAAGAATTCAGCGGAGTTCCTGGAGAAGATGCTGTCAGAGGATCCTATA
GACGAGTCTATAGACATGAACATGGCTGTGTCCAAACTATCGGAACTTTTGGAGAACATG
ATGCCGCAGACATTGGCGAATATGCCGGAGATTGCTACGAAACTGTCCGAATTTGGGGCG
GCTGAGCTTCAGGAAAACGGTTCCGCCGTCAAGAATCCGCAGCCCAACGAGACCCAGCTA
ACCCCGGAGACACTGAGACAGATACGCGAGATAAAACTATCGAAACGGGATGCCGTTAAA
GTGACCAAGAACACGGCGAAGAGGAAAATCAGCCGGAGGATAAGAAACGACGAGGTGTTC
GAATTTGAGGGCGCTCTAAACGACATCGTGAAAGATGAGAAGGATTTACAGAATCTGATC
GGCAACAAAACGAACAAGGACGAGATCAAGGACCTGGTGTATTCTATATCCGCCCAAGTG
TTCGTTAACAAAGTGTTCGAAAACGTCAAAGACAAGACAGCAGCAAACAGGACAGAGGAC
AAGGACACGTCGCCTAACACTATCAACTTTGAAATGTTCTCAAGAATGTCGACGCTATTC
GACAATTCCTTCAAGGCGGCCATGAGCATGAACGAGCTGAGGAGTCTGGTCAAATGCCGC
GTCAACTCGTGGAAACAGTACGTTGCTGCGAAATTCAAAAGCATACCTTTAGAGCTACTC
GACAACGAAATAGAACCGATGATAGAGAGGTTCTATTCGTATATACAGGAATCGGCGTCC
AAGCAATGCTGCAACGAGAGCGATAAGATCATTGAGAACATAGAGGAGTTGAGGAAGAAC
GAAGACAGCAACGAGTCCGACAGCGAGAGCTGCCCGGCCTCCAAGGAGACCTTGAAGCAG
TACACGAAGCTGCTGAACACCTTCGCTCTGAGTACATTTGATTTGCTCATAATGAAGCTG
TCCGATATGCCCAACGAAATGAAGTGCACCGTGAAAAGCCTGAAGTTCAAATATATAGAC
GTCATCCGGCGGTGCGCGGAGTCCGAACAACTCGTGGCCTGGATACTCCTGGATCCAGAG
ACAGCCACCACAGTCATCCAGGAACTGACGGCTCTCGAAGTGAGGAAAGTGGATAACGCA
CCGAATTTCTCGAATCTGAGCAATGAAAGGAAACAGGAATATTTTATCAATAGATTGCAC
GAAATGAATAGACAGTACATGGAATCGCTGCCAAAAAAACGTTTGACCGGGGACGAATGG
CTGGTCATACTGTACAGGCTGGAACAGCTAGAGGAGAAACTCAAAGACGCCTTCTCCAAA
GTGCCCCAACCCACCAAAGTCGTTCAGACCCAGAACGCCAGCGAGGCGGAGATATTAGCG
GCGAGGGGTCTCAGCAAGATAATCGGCAAGGCTAACGTCAGAATAGTCAAGAAACCGGAA
AACCAGCCGGTCAAACCGAAAAAGGAACCGGAAATCGAACCCATCAACGAGAACGACGAC
AAGAAACCCAAAAACGACGCGCCTTCAGCAAAAAACGAGGCGACACCGACTTCGAAAGCC
GAAAACAACCTCTTAGATAGCTGCAACACGATCAAATCCTATTTAACATCAGGATTTCCG
GTTCCAGAGAGCTACAAGAAGCACGTCATATCACTCTGCTCGACCATAGACGCCAAACTG
CTGGACATAGAGGAAAACCTCAAAGACGAGGAAGACAAAAACGTGTCCAATCAAAACCCG
GAGCTCCTCGCGAAATACACGGCTCAGGCGCTAAGAAACGCCAAGGAGGCGTTGAACGCG
GTCGCCTTCGGTAACATGACTAGGAACGGGCAGACCAAGTCGGAGAGCGACGTCTGCGAC
ACGCCCAAGAACAACTGCAAGTGGACCAACGACTGCGTCTGCGACAACTGCAAAGATGAC
AAGAAGGACGACAAGAAGAAGATAAAGAAGGCTGTCAAATGTGAGAACGGCAACCACCAG
CAGCATGTGTGTAAAGCCGGCCATGGCGTGTGTGCGGGCGAGGGCGGGCCAGACGCGCCG
TGTAACTGTTGTTATTGCACAGTGTTCGGACACGCGCCTCCGCTGACGACTCCTGTACCG
AGGAACTTTAATGAGACCAGAGAACGACTGAGATCCATACTGAATAAGAAGAAACAGAAG
TGCAAAACTAATGGTGAGGTGGAATCACCAACAGAGCGTTCGCCCCCTCAGCCCACACCC
CCGGCATTACCGAAAACCCTGCCCCCGGATTTGACGACTCAGGCGCAGCAAAAGAGACAG
GCTATGGAGCAGAAACAGCTGGCCGACAAAATGTCCGACAAGACGACAGACAAGGTGGCT
GACAAGGTGGCTGACAAAATGGCCGACAAGATGGCGGAGCTTGTTGTCAAAGAAGAGCCA
GAAATTCAGAACCCCCCACCACCACCGGCCCAGCCAGTAAAGACGGAAGGCAAAGTTAAC
GCAGCGGCAGTAGAGAAAATAAGACTGGAGATTCCTGCGACTTCGTCCGAGTGGACATCG
AAATTGGACTTAGAGAGAAATTTATATGTGAACCAACAATATCTGAGACAGATGCAACAG
CAGCAACAGCCACCGCAGCAGCAGCAACAACAGCCACAGCAACCACCGCCGCAACAACAA
CAACAGCAAAAGAAACCCGAGCCAATATACGATCTGCCGATACACAACAAGCCGACACTG
ACGCCACAACAACAACAGCAAATAAGACAACAACAGCAACAACGCCAGGATGCACTAATT
CGGCAGCAGATGCAAATTCAACAACAACAGCTGCAACAACAGCAGATTCAGCAACAGCAG
ATGCAGCAACAACAGGTGCAGCAACAACAGGTGCAGCAGCAGCAAATACAGCAGCAACAG
ATACAGCAACAGCAAATCCTGCAGCAGCAACAGCTTCAACAACAGCAACAGCAGCAGATG
CAGCAGCAGCAAATGCAGCAGCAGCAGCTGAAGCAACAGCAGATGCAGCAACAGCAGCTA
CAGCAACAACAATTGCAGCAACAACAGCTGCAACAAATGAGGAGTCGACAACAGAACGTG
TCTCTATCTAGTAGAGATACCAGTGTATTCTCGACGTCTAGCGGCTGTTCTGGCGGCTCG
TGTTGGCGTGGCGGGTGCCGCTCGGACCCGCGGGACCTGGACGCGCTGCTGCAGTACATA
GAGGGACCCTCGCGACACGTTGACAGAGGGAAGAAGAGGGCCAAGAAACAGCGACAGAGG
GGCAAGAGGATGGAATCCCGCCTGGTAAATCAGCTGCAACAGCTGCAATCAGAGCTCCAA
TCCGCTCGAGCAACAGTCACCGCCCTACAGAGGGCGCACGCATCGGCGAACAGGGACCTG
ACACACGCTAAAGCAACAATCGCAGCTAGTAAAGGAAAGAAGGGTAATTTTATATTCTGT
ATACGATTTAGACAAATGTATAGTGTGATAAAATAG
Protein sequence:
MFCSLGKCNERCGVGSDTETGDGLDNSIPVDEVASAVAAVSDEIGDILKDELGDAERADR
IGAELADLTAELGRLAGLTGEPQQKLPSLFELVIGHQVVGGRGSGSGSSSSSWSGRGRAR
RPTRQRAARRRPIAKGKEISRLRSAVARRVAMRVRRVEVVSDASDVGADSDSDDQWTEMD
ENSGSTDSSSGKDVGMHMDCPSYQHKGSQVEPPAMGQFLLPLLSGAEHGAPPEHEQFLIR
HEDILQLLASAEENVSEDQPARDTGLEATHDVVSELYDSEPVVTPEDEAALLHYVCAEPP
PPEPFKPVEEWLLGVYHSWCEISALMYTLVGTNIPFPPQKHIIYSPSPHRSSEMSRSPWS
YVARFGCHCRLCLSLANNETALQTWMHGLVAELAAEPPPPEPFKPVEEWLLGVYHSWCEI
SALMYTLVGTNIPSPQQKHIVYSPSPHRSSEMSRSPWSYVARFGCHCRLCLSLANNETAL
QTWMHGLVAELAGGSTAPLGANIVRALGLSPGEHLPPSTWDIARLQRTAVCDDSLSIIQN
HLERLSQENDVTSQIVNNICLCRTYDRPFEKQYAMERFCKLLENFKTASISAWAGYKHRC
DCLTPRTLCAQQRKQLLRISFFGMMQAVNEFNGNKDSEKPPVDVKDNTSRELQQGDGTGA
KPPDSLDDANSLDLSDSNVTVDLDDLSSSSADSHGQSTSSLDSASELLLAAAAAVDSGSS
GSGGGQLCRTVKQLMRSIASIERLMDRVLQHCDRWGDRDARKRVDVGLSEVDRKLMAMYR
RLPDVHRRQLQLYRKQKRLSTVCTQLVGGRAPAPPPPGTPPPLQAPLSGVPPATVRRKVM
HMRDQQLYYHRLRIWLEDQLRVERESHPECNVTLVEDLPKRKRRNLSPKLPKMSSAPKRK
LKPTLHNSRPHKILQLLKNRTNEDMSPYKDIDDMKEVEPPEAFPLNKDDLSDAETIVGDK
DDLCKEMKECLAKFANFALKDKEAPEKDYPESISPPLQEMSPTTVDPPLYNQKSRIINKI
SSDKIDFCQGPEINVPLNARAPPKEDKDDDKNDVYKYVTFGLKIKKAMEECQNIINSYNR
GGDKRKVEEPPSLEQIIEVMMTLDKNSAEFLEKMLSEDPIDESIDMNMAVSKLSELLENM
MPQTLANMPEIATKLSEFGAAELQENGSAVKNPQPNETQLTPETLRQIREIKLSKRDAVK
VTKNTAKRKISRRIRNDEVFEFEGALNDIVKDEKDLQNLIGNKTNKDEIKDLVYSISAQV
FVNKVFENVKDKTAANRTEDKDTSPNTINFEMFSRMSTLFDNSFKAAMSMNELRSLVKCR
VNSWKQYVAAKFKSIPLELLDNEIEPMIERFYSYIQESASKQCCNESDKIIENIEELRKN
EDSNESDSESCPASKETLKQYTKLLNTFALSTFDLLIMKLSDMPNEMKCTVKSLKFKYID
VIRRCAESEQLVAWILLDPETATTVIQELTALEVRKVDNAPNFSNLSNERKQEYFINRLH
EMNRQYMESLPKKRLTGDEWLVILYRLEQLEEKLKDAFSKVPQPTKVVQTQNASEAEILA
ARGLSKIIGKANVRIVKKPENQPVKPKKEPEIEPINENDDKKPKNDAPSAKNEATPTSKA
ENNLLDSCNTIKSYLTSGFPVPESYKKHVISLCSTIDAKLLDIEENLKDEEDKNVSNQNP
ELLAKYTAQALRNAKEALNAVAFGNMTRNGQTKSESDVCDTPKNNCKWTNDCVCDNCKDD
KKDDKKKIKKAVKCENGNHQQHVCKAGHGVCAGEGGPDAPCNCCYCTVFGHAPPLTTPVP
RNFNETRERLRSILNKKKQKCKTNGEVESPTERSPPQPTPPALPKTLPPDLTTQAQQKRQ
AMEQKQLADKMSDKTTDKVADKVADKMADKMAELVVKEEPEIQNPPPPPAQPVKTEGKVN
AAAVEKIRLEIPATSSEWTSKLDLERNLYVNQQYLRQMQQQQQPPQQQQQQPQQPPPQQQ
QQQKKPEPIYDLPIHNKPTLTPQQQQQIRQQQQQRQDALIRQQMQIQQQQLQQQQIQQQQ
MQQQQVQQQQVQQQQIQQQQIQQQQILQQQQLQQQQQQQMQQQQMQQQQLKQQQMQQQQL
QQQQLQQQQLQQMRSRQQNVSLSSRDTSVFSTSSGCSGGSCWRGGCRSDPRDLDALLQYI
EGPSRHVDRGKKRAKKQRQRGKRMESRLVNQLQQLQSELQSARATVTALQRAHASANRDL
THAKATIAASKGKKGNFIFCIRFRQMYSVIK