DPGLEAN15881 in OGS1.0

New model in OGS2.0DPOGS204226 
Genomic Positionscaffold644:- 42-11845
See gene structure
CDS Length5670
Paired RNAseq reads  3187
Single RNAseq reads  7628
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA007507 (0.0)
Best Drosophila hit  fat facets, isoform A (0.0)
Best Human hitprobable ubiquitin carboxyl-terminal hydrolase FAF-X isoform 3 (0.0)
Best NR hit (blastp)  PREDICTED: similar to Probable ubiquitin carboxyl-terminal hydrolase FAF-X (Ubiquitin thioesterase FAF-X) (Ubiquitin-specific-processing protease FAF-X) (Deubiquitinating enzyme FAF-X) (Fat facets protein-related, X-linked) (Ubiquitin-specific protease 9, X c... [Apis mellifera] (0.0)
Best NR hit (blastx)  PREDICTED: similar to Probable ubiquitin carboxyl-terminal hydrolase FAF-X (Ubiquitin thioesterase FAF-X) (Ubiquitin-specific-processing protease FAF-X) (Deubiquitinating enzyme FAF-X) (Fat facets protein-related, X-linked) (Ubiquitin-specific protease 9, X c... [Apis mellifera] (0.0)
GeneOntology terms











  		GO:0007097 nuclear migration
GO:0009790 embryo development
GO:0048749 compound eye development
GO:0008583 mystery cell fate differentiation
GO:0007349 cellularization
GO:0005737 cytoplasm
GO:0006511 ubiquitin-dependent protein catabolic process
GO:0016579 protein deubiquitination
GO:0004843 ubiquitin-specific protease activity
GO:0006897 endocytosis
GO:0045861 negative regulation of proteolysis
GO:0008354 germ cell migration
GO:0004221 ubiquitin thiolesterase activity
InterPro families
  		IPR001394 Peptidase C19, ubiquitin carboxyl-terminal hydrolase 2
IPR018200 Peptidase C19, ubiquitin carboxyl-terminal hydrolase 2, conserved site
Orthology groupMCL10749

Nucleotide sequence:

ATGACAATATCAATGAAGGAACAAGATCAGATGCCAGGGGAAATGGTTTTCCCCGAGGCA
AAATTAAAAGCACTAGAGGAAAAAATATCACATCCAAGATGGGTTGTACCTGTATTGCCA
GAGCAAGAGTTAGAGGCTCTTTTGATTGCTGCTACAGAATTGGCGACAAGAGGTGAAGAT
GTAAACAATCTTGCGTGCCAGCATTTCTACACAGATTCATTAACAGTTTCCTTTACGAAA
ATTTTAACGGATGATGCGGTATCATCTTGGAAAAATAATATTCAACAATGTGTACGATCG
AACTGTGAAAAACTTGTGAAATTATGTGCTATGAAGTTGGATGACCCTAGATTTCTACAT
CTATTATATATGGCCTTCAATCCTAATAACAAATTTCATACATTCAATGCCTCTAGAACT
TGTGAAGGGTTATCAGTAACAAACTCTACGACTGCTGGGCAGGGCTCCACTCAGGAGACT
GAAGTGTTTGCTAAATCACAAGATCATCGAACACCTAGAGGATGGCTGGTCCATCTCATA
AATGTATTTGGTCAAGCCGGAGGTTTTGTTAAGCTTAGAGAAAGATTTGAAATGATTATG
GGCTTCAAAAAATCAGATCTCACATCATCAGCAATCAGTGAAGAAAAAGTAATTAATGAA
ATAACAGAGAAGGAAAATGAAGAAAATAAAAGCAATGTTACTGAAAGTATCACATCTCTA
CCTGATAATTTAGAGGGTTCCATGACAAGGAGTGAACAGCCGTCATCATTGGAACAGTCA
ACAAGCGGTGAAACATGTGTTAATGCTGTTTGGCAACTTTTGCGACCTTTAGGCCTTTGT
CATGAACTTCTCACTCCACATACTGTGACAGTTTACCTATTACCAGTATTGGAGTGCATC
CCAACACTTTTGGAAAGTCTTACTGATGAAGAATTGAAAAGAGAAGCCCGAGGTAGCGAA
AATAAGACTGACACTGTGTCCTGCCTCATCAGAGCTTGCAAGTGTGTTTCTTTAAAGACT
CCTCAGCATCACAGTTTACTTAAATCCTTAGAAATGTTTCGACTCAAGATGATCCTACGA
CTGTTGCAAATGTCTTCTTTCAATGGAAAAATGTCGGCTTTAAATGAAATTAATCAGTTG
ATAAGTACAATATCACAACAACCAAAACCAGAATGGCTTACTCCCACTGTCATAACGAAT
TGGATACGCGAAAATAAAGTTGTAGATATAGTGTTGAGGGATTCTCTGCATCAACCCCAG
TATGTGGAAAGGTTAGAAAAAATGCTTAGGTTTATGATCAAAGAAAACTCTTTGACGAGG
GACGACCTGGACGCCATCTGGAGGGCGCAACACGGAAAACACGAGGCCATAGTCAAGAAC
CTGCACGATCTACTCGCCAAATTAGCTTGGGACTTTACACCAGATCAACTCGATCATTTA
TTTGATTGTTTTAAGGCTAGTTGGGCAACATCCAGCAAGAAACAGAGCGATAAACTCTTG
GAAGTAATACGCAGACTAGCCGAAGATGATAAAGATGGCGTCATGGCTAACAAAGTGCTG
GTGCTCTTTTGGAATTTGGCCCATTCTGACGAAGTATGCACGGAGATTATGGACGTGGCG
TTAGCGAATCTTATCAAAATACTCGACTACAGTTGCAGCCAAGATCGTGATGCACAAAAG
ATACTGTGGCTTGATAAGTGCGTGGAAGAGTTGAAAAGCAACGACAAGTGGGTTCTGCCG
GCGTTGAAGATGATGCGTGAGATCTGCTGTCTGTACGACGCGGGGGGCGGGGCCGGCGCC
AGGCCGCACGTGACGCGCCAGGAGCTCATCGACCGCCTGCAGACACAGCACTCGCTCGTC
ATACTCGTCACCGACTCACTGACGCACTACATGAACGTCGTGCGAACCAAGCTGGCCGGA
GAGGGCTCAATAGATTGGGAGAATTGGCTTCCAGACGGTCGTTACCCACATGCTGCTCAG
GTTCACGAAAGGCTAAGTTTTCTACGGTTTTTGCTGAAAGATGGGCAATTATGGCTTTGT
GCGGAACAGGCAAAGCAAATTTGGATATGCTTAGCGGAAAGGCCTGCGCATTTGGGGGAC
CGCGAAGCTTGTTTTCGTTGGTTTAGCAAATTAATGGGTGAAGAACCAGATCTGGATCCA
AATATAAACTTGCATTTTTTTCGGAGGAATATTATGACATTATCACCTAGCTTATTAACT
CATTCCGGAATCAAATGCTTTGAGAGATTTTTTAAAGCAGTAAATTCAAAAGAAGGCAAG
CTTAAGGCTAAACGTCGTAGTTTTTTAATTAATGACGCTGATCTCATAGGATTAGACTAT
TTATGGAGAGTAATAACAGAGTGCGACGACGAGATATCAGCGCGCGGAATAGAGCTGCTG
CGCGAGGTGTGCACGTGCACGGGCCCGCAGCTGTCGGCCGCCCACCACCACGAGGCCTTC
CTTACACACTGCTGTGCGCGCACACAGAGACTGCAGAAAGATATGGATACGCAAGATGAT
GTCTCGGAATGTTGTACTAGAATGTGTAGAGTAATTCGTGCCATACAAGAATATATAAAC
GAGTGTGATAGAAGATTCACTTCAGAGCGACAGATACTGCCAGTGTACAGGTCGGGAAGG
GGCAGGCAGTGCACTATTATAGTAAGATTTAACTTTCAAACTGGACAAAGGCAAATAGAC
GATATAGAACTGTTCTCGCATTCAAACGAAACACTACATTCGCTTCGTACGGCGGTCCAG
AGAAGATTAAAGTGCGCTTCTGAAAATAATATAAAAATAGAAATGTACATAAATAAATTA
GAACTATATGTGAACGGGGAGCTACTAGACACAAGTCACGATCGTAAAATACTCTCTCAG
ATACCTCTTAGAGATAAAACTGTCATTATTGCTAAGGTTTATGATGGACAAGTATGCGGA
AGTGGTGGCTGCGGATCCTCAAACGAATCGAGCAGTGACTCCAGCATCTCATCCCCACCA
CTCCCTCCTACCCCAGAACATGCTCTACCTGGCGTTATTTTCGCTCAAGGCTCGTGGTAT
TTACCTTTCATTCTGGAGTTGGAGCATGTCGGCATCACAAAGGGACACGCCCCGCTAACA
GAGGCCGCTCATTTACTATCGCAAATATGTCCTAGTCACAAACAAACCGTCGAAAAATTA
ACTGAAGCTCTTTTAAGTCGTGAGGATACTAAGTTAAGGGACATGCTATATGGACCAGCC
CCACCCACCGTTGCCTATAATGTTGAGGTCCTATATAGCATGGTGATGCCATCGTCGGAG
ACTAGACTAGAAAGAAATAGAAGTTTCCAGCTGGCCTGTGTAAAAAAAGCTCCGCTGTTA
GTGCAGTGCTTATCAGACAATGATTTTTTGAAAGATGCTGCACCACACACGAGACGAGTC
GGATATTTAGCTTTAGTAAGACTGGCGAAATTGGCTTTGTACACATTGGGACATTTGTTT
GAAATTCTTGCACCAGACGGTTCCGACACCTCTTTAGATAAAGAATTTAGGATGGATGTG
ACAATATTAAGGGAGGCACTGCAAACTGTTCCGAATCATAATTGTGAGCTTGTTGTAAAG
GCAATTGCCGAAAAGCTAGCCAACACCCTTGGAGAGCAGATGGTGACAAGCAGTGAAGAG
AGCCACTCAGTATCGTCGTTGGTGTGGTGGCGCTTGCCCACTATGGCCACCGTTCGCGCC
CTCTATGGCCTCGCCTACTCTGTGGCACAACCCGACCCAGACGGACTAGTGCACTCCGAT
GATGTTATATTGGTTCGAGAATGTATGGAAGTTGTCACGATTTGCATGGCGCTAGGAGGA
GGACATCTCGAATCACTTCTACATGAAACCTGGTGGCAGGATACCGCGCTGTACTTAATG
ATCGATTGTCCCAATCCTCAGGTGCGCGTGTCATGCGCCGAGCAACTGTTGTCGATGTGT
GCGTGGGGTGGGGGCGGGGGCGCGCGGGGGGCGCTGGCGGCGCTGGGCGGGGCTCGCGGG
GCCGCCGCGCCGCGTCTCACCACACACGCCAGACACGCACAGCAGTTCCTACAGCTGCTG
TGTCGACTGGTGGCACTCGCAGGACCCACCGCGAGAACACTGGAGGATCTCGCTATTGAA
GTGGAGTACTTGCGTGCCGTCCGCGATAATCCTGCAACTTTAGATGACACTTTATTGGAA
GGTCATCTCAATCTTACCAAAGAATTATTCACCCACGTCCCGGCTCAGGTGAAGTTCCAA
TACGGCGCACATCCTGACCACAAAGACTCGGGCCTCATTAGGGAAGTGACAACTGAGTTC
CTGTGGCCGTATTCGTGGGCGTGGTGTCATATGAGTAACGAACTGTCTGGCGACGAGGAC
GGCACTAGCGAGGAGGAGTGTGAGGGTGTAGCCCCGCTCTGCCGTACACCCGGCGCCGCA
GCCGCTGCAACCGATCTACTGCTGGCTCTGGTGCATGCTTGCGTTCCTAATATGGCTGCG
CTTGCCAACTTACTTGAACAGATGTTCTATAGTGATAAAAACATGGGTCTATCCGAGTGG
GAGTACATGCCTTGCGTGGGACCGCGGCCGCCGGCCGGGCTGGTGGGTCTGAAGAACGCG
GGCGCCACGTGTTATATGAACTCCGTGTTACAACAACTGTACTGCGTGCGAGCTGTACGG
GACGTGCTCCTAACAGTACAGGGGGCTGCTACTGACCCAAATGAAGATTTTTCCGGCGAA
ACGCATCATCACAGTATTTTGGAAAATAACACAGAGAATAACGCAGATTATAATATCACT
ATACTTAAACAAGTGCAGGCCATATTTGCCCACTTACATTATAGCAAACTTCAGTATTAT
GTACCCAGGGGGCTTTGGGCACACTTCAGGTTACAAGGTGAACCCGTGAATTTACGTGAA
CAGCAAGATGCTGTGGAGTTTTTCATGTCTCTGGTGGAATCCCTCGATGAGGCTTTAAAA
TCGTTGGGACAAGAACAACTTATGGCGAAAACGATGGGAGGAACATACTCCGATCAGAAA
ATTTGTAAGGGATGTCCACACAGGTATTGCAAAGAAGAACCATTCAGTGTAGTTTCCCTG
GACATAAGAAATATGTCCCGCTTGCAAGAATCTCTGGAAGCGTACGTCAGGGGAGAGCTT
CTGGAGGGGGCCGATGCTTATTATTGCGATAAGTGTAACAAGAAGGTTGTAACCGTGAAA
CGTCTGTGTCTCAACAAATTACCGCCAGTCCTAGTCATACAGCTGAAGAGATTCGAATAC
GACTTCGAGAAAGTTTGTGCAATAAAATTCAACGATTACTTTGAATTTCCGCGAGAGTTG
GATGTAGAGCCGTACACGGCGTGGGGTCTGGCACGAGCCGAGGGCGACGCGTCCCTGTGG
GAGGGCGGAGAACGTACGGAGACTCACTACCAGCTCAGCGGGATCGTGGTTCACTCCGGC
CAGGCCTCCGGAGGACACTACTATTCATATGTACTACTTAGAGACAACGCCGGTGACGCG
GGTCGATGGGTGAAGCTGGACGATGGCGAGGTGTCGGAGTGCGCCATGCATGATGACGAC
GAAATGAAGGCTCAGTGCTTCGGCGGAGAGTACATGGGAGAGGTGCGAATGAAGCAAATA
TCATATACTACTATAGTATTATTACTATAA

Protein sequence:

MTISMKEQDQMPGEMVFPEAKLKALEEKISHPRWVVPVLPEQELEALLIAATELATRGED
VNNLACQHFYTDSLTVSFTKILTDDAVSSWKNNIQQCVRSNCEKLVKLCAMKLDDPRFLH
LLYMAFNPNNKFHTFNASRTCEGLSVTNSTTAGQGSTQETEVFAKSQDHRTPRGWLVHLI
NVFGQAGGFVKLRERFEMIMGFKKSDLTSSAISEEKVINEITEKENEENKSNVTESITSL
PDNLEGSMTRSEQPSSLEQSTSGETCVNAVWQLLRPLGLCHELLTPHTVTVYLLPVLECI
PTLLESLTDEELKREARGSENKTDTVSCLIRACKCVSLKTPQHHSLLKSLEMFRLKMILR
LLQMSSFNGKMSALNEINQLISTISQQPKPEWLTPTVITNWIRENKVVDIVLRDSLHQPQ
YVERLEKMLRFMIKENSLTRDDLDAIWRAQHGKHEAIVKNLHDLLAKLAWDFTPDQLDHL
FDCFKASWATSSKKQSDKLLEVIRRLAEDDKDGVMANKVLVLFWNLAHSDEVCTEIMDVA
LANLIKILDYSCSQDRDAQKILWLDKCVEELKSNDKWVLPALKMMREICCLYDAGGGAGA
RPHVTRQELIDRLQTQHSLVILVTDSLTHYMNVVRTKLAGEGSIDWENWLPDGRYPHAAQ
VHERLSFLRFLLKDGQLWLCAEQAKQIWICLAERPAHLGDREACFRWFSKLMGEEPDLDP
NINLHFFRRNIMTLSPSLLTHSGIKCFERFFKAVNSKEGKLKAKRRSFLINDADLIGLDY
LWRVITECDDEISARGIELLREVCTCTGPQLSAAHHHEAFLTHCCARTQRLQKDMDTQDD
VSECCTRMCRVIRAIQEYINECDRRFTSERQILPVYRSGRGRQCTIIVRFNFQTGQRQID
DIELFSHSNETLHSLRTAVQRRLKCASENNIKIEMYINKLELYVNGELLDTSHDRKILSQ
IPLRDKTVIIAKVYDGQVCGSGGCGSSNESSSDSSISSPPLPPTPEHALPGVIFAQGSWY
LPFILELEHVGITKGHAPLTEAAHLLSQICPSHKQTVEKLTEALLSREDTKLRDMLYGPA
PPTVAYNVEVLYSMVMPSSETRLERNRSFQLACVKKAPLLVQCLSDNDFLKDAAPHTRRV
GYLALVRLAKLALYTLGHLFEILAPDGSDTSLDKEFRMDVTILREALQTVPNHNCELVVK
AIAEKLANTLGEQMVTSSEESHSVSSLVWWRLPTMATVRALYGLAYSVAQPDPDGLVHSD
DVILVRECMEVVTICMALGGGHLESLLHETWWQDTALYLMIDCPNPQVRVSCAEQLLSMC
AWGGGGGARGALAALGGARGAAAPRLTTHARHAQQFLQLLCRLVALAGPTARTLEDLAIE
VEYLRAVRDNPATLDDTLLEGHLNLTKELFTHVPAQVKFQYGAHPDHKDSGLIREVTTEF
LWPYSWAWCHMSNELSGDEDGTSEEECEGVAPLCRTPGAAAAATDLLLALVHACVPNMAA
LANLLEQMFYSDKNMGLSEWEYMPCVGPRPPAGLVGLKNAGATCYMNSVLQQLYCVRAVR
DVLLTVQGAATDPNEDFSGETHHHSILENNTENNADYNITILKQVQAIFAHLHYSKLQYY
VPRGLWAHFRLQGEPVNLREQQDAVEFFMSLVESLDEALKSLGQEQLMAKTMGGTYSDQK
ICKGCPHRYCKEEPFSVVSLDIRNMSRLQESLEAYVRGELLEGADAYYCDKCNKKVVTVK
RLCLNKLPPVLVIQLKRFEYDFEKVCAIKFNDYFEFPRELDVEPYTAWGLARAEGDASLW
EGGERTETHYQLSGIVVHSGQASGGHYYSYVLLRDNAGDAGRWVKLDDGEVSECAMHDDD
EMKAQCFGGEYMGEVRMKQISYTTIVLLL