| New model in OGS2.0 | DPOGS204296 |
|---|---|
| Genomic Position | scaffold333:+ 23696-31521 |
| See gene structure | |
| CDS Length | 2724 |
| Paired RNAseq reads | 814 |
| Single RNAseq reads | 2688 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA007573 (0.0) |
| Best Drosophila hit | Poly(ADP-ribose) glycohydrolase (1e-12) |
| Best Human hit | poly(ADP-ribose) glycohydrolase (2e-14) |
| Best NR hit (blastp) | PREDICTED: similar to H23L24.5 [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to H23L24.5 [Apis mellifera] (1e-178) |
| GeneOntology terms | GO:0000785 chromatin GO:0003682 chromatin binding GO:0004649 poly(ADP-ribose) glycohydrolase activity GO:0005625 soluble fraction GO:0005634 nucleus GO:0005792 microsome GO:0005829 cytosol GO:0005975 carbohydrate metabolic process GO:0006974 response to DNA damage stimulus GO:0008152 metabolic process GO:0016045 detection of bacterium GO:0016787 hydrolase activity GO:0045739 positive regulation of DNA repair |
| InterPro families | IPR007724 Poly(ADP-ribose) glycohydrolase |
| Orthology group | MCL17990 |
Nucleotide sequence:
ATGGCTCTCGTTATGCTGCCCTGTGATTTACCATGGTGGACGTCTGTACAACGCCACCTA
AAACATCTTCTCGTAGCATCGTCTCCAGCGAAGTTAACGGCTAGCATGTTAAAAATTCAT
GATATGTGCAATATAGGAATAGATCCAGACGATGACGTAAAGGATCCAGAGCTCATGAAA
GGATTAGAACAATTCTTGGACGAAGAATTTTCTGGAGAGGAAAGAAGAAATTTTCTCGAT
AATACAATACGTATAATGGTGAATAAGGCCATACATCTTAAACGATGGCGTCCACCGAAG
GGGCTTGTTTTTAGTTTGCAACAACAAAGCGATTCAACTGAACTGGATTATAATTTCCTG
TCTTCGTTGGTTGCTCACGCATTTTTTTCTACTTTTCCAAAACGTACGCTCAAAACACAT
CCCACATTGCAAGACTTCAATTTTACGCATTTTTTTAAAAATCTACATAGAAAATCGCAA
AGGAATAAATTAAAAAGCTTACTGCATTACTTTGAATGGTTGGACAAAAATAGCAATGAA
GGATCTATTAAGTTAAGTAGACAGATAATGTCTTCAAAGCAGTGGCTAACCATTGAAGAC
TGGCTGGAATGCACGTTGCCTTTGTGTAAATTACTTATCCGCCACGAGGGTCGGCCGGAG
CGCTGCGAGAGTGATGACGCTCTGAGAGTGTGCTTCGCCTCCAGCAGGATTGGTGGTGAC
GTGCTCATAGATGGAGAGTCACAGGAATCACTCACAATGTTTATGATGCCCGAACTTTTG
CCGGCTATGCTCTCTGTGGAGGCACTCGAAGATAATGAGGTATTGAAAGTGGAAGGAGTC
AGGATGTTCAGCAGAATAAGTGACCAGCGACAAAAGAACCACATTGAATTACTAGAGAAA
CCGAAAACGGTGACTATATGTCTGATGGACGCCGAGGATTACAGCGCTTTGCCTCTTGGC
CAGTGGGAAGAAGACAATGTGCTGCGAGAACTGAACAAGTGTCTTTTAGCATTCCAGCAG
TCGCCAACGAAAAGTCAAGAGAATCAGAAGGCTGAGAGACGACTTTCGCCTATAGGAGAA
TCCTTTAATCAGACTCCACCAGAAGTTGAAACAACTGTCATGATAAAACAAGCATCGTCT
TCGAGCACCATCAACAGCATAAACAGCAGAAGCCCTTCACCTCAGAACTATAACGTGGCA
TCGCTTAACCTAAATGACCCTAGCATGGAACTACAGAAACGCAAATGCTGGCTGTCCCCT
GACGCGGGCACATTGAACAATCGCCGCGGGCGTTTCATAGTTCTGGGTTCATCCGGGGAA
TGTCTTCCGGTGACGAGATCCTCTGGCCACGAGGATCTCCAGCAGGAAGACAGCTTATAC
TCCAGCTGTAACTCCAGCGACGACGAGTACCACAGCGCTAACGATAGCTTCGATTACGGC
AGCGAGGATGAGGGTAGGGGTGAAAGCGCGCGTCCGAATTCATTCCAATACTCAAAAGAT
CTATCGACAGAGGAGAGACGGATGAGTTTCGCTGATAGACTTCGGGAGGCTCTTCGCAGG
GAAGCTGAGACGTCTTGCACGACCAGCACCACTGGAGACTGGTCTACTGATAGTTCCAGT
TACGCTGTCGGTATCAGCATTTCTGGTGCTGAGGTTAACGATAACGACATAAGAGTAAAA
CGAGGCGGTTCCGTTGGTTTCGTGCTGACGGATAAAGAAACAGTAGAGAATGGGAACGAG
CCCCCCAAGCGACTTCTGTCTAGGAAAGAAACTGGGAATAGTTCAAAATACAGTTTCAGT
ACGGAATATTCTTCGGAGCTTGAAGAAGTCTACGAACAGTTCAACCAGTGGCTGAACGAC
CCGATATTACAAAATGATAACAACGAAAACAAAACCAAGGAATTGGACCCCCGAGATCTG
GCAGTAATAAGATTCGCAGGGTCGTTACTAAAGCGCACCCTGAGCGAGTCCATGGCTAGC
GGGACGTGCGCCGACGCTTGCGAGCTGTACGGGCGCGACGTCCGCGAGCGCGCGCCCCCA
CGCCGCCTCGCGCACGCCGCCAGGTCGTTATCCTTGGAACTCGCTAAGCATCGGCACAGA
CTCGCCGCGCATTTGAAACGTAAAGTAAAAGAATCGATACTAGAAGATATATTAGAGAAT
GAACTAGTGCGAAGCGATAAAGACGATAATTTGAGCGAGGGTAGGACGAAGTCCCTGGGC
TCGTCCACTGAGACTTGTTCGACACAACTGTCAAATCCGGACGTGAGAAAGAAAAAACTT
AATTGGGTAGTAAATATGATAGTTGAAACCATTGAAGAAACTGTCGAATGTGAGCCGGTG
ACGATAAAAATTAAGAAACCAAAGCTAAACCAACTAGCGTATAAGATTGTATCAGGCGGG
TCGTGTCGTCCCGTAGCTACCGGTAATTGGGGCTGCGGAAGACGTCAGCGAGGTCACCCT
CAGTTGAAGCTGCTGCTGCAATGGCTAGCGGCCAGCGTGGCGGGAGTACCGGCATTATTT
TATTACACTTTCGGAAATGAAAAATTATTTAAGCTGGACACACTGGTCCGTGTGCTCACT
GACAGGAAGTGGACAGTGGGACAATTAGCAAGAGCCGTGTTAAAGTTCGCTCGTCAGACC
CTACACGAACCACACGTCATACCGAACAATCATTCACTCTTCGATGAACTGATCGGGATC
GAGAAAACCGCCGACGATTATTAA
Protein sequence:
MALVMLPCDLPWWTSVQRHLKHLLVASSPAKLTASMLKIHDMCNIGIDPDDDVKDPELMK
GLEQFLDEEFSGEERRNFLDNTIRIMVNKAIHLKRWRPPKGLVFSLQQQSDSTELDYNFL
SSLVAHAFFSTFPKRTLKTHPTLQDFNFTHFFKNLHRKSQRNKLKSLLHYFEWLDKNSNE
GSIKLSRQIMSSKQWLTIEDWLECTLPLCKLLIRHEGRPERCESDDALRVCFASSRIGGD
VLIDGESQESLTMFMMPELLPAMLSVEALEDNEVLKVEGVRMFSRISDQRQKNHIELLEK
PKTVTICLMDAEDYSALPLGQWEEDNVLRELNKCLLAFQQSPTKSQENQKAERRLSPIGE
SFNQTPPEVETTVMIKQASSSSTINSINSRSPSPQNYNVASLNLNDPSMELQKRKCWLSP
DAGTLNNRRGRFIVLGSSGECLPVTRSSGHEDLQQEDSLYSSCNSSDDEYHSANDSFDYG
SEDEGRGESARPNSFQYSKDLSTEERRMSFADRLREALRREAETSCTTSTTGDWSTDSSS
YAVGISISGAEVNDNDIRVKRGGSVGFVLTDKETVENGNEPPKRLLSRKETGNSSKYSFS
TEYSSELEEVYEQFNQWLNDPILQNDNNENKTKELDPRDLAVIRFAGSLLKRTLSESMAS
GTCADACELYGRDVRERAPPRRLAHAARSLSLELAKHRHRLAAHLKRKVKESILEDILEN
ELVRSDKDDNLSEGRTKSLGSSTETCSTQLSNPDVRKKKLNWVVNMIVETIEETVECEPV
TIKIKKPKLNQLAYKIVSGGSCRPVATGNWGCGRRQRGHPQLKLLLQWLAASVAGVPALF
YYTFGNEKLFKLDTLVRVLTDRKWTVGQLARAVLKFARQTLHEPHVIPNNHSLFDELIGI
EKTADDY