| New model in OGS2.0 | DPOGS207583 |
|---|---|
| Genomic Position | scaffold325:- 160958-170685 |
| See gene structure | |
| CDS Length | 2973 |
| Paired RNAseq reads | 1127 |
| Single RNAseq reads | 2515 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004691 (4e-07) |
| Best Drosophila hit | Poly-(ADP-ribose) polymerase (0.0) |
| Best Human hit | poly [ADP-ribose] polymerase 1 (0.0) |
| Best NR hit (blastp) | poly [adp-ribose] polymerase [Aedes aegypti] (0.0) |
| Best NR hit (blastx) | poly [adp-ribose] polymerase [Aedes aegypti] (0.0) |
| GeneOntology terms | GO:0003950 NAD+ ADP-ribosyltransferase activity GO:0005634 nucleus GO:0006471 protein amino acid ADP-ribosylation GO:0007000 nucleolus organization GO:0005730 nucleolus GO:0005703 polytene chromosome puff GO:0051276 chromosome organization GO:0035079 polytene chromosome puffing GO:0005700 polytene chromosome GO:0007552 metamorphosis GO:0009303 rRNA transcription GO:0006355 regulation of transcription, DNA-dependent GO:0006963 positive regulation of antibacterial peptide biosynthetic process GO:0005719 nuclear euchromatin GO:0045087 innate immune response GO:0035080 heat shock-mediated polytene chromosome puffing GO:0003677 DNA binding GO:0051287 NAD or NADH binding GO:0008270 zinc ion binding GO:0051457 maintenance of protein location in nucleus GO:0005694 chromosome GO:0043484 regulation of RNA splicing |
| InterPro families | IPR012317 Poly(ADP-ribose) polymerase, catalytic domain IPR004102 Poly(ADP-ribose) polymerase, regulatory domain IPR001510 Zinc finger, PARP-type IPR012982 PADR1 IPR008893 WGR domain IPR008288 NAD+ ADP-ribosyltransferase IPR001357 BRCT |
| Orthology group | MCL12539 |
Nucleotide sequence:
ATGACTGATTTACCTTATCAAGTTGAATATGCGAAAACAGGAAGAGCTTCATGTAAGGCC
TGTAAGGCGAAAATTGATCAGGGGGATTTACGAATTGCGATTATGGTTCAGTCAGCCTTT
CATGATGGAAAGCAACCAAACTGGCATCATGAAGAATGTTTCTTTAAAAAAAAGTGCCCT
GAAAATATTTCTGATATTGCCAATTTTAATAAGTTAAAAAATGAAGATCAGAAAAGAATC
AAAAGCAAACTAGGTACTGGCAATCCGTCTGGTGTAGTGTTGCCATCCGAAAAACCAAAA
AAAGGAAAAGGTCAAAAAAGGGATAATAATGAAAAAGCTGGTCTTTCAAATTACTCAATA
GAATATGCAAAATCAAGCAGAGCAACTTGTAAACACTGTGATATTAAGATTTGTAAGGAT
GAAGTAAGGGTTTCCAAAATGGGATATGATCCAAAGTATGGAGATCATCCAATGTGGCAT
CATGTTAAATGTTTTGCAGAGAGGCAAAGTGAGTTTTTATTTTTTGCTGGAGGAGAAGAA
ATCCCAGGTTTTAAAACATTGAAAAAAGAAGATCAAAATATGGTTAAAGATATAATAAAA
CCTTGTAAGGAAAGCGAAATACCAATCAAGAAATTAAAAATGGAACCGAAAGATGAAGCC
GATATAAAGAAGGAAAAAGACTTGCAGAAGAAAATTGAAAAACAAAATAAAACATTCCAT
AAATATCGCAGTGCATTAAGTGATTTTTCAAAAAGTAATTTACATAAAATACTGACTGAA
AACTCACAAGAAATACTTAAAGGGCAAAATGAGTGTCTAGATCACGTAGCTGATATGATG
GCTTTTGGAGTTTTGGACCCTTGTCCCGAATGCAAAGGTCAACTTGTGCTAGACACCTTC
TACTATAAATGCTCAGGCAATATAAGTGAATGGTCCAAATGTAGGTATACCACAAAAACA
CCTAAACGACATTCGATGAAAATTCACAAGGAACACAAGGATTTGGCGCCTTTTAAAAGC
TTTAAATCTAAAGTATCGGAGAGAATATTCGAAGTTGAACCGCCACCAACTACTGTTGTC
GTGAAGAAGGAAGAACCTGAAAGTTCACAAAAAGCTCTTCCGTTGCCTCCATTGAAAAAT
TTGCAATTTTTCCTGTATGGGGGCCTGAAAAATAAGGTGGAAACTAAAAATCGTATTTTG
AAGATGGGTGGCTTAGTTGTCAGCAAACTGACCGAGACTCTTGCGGCAGTCGTGTCCACA
AAGAAGGACTTAGAGAAGATGTCCGGCAAGATGCAGGACATACAAGACATGGATATTGAG
GTGGTAGAAGAGTCATTTCTTGATTCAATTGACCCTGAGAATGGAACAATTGCTAAGTCG
CTAGAACTGATAAAAGAAAACAATATAGCGGACTGGGGTTCCGATCCCACAAAACGCGTC
CCCCAGGACGTGCTGGATGGAAAATCCATACAGAAATCCGGGAGCATGTACGCGAAATCA
AAGTCCGCCATCACAAAACTTAAGATTAAAGGTGGAACAGCCGTGGACCCCGACTCAGGT
CTAGAGGAGACGGCTCACGTGTACACGTCGCCCAATGGGGACAAGTACTCAGTGGTGCTG
GGGAAGACGGACGTGGTGGCTGGGAAGAACTCGTACTATAAGTTGCAATTGCTTAAGGCT
GATACTGGAAATAAATTTTGGCTGTTTCGGTCTTGGGGTAGAATCGGTACACCGATTGGT
GGAAACAAGCTGGAGCCGTGCACCACCTTACACGATGCTATGGAAAAATTTGAAGATCTT
TATCACGAAAGGACCCAAAACCATTGGAAGAAGCGACACAACTTCGTCAAGGTACCGGAA
GCGTATGTGCCTATAGAATTAGACTATAGTGATGAACCAGCGCAAGCTCTCCAACAAGAT
GACAAGTGCTCGCTACCGACCAGTGTACAGAGCCTGCTGCAGAGGATCTTCGACATCGAC
ACCATGAAGAAAACACTACTAGAGTTTGAGCTTGATACAGAGAAAATGCCGTTGGGAAAG
CTGTCCAAGAAACAGATCAAGTCCGGATATAACGTACTATCGGAACTACTACAATTACTT
GAAAAGGGAGCGGCGAGTGAGAATAAAATTATAGACGCTACCAACAGGTTTTACACTCTC
GTTCCACATAATTTCGGGACCGAGAATCCGCCGTTACTGAATAATGTTGAGTCAATCAAA
GTCAAGACCGAGATGCTGGACAACTTACTTGAAATAGAAATAGCTTACAGTCTTCTTAAA
TCTGAGTCGGATGACGACGTTAGTCCGATGGAGGCACATTATCGCAAATTGAAAGCCGAC
ATCGCTCCCATAGACAAGAAATCAGAGGAATTTAAAATGATTGTGGAATATGTGAAGAAC
ACACACGCGGCCACACACTCTGGCTACACGCTGAACGTTCAGGAGGTGTTCAAAGTAGTC
CGTGAAGGTGAAGAGAAGCGGTACAAGCCTTTCAGAAAACTTCACAACAGAAGGCTTCTG
TGGCACGGATCCAGAACAACTAATTTCGCTGGAATATTATCTCAAGGTCTTCGAATCGCA
CCTCCCGAGGCGCCGGTGACTGGTTACATGTTCGGGAAGGGTATCTACTTCGCCGATATG
GTGTCCAAATCCGCGAATTATTGTTGTACCTCGAAAACAAATAACATCGGTCTTATGCTG
CTGAGTGAGGTCGCCCTCGGGGACATGAAGGAGTGTGTGAAATCCGAGTATGTAACGAAG
CTGACGGACAAGCATTCAGTGTGGGGCGTGGGTCGCACGCAGCCCGACCCGGACCGCGCG
AAGACCTTACCCGGAGGACTCGTAGTACCGCTGGGACCGCCTGTCAACAGAGACATAACC
ACCTCGCTGTTATACAACGAATTCATCGTGTACGACGTTGCTCAAGTGAACGTCAAATAT
TTAATACAAATGGAATTCGACTACAAGTATTGA
Protein sequence:
MTDLPYQVEYAKTGRASCKACKAKIDQGDLRIAIMVQSAFHDGKQPNWHHEECFFKKKCP
ENISDIANFNKLKNEDQKRIKSKLGTGNPSGVVLPSEKPKKGKGQKRDNNEKAGLSNYSI
EYAKSSRATCKHCDIKICKDEVRVSKMGYDPKYGDHPMWHHVKCFAERQSEFLFFAGGEE
IPGFKTLKKEDQNMVKDIIKPCKESEIPIKKLKMEPKDEADIKKEKDLQKKIEKQNKTFH
KYRSALSDFSKSNLHKILTENSQEILKGQNECLDHVADMMAFGVLDPCPECKGQLVLDTF
YYKCSGNISEWSKCRYTTKTPKRHSMKIHKEHKDLAPFKSFKSKVSERIFEVEPPPTTVV
VKKEEPESSQKALPLPPLKNLQFFLYGGLKNKVETKNRILKMGGLVVSKLTETLAAVVST
KKDLEKMSGKMQDIQDMDIEVVEESFLDSIDPENGTIAKSLELIKENNIADWGSDPTKRV
PQDVLDGKSIQKSGSMYAKSKSAITKLKIKGGTAVDPDSGLEETAHVYTSPNGDKYSVVL
GKTDVVAGKNSYYKLQLLKADTGNKFWLFRSWGRIGTPIGGNKLEPCTTLHDAMEKFEDL
YHERTQNHWKKRHNFVKVPEAYVPIELDYSDEPAQALQQDDKCSLPTSVQSLLQRIFDID
TMKKTLLEFELDTEKMPLGKLSKKQIKSGYNVLSELLQLLEKGAASENKIIDATNRFYTL
VPHNFGTENPPLLNNVESIKVKTEMLDNLLEIEIAYSLLKSESDDDVSPMEAHYRKLKAD
IAPIDKKSEEFKMIVEYVKNTHAATHSGYTLNVQEVFKVVREGEEKRYKPFRKLHNRRLL
WHGSRTTNFAGILSQGLRIAPPEAPVTGYMFGKGIYFADMVSKSANYCCTSKTNNIGLML
LSEVALGDMKECVKSEYVTKLTDKHSVWGVGRTQPDPDRAKTLPGGLVVPLGPPVNRDIT
TSLLYNEFIVYDVAQVNVKYLIQMEFDYKY