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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0233600 |
| Transcript ID | LotjaGi4g1v0233600.1 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Poly [ADP]-ribose] polymerase; TAIR: AT1G23550.1 similar to RCD one 2; Swiss-Prot: sp|Q9ZUD9|SRO2_ARATH Probable inactive poly [ADP]-ribose] polymerase SRO2; TrEMBL-Plants: tr|A0A072US10|A0A072US10_MEDTR Inactive poly [ADP]-ribose] polymerase SRO4; Found in the gene: LotjaGi4g1v0233600 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:54650350..54660704) extracted from Lotus japonicus Gifu genome v1.2.
GTCATTTTACAATTATATTTTCTTTCCTTCCTCTCCCTATCAACCAAATCAATCATGAGAAAAGAAAACTTTTCACTTTC TTTCCTTTCTTTTCTCTCAAACCAAACAACTAAAATAATCCTCTCACTTTCCTTTCACCTTCTTTCCTTTCACCTTCTTT CCTTTCTCTTTCTTTCTTCTCTAACCAAACACACCATAAATGAAAAGAGTTGCAAAAATTGACCTCTTTAACTTATTGCC CAAGCATATCACGCCACGCACGCATCCAACAATGCTCTTCTTCAAATCCCATATTGCCACAACTTGTTCTTCTTCTTCCA CCGCCTCAACTAACATCTCTTTTCTTTCATATATGGCGGTTTCCGTTGCCGTTATACCTGAAACGACACCACTTTTCGCC GCACCTCCAGAATCACTCACGCTTTTATTCCCGATTACTCTTTTCTTTTCTTCTCCTAGTTTTCCATCCTAGTCACCATC ATTCATCATCATCTTCATTCCTTTTCTGTGTTTTTTTCTATCAACCCTTTTTCTTACTCTCCAAGTTTTCCCTCTTTTGT TCAAACATGACCCCTTACAAATTCAAATTCAATTTCCTCTAGTTCATTCACACACTACTACTCACTCATTCTTTGATTCC TAAAATCCTCTTTCTCTTCTTCTCTTCTTTCTGCCGCCATGGATCCAAGGGGTAACACTTCGTCGCCACCGTTGCCTCGT GATTTCTCCGGCGACGACACCGACGATTCGATGGCTTCCGATTGCGAGAGCGGAGTTTCCGGCGGCGAGGTGATCGTCCG GGCGGATGTGCGCAGCTTGGAGTCGGTTGGAAGAAGATTCATTGACGGACTTGGTCCTCTCGCTTCGAGAATCCAGGTTG TATCGATTCGGAGGAATAAATTCCCTACCGTGATTTCGCAAGCGCGTGTTGACTCGTTTCAGATCTTCGCGCGTGCCACC GCCCAGCTCCGTCACGGGAATGCCAACGTCAAGCACGCTTGGTATAGCGTTTCTGGCATGGAGGAGATTCTCGAGATTCT TCAACACGGTTTCGGGCATGACCATCATCGTGGCCTGCGTCTCTCTCCAGAGGATTCTCCTCACCTCAGGCACGTGCCAA TTTCATTATCTTAATTTAATCTAATCATTATGCATTTTTTTTTTTTTACTTTAATTCGTGATTAAATGAGTTAATTACTA GTAATTAGAATATCTTAATTTTGTATCATTATCTTAATTTTATGTAGTGTGTTATGATTTTGAATGTTGGTTTGGTTCTA AGATTTTATTGTTGTTGTTTGGTTTATGTGATGTGGGCTTTATATAGTGTGAGAAGGTCTGTTGCTGACAAAGATGGTTT GAGGCACTTGGTGCTGTGCCGTGTTATCCTGGGAAGGATGGAGGTGGTGTCTCCCGGTTCGGATCAATGCCGGTCGATTT CCGACGAGTATGATTCCGGGGTGGATGATGTTTCGTCCCCGAAGGAGTACTTCATTAGGAGTAACAGGATGAACACACAT GTCTTGCCTGAATATGTTTTGAGTTTCAGGATTCCCCCCACAGGTTTGTTTGGTTGGGTGTGTTCTTTGTGTTGGAGTAG CTATTGCTTTATAATTTGTGCTAGTGTTGTCAAAATTCTAATAATTTTTTCGATTTTTGTAGGTCGTGCTGTGAATGTTG CTGCTGCTCGCGAGCCTTCGAGGCCGAAATCCCCTTGGGTTCCATTCCCAGCACTGATTTCAGCGCTGTCCAAGATTTTG CCTCAGCATGATATGGCCATCGTTTTGAAGCTTCAAAAAGATTATAGAGTAAGTGCTTCTGACTTGCTTCTCTGGAGTTT GAGACACTTTTTTTTGTTTTTTGGCTGAAGTTTTTGGTTGTGCTTCCTCTGTTTCTCAGGAAATGAAGATTTCAAGACAG CAAATGATACAAAAGTTGAGAGTGATTGCTGGGGACAAGTTGTTGTTTCAGGTCATTAAATCTTTCAGAGAAAAGTTACA GGTATCCCTTTCTACTGATTTTGATCTTCATTAAGGTTGGGCTTTGTGACGCAATTGTTTGCCTATGATCAAGACCAGAC ATACATACTGCTGGTCATGTAGGACAAATTAGAACTGCACTACTTTTTCATCAAAGTTTGTCATACTGTTATGGTTCAAA TTAAATTACACAAAGATAGGATGTCTCTGAAATTTTGGTGCATTCTTACTACATACCCAATAATCCTTTTTTGAGTTATT ATGAGCTAATGATACGTGAATTGGGCAAGAGAAATGGAAAACCTGGTTAGTGATAACAACTTTCTTCAAGTGTTAGATAT TGAAGTCTTGAAAAGTGGCCCTAGTTGATATTGTCTACTTCTGAGTGCTTATTGATGTGAGTACTTTTGTTGGTGATCTC TAAATCAATGCGGGCTAGTCAATTTCACTCTCTACTGTACCAGAAAAATCAAAAAATAGAAATCCATATTCATGAAATAT GAAATTTGATCTTGATTTAAGTTAGATGTGAATGTGGTTCAATATTCTTGTCTTGTTCCTACTTCTGAATTACTATGGAA ACCCTGAAGTGGACTTTGCTGATGAAATAGAAGTCTTGTTGGAACTATTTCAACATTATTCTTATGAATATGATTTGACT TGCCTATTGTGGGGTACGTGGTTTGTGCTAGTTGAATTTATTTGGTGGAAGTCACAGGCTAGTGGTTTCAAATGCATGCT TGAACTCCGCCCTCTAGAAAGAAATATCAAAAGATGATTCAAAAGAAATATGCTACTGACACTCACTTTTGCACTCTCTT TTATCGGTTAAAATCCACTTAGGGTTCACTAAATTATATAGGCCCCGCCTCTAATATGGTGGGATCTACATCAATTTTAG CCAATAAAAGAGTGTTCAAAAAGAGTGTCGAAATGAGTGTTGACAGCACTTGAAAACATAGCTAGTTTTCATTTGGTCAA GTTGATTTTGTTGTCCGATTTATGTGTAAGAACAATTGTGTGAAGTGTGCTGTTCAGAACAAGAGCTAGCATGTATCATA GGATCACAAGAGTAATATGACAAGTAGTAACATTATCTACGATAATTGCATACTCTATCTTTTATGTTTCACTTTTACTT ATCCCTCTGCTTCATTGGGTTTGTCTGCACATATATAGGTGTTCTATGTAATGGTGACTTTGCTTTTCTTGCAGAAACCA CCCCCTAGCTGTAACAAAGTGAAAGAATGGCAACAGGAAAGCCAGCAACCAACCGCTAGCTGTAACAAAGAGAGAGAATG GCAACCGGAAAGCCAGCAAAGTGGAATAAATAATTCTCTATATTGAGTTCTTTTAGTTTCTTACAAAAGTGCATTATTGT GCTTGAGTTGACACAATAATGCTCATACTAATCATTCGTTGAGGAGGAAAGCACTGTGAGGAGCAATGCTACATTCGAAA CTTTTTTCTGGGTTATACATGTTTTATGATGATGATAATGGTGGTGTACCAGAATAGTCTCTCTATATTTTAGTTGGCTA TAATACTTGGTGGAACAGATTATATATTGGAATAGTTCACTCCCGAATGGAGCATTTATCGTGGACATATTATGTTCTTT AATATTCATTTTTTAGCTTTTAGTTAACTTGGAGAGAATTTCCAATATACTTGGAAACAAATCCTTTCGCATCTTTTATT TTCAATCTTCGTAATAACAAAAACATATACGTGCAATAGATTATTCATTATTATATGGAGATAGTATTTAGATTTTAGAC ATACAATCCATAGAAAATAATGAAGTAGGCGAAACAGTAGAATCAAAGTTACTAGCTACCAACAATCAAACTAACAAAAA CTGAAATTGTTATTTGTTTACATTTTGTACTAACCCCACAAGTGAGACTATAAAAGTATGAATATGATAAAGTCCTCATG AGAGTAGGATTGTGGACTATGTAGATGGCATACTGGTTGTCGCAATAGAGAACAGCAAATTGATCAGAAGCTAAAGTAGT TAGAGCATGATATTTGGCTTTAAAGAAGGAACATGATATAGTAGATTTACAGGGCAATAGAAACACAGTATCTAGTGATG GATTTCTCCGAATCCAAACAGGATGCCTAATTGGAGTCAATAAAATCATCAATTTTGAGGTCAGATGATGTAGAGAAAAA CAAACCTTTACCCGGAAAGACCAAAAGAGCTAGTCAACTATTAAGTACTAGTCAACCAAGGCAATATCAAGTCAAGTTGT AGTGAGATATAAGAGCCTATCAACCATTCTTTTGTAGGTAGGTGCATCGGCAAAGTGGTGTTTCTTGAGCAGCCTGCAAT TTCGTAGAGGGATCAATACAAGTAGAGGCTAGTTTGGCTATAAGCTTCCTATTGTCAGCTAGCAACTCCAAAGCACAGTT CCTCTGATTAATTATGAGACTTTCCTTTGATCTAGAAATCTCTAGATCCCAAAAATAACTAAACGAACCAATGTCTTTGA TTGTGAATTTATCATCACTCATCAGGAACTGTTTCATGCAGATAATTTCCTGCATATATTAATCGCCAAGACTATATCAC TAATATATACCAGGAAAGGAGTGAAATGAAGAATAAAGAGACTTAACAAGAAGGAGTAATCTATAGAGGATTGAACATAT TGATGAGACTATAAAAAAGGAAACAACTTCAAGTACCATTATCTACTAATTTGTGTTGGTCCATAAAAGTACTTTAATAA GTATATCATAAAGAGAGAACAACAGAAGACACAATAGATACGTGGTTCGACACCTTTGCCTACGTCCACAAAAACAAGTT AACAAAAATGTTCACCATATCAAATAAATACAGCATATTTTCTAGACAAACTTAAAAATTCACCCTAGATACTGTATCAA TTATGAACCCGAGTTGCTCAATGCCTCAATCAATATTAGCACACTTCTAGTAAATTCTTTGGATTCATTATTTAACAACT GAAAAAGAGGAGTACATTCTTTTGATTCATTATTTAACACTAAAAAGAGGATTAGAGATGGAAAGTTGCAATTGAAGTGC TATACCTGGTTGCGAAATCATGAATTGACACATCATATACAATTTTGCCATGTAAAAAAAAAACGAGGTGTCAACTCTTC ATACAATGTCCTCCTCCTTTCCTCTCATTCTTCTTCTTCTTAACGACCATCAACAATGTAACTAGGTCTGTCATCCGAAG TCTCATAAGCTACTACCCAACATTCAGATCAGACAAATTTTCCTCTGCCTCCAGTACATTATCAAATATGAAAGAGATCA AAGCTAAAAAACAGGTATTAAGGTAAATGGCTAACCAAGTCAAGCAATTTCCAAGGCAAAACAAATATATTGTTGCAGTC TACGAAATTAAGCACCCGGTGTTGTGTAATACCAGTATACCATACCACTACAACTAAAAGGGAAAAGACTAAGAAATAAT GAAACAATAAGGTGATCAAAAATGACTTTTAATCAGACACTTCAAATGGGGAATTGAAGTGAAAATCAAAGAAACAATAA GAGCTGTAAACAATTAGGCAAACAAAAGGAAAAGCTTATTTGTGGAATCAAGTGGAGCAGGAAAAGGTGGTTGAACTATT ATATGATAGCCACATATAAAATTTTCTTCAATTCTCATCACTGATTCTTAGGTTCCACGATTTATATTAACAGTAAGAGC TGTAATATGTACAGCTACAAGAGTACTGAAATTATTCTCAGAAAAACCAAAAAAATGATAACTCTTGTTAATCAACAACA CAATGAAGGGATGAGGGAGGGCAGGGCAGAAAATTATACAACACTGAACAGATAAACAACTTCTTATGAACTTCTAAATC TTAAGCAATTTGGGAGCTTTCTGAATTGACATCATATACACAGGATAGTAAAATGCACTCACAACCAAGGTAAGAATCAG AATTAATTGGAAAAAGCCCAAGCTATGCAGTGACATACCTTATCTCCTCTATTCTTCATACAATATGATGTGAAAACTCC TGTTATAATTTGAGAAAATGGATCCCTCTCCCACACCTAAAGACATAAAACCAGTAATACGTATTCTGAAGTTCAATAAA ACTGCAAGCAAAGCATGTGAGCAAGAAAAATTCAGGAAGTTGCATTTATATGGCTAAAACTACACTAAAAATTTAAATGG CACCAAAACTACAATGATATTGAAGCCAATCTGGCATACACCAACACTAACAAGGTGCTGCCTATCTAAGCATACAATGA ACAATGCTTATGAATGAATATGATTAAGTGCAGACGCAGAGGCAAATTTATAGCTGTTATAGTTCATCCTCATGAGATAA TTCATAAGCTTGACTAGGGAAGCTACACATCAATCTAAATTACAGAACAGAGAAAATGAGAAAAAGTGAAACAGAAACTC CATTGAAACTCAAATTAAGGATCAAACTCAATGTAATCATATAAAATCTTCCCCCATTTCACACACCTTGAAACTGAAAC AACAACACTTGTTGCTGCAGCAGCAGGACCTCTAACCCTAATCTTCTCTATCACTACTTTTCTTTTCTTCTTCTTATAGC TTTCCATTTTAGTTAACTCCAACCTTTATCCTTTTCTGTGTTTTTTGATTATTTGTTCTTATCTTTATCAAATGTGCCTT TGGGGATTTCCTTAAAACTCCACGTTGAAGCCGACGTGTCAAAATTCTCCAATCATTCTTCTTTGATCCGCGAGACACTC GACGTGTCAAATTTTAACTCGTTCGTACACGTGAAATCACCTTTGCGTTGGCTCTTATCTAAAACGCCAGCAAATTTTCC TTTTCTGCACAATCATGATAACCCCTATAAAACTCAACCTCATCTAGGTCATTTCACACTCACTCATTCTCTAATCACAC ACAATCCTCTTTCTCCTAAACCCTTTCTCCTCCTCCTCTAGTTCCTGCCGATGGATCCTCACGCCGCCGCCGCCGCCGCT GCCAATGTCGCCGATGCTGTTGCCGCCTATGCCGCCGCCGATCCAGCACATGCCGATGCTGCCTATGCCGCCGCCGTCAA TGCCGCCAATGATTCCGATTCCGATCCCGAGAGCATCGTTACCGAGGGAGACTACCTTGTCCGGGAGAATGTCCGGAGCG CGGAGTCCATCCGTAGCAGATTCACGGCGGGACTGGGGGCTATGGCACCGTGTATCCAGGTGGTTCAAATTCGGAGAAAC ACTTTTCCGACGGTGATGACGCAGGCGCGTATTGACGCGTTCGAGATCTACGCGCGTGCGACGGCGCGTGCGCGTGACGG CGATGCGAACGTGGAGCATGCGTGGTTCGGTGCTACCAACATGGATGAGATCCTGGGCATCATTAAGCACGGTTTCGGGC AAGATCAACTCCATGGACATGGCCTGCGTCTCTCTCCAGAGGATTGTCCTATACTATGGCACGTGCCGGTTTTGTTATTT TATTACATTATTATTTGAAATTATTACATTATTATTATTGTTTAGGACACGTTTGTTTCAGTTTTTTTAAAATAATTTTT AATTAAAATGAATTCTTTTAATATTTTAAAATCTTGTTTTAATTTTTTTTAAAAAAAGAGATCTTGTTTTAGCTTTTAAA TAATTATTAATTTTAAAAGTTGAAAATATATCATTTAGGAAACTAATTTATTTTAAATAAATGATTATAATAGATAAGGC CATAAGGGAGAAGGTAAAAAAAAAAAGTGATTTTAATTAGTGCAAATAAAAACAAATCAACTTTTTTTTTAATTTTTTTT GAAAGTAACTTTTTTGTTAAATCTGTAAAAGGTACTCCCTCCGTTCCTAAATATAAGACCTAATACAAAAAATTGCGCTT ATTAAGAAAACATTAAATGTGTTCAATTAGTGTATTGATTTTTTAAAAATGCATACATTCCTCCATATTTACCCTTTGTC ATTTTCTCTCACTAATTAATGGTAAGTGGTAATCAAAACTTGAGAATTGAAAACATATAATTAATGTGGAGGGTAAAAAT GGAAGAGTACAAAACCTTTTGTTAGATTATTGTAACTAGGTCTTATATTTAGGAACTTCAAAATTTTGAAACTAGGTCTT ATATTTAGGAACGGAGGGAGTAATTTGTTTTGGAAATTAAAAATATTCTTTTAATATGAAACAAACACATTTAAAGTATT ATTATTTTAATCTAGACACTCTGTATTTTTAACTTGACTTAATTGCATTTTTTGCCCTGTAAAATCAAGAATACGAGATT ATGGTCCCTATAATTTTAATTGCTCAATTTAAGTCATTCAACTTTTAAAATTGAACGGATTTAATCAAAGTGTTAATTTG TTATCCAAAAAATTAACATCTATATACATAAATAATGTTTTATTTGTGAAAGATATACATAAATAATGTTAAAATGATAG AAATTGTCTTAAATTGTTATTCACATAAAAAAATTGTGATATTCACATAAATTTTTTCATTAATTTATATTAGATGACAA GTTAATATCTTGTATAAATTTGTTTAATTTTAAAAGTAGCTAGAAGGACAAAAACCACACATTTCATTCAAACTATGTGA CTCAATGAAGTCTTTTTACCTTTTATTAATTGCTGATTGAATGTGCTAATTAATATGACTATAATAATTTTTTTCTTTGT GTGGTGTAGTATGGCAAGGACTGCTCCTGACAATGGTGGCTTGAAGCACTTGTTGTTGTGCCGTGTTATCTTGGGGAGGA TGGCGGTGCTGGCTCCCGGTTCTGAATGCGAACCGATTTCTCAAGAATATGATTCTGCGGTGCACAATGTTTCATCTTTT AAGGAGTACTTCATTTGGAGTAACCAAATGAACACACATGTCTTGCCTGAATATGTTTTGAGTTACAAGGATCTCGTCCC CACCACAGGTTCGGTTAAGGGCGTGTAGCTATTGCTTTACAATTCATGGAAGTGTTATATATGAAATTCTTCACTTGTTC AATTGTTACAGGGCTTGGGAATGTGGCTAAGAGACCAATATCCCCACCGATACCGATTGGGACGCTTATCACAGCGCTAT CTAGGTTGTTGCCTTTGAATGAAATGGCCTTCATTTCAAGGTCGTACCAAGAATTCAATGTAAGTGCTTCTGATAGAAAG TTTGAGACAATCATGCATGCACTTTCATTTTTTGTTGTAATTGTTAGTTGAGATTCCTTTGATTTTTAGGAAAACATTAT ATCACGAGAGGTTTTGGTGCAAAGGCTGAGAGTGATTGCTGGGGAACAAATGGTGACTAAGATCATTAGATCTTTTCAAG CATTCGTGGAGGTAATCTCTTTCTCATAATTCTCATATCTTCATTAAGTTTAAGGATATGTTTTGTGTGTGATTTTGTTG TTGGTCATTGTTTAATCAATAGGGATCAGTCAATTTCACAATCATTAATGTGTAAGGAGGTCATTGGTAGGGTTTTGGTG CTTATGCATGTGGGGTTTTAGAGGTGTTTAGGAGGTTTCTGTGCTACAATGGTCGAGCTTGTTGACATGGTTACTATACC ATGTTTAAAGGGGATATTTCTTAACTCTATCCTTATATATATGATAAATGTGATATTATGTGAGAACATGAGAATAAATC ACAATCATTAGATCTAATCATGAACGGTTCTGATTAAAACAAATTAATAGTCGTGATTTAATTTGGATTGTTTATTATTA GATCTAACAGTCGTGATTTATACTCATGCTCTCACATAGAAACATTTTTCTCATAAGAGACATCCCCACACACACACACA CATATATATACACTTTTTTTTAATATTTCATTTTCAAAAAAAATTAATGTGTAAGGAAAATCAGAAATATAAAAGTCCAT ATTCATGAAATGTTAAATTTGGCCTTGCATGATTTAAGCTGAGTGTGATGAATGTAGCTCAATGATCCTACTTATAGAAA TACCATGGAAACCCTAAAGTGAATTTTCTTTAGTAGGGATCGAACTCTTTTATAGTTTAGAATTTAGAGTTTGGAATGCC TTTTAACATTATCAAGTATCAACTCTATTTTTCATGTTTCATCTTTTTCTCCTTCTGCTTCATCTGGGTTTCTCTACACA TTTATATATGTTTTGTATGACCTAACTTTGGTGAATTTGATTGTCTTGCAGAAACAACACAAGTAAAAGTTGAGAATCAT GGAAACCACCGCAATGTGAAATGAATAATTGTCAATGAGGATGGAAACACTGCGTGAGAAGCAGTGCTACATTTGAAACA TTTATTTTATGGTATATTTGAAACATTTTATTTTGGTGTTAATTGTGTTGTACCAACAATAAATCACTTCTTCATTGGAT TAAGTTGTATGCGACTTTGCTGGTTTTTGATTCAG
CDS sequence (LotjaGi4g1v0233600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGATCCTCACGCCGCCGCCGCCGCCGCTGCCAATGTCGCCGATGCTGTTGCCGCCTATGCCGCCGCCGATCCAGCACA TGCCGATGCTGCCTATGCCGCCGCCGTCAATGCCGCCAATGATTCCGATTCCGATCCCGAGAGCATCGTTACCGAGGGAG ACTACCTTGTCCGGGAGAATGTCCGGAGCGCGGAGTCCATCCGTAGCAGATTCACGGCGGGACTGGGGGCTATGGCACCG TGTATCCAGGTGGTTCAAATTCGGAGAAACACTTTTCCGACGGTGATGACGCAGGCGCGTATTGACGCGTTCGAGATCTA CGCGCGTGCGACGGCGCGTGCGCGTGACGGCGATGCGAACGTGGAGCATGCGTGGTTCGGTGCTACCAACATGGATGAGA TCCTGGGCATCATTAAGCACGGTTTCGGGCAAGATCAACTCCATGGACATGGCCTGCGTCTCTCTCCAGAGGATTGTCCT ATACTATGTATGGCAAGGACTGCTCCTGACAATGGTGGCTTGAAGCACTTGTTGTTGTGCCGTGTTATCTTGGGGAGGAT GGCGGTGCTGGCTCCCGGTTCTGAATGCGAACCGATTTCTCAAGAATATGATTCTGCGGTGCACAATGTTTCATCTTTTA AGGAGTACTTCATTTGGAGTAACCAAATGAACACACATGTCTTGCCTGAATATGTTTTGAGTTACAAGGATCTCGTCCCC ACCACAGGGCTTGGGAATGTGGCTAAGAGACCAATATCCCCACCGATACCGATTGGGACGCTTATCACAGCGCTATCTAG GTTGTTGCCTTTGAATGAAATGGCCTTCATTTCAAGGTCGTACCAAGAATTCAATGAAAACATTATATCACGAGAGGTTT TGGTGCAAAGGCTGAGAGTGATTGCTGGGGAACAAATGGTGACTAAGATCATTAGATCTTTTCAAGCATTCGTGGAGAAA CAACACAAGTAA
Protein sequence (LotjaGi4g1v0233600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MDPHAAAAAAANVADAVAAYAAADPAHADAAYAAAVNAANDSDSDPESIVTEGDYLVRENVRSAESIRSRFTAGLGAMAP CIQVVQIRRNTFPTVMTQARIDAFEIYARATARARDGDANVEHAWFGATNMDEILGIIKHGFGQDQLHGHGLRLSPEDCP ILCMARTAPDNGGLKHLLLCRVILGRMAVLAPGSECEPISQEYDSAVHNVSSFKEYFIWSNQMNTHVLPEYVLSYKDLVP TTGLGNVAKRPISPPIPIGTLITALSRLLPLNEMAFISRSYQEFNENIISREVLVQRLRVIAGEQMVTKIIRSFQAFVEK QHK
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
| Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
|---|---|---|---|---|---|---|
| ProSiteProfiles | 40 | 256 | 217 | 16.126 | ||
| PANTHER | 42 | 319 | 278 | 1.6E-74 | – | |
| PANTHER | 42 | 319 | 278 | 1.6E-74 | – | |
| Gene3D | 55 | 238 | 184 | 1.7E-19 | – | |
| SUPERFAMILY | 113 | 240 | 128 | 3.45E-14 | – | |
| ProSiteProfiles | 249 | 320 | 72 | 19.178 | – | |
| Pfam | 250 | 315 | 66 | 2.7E-16 |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
| GO term | Namespace | Name | Definition | Relationships |
|---|---|---|---|---|
| Molecular function | NAD+ ADP-ribosyltransferase activity | Catalysis of the reaction: NAD+ + (ADP-D-ribosyl)(n)-acceptor = nicotinamide + (ADP-D-ribosyl)(n+1)-acceptor. |
Expression pattern of LotjaGi4g1v0233600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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