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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0711100 |
| Transcript ID | LotjaGi1g1v0711100.3 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Poly [ADP]-ribose] polymerase; TAIR: AT2G31320.1 poly(ADP-ribose) polymerase 2; Swiss-Prot: sp|Q9ZP54|PARP1_ARATH Poly [ADP]-ribose] polymerase 1; TrEMBL-Plants: tr|A0A072U2F3|A0A072U2F3_MEDTR Poly [ADP]-ribose] polymerase; Found in the gene: LotjaGi1g1v0711100 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:127943481..127952773) extracted from Lotus japonicus Gifu genome v1.2.
TGTCCAGCTCAAGTGTTTGAGCCCAAAAATACTTTTTTAGTTAGACACCGTGAAGAAGTGTCTGACACGTATCGTGCCGG TGTCATACAAGTCAGTGTTCAATACAAGAATACTCTATATGTGAGAGGTGTTTGTGCTTGAAAAACTTGAACTGAAACTT AATAAATAATAATAAATAAAGTAAAGAAAAACATATATTAAAGGTTTATAAAGCATATTTTAAAAGCCAATAAATAAGAT TTATCATATTTATAAAGCATATGTTAAAAGGTTGCACTTTTTTTTAAAGAAAACATTGCATGAAATGAAAGTCATTATTA TCAACTATCATTTTTTTTATTCCCTTACCATATAACACATTTCAGTTTATTTTAAAAAACATGATGCATGTCATTAAAAC ATGTCAACCCCAATTGTTAAAATGTTAACAACACACACTTTTGAACCCTCTTTTGAACACGTTTTATGTGATTGATTATT TTTTGTGAAAAGTAATATCTACTACTATCTAACATATTTATTAGTATGGACAAATTGCATTGACCTCCCGTGAAATTTGT TATTATTGTATTGACTTCCATAAGCATATACTAATCACCCTTATTCTATGGGAAACATTGCATTGACATTCCCTAAAGTT TACCATTATTACATTGCTCTTCAATAAAATCTATAATTATAACACTAAACATTTCTCTATTATTCTAAATGGTGTGTCCC TTTATGAAAAATTGGAGGTCAAGAGTTGAGTGAAAATATGATTAACCTAAAGGACTTAAGTGTAATAAAAAAACATGAAA AGCCATATACATATAAAAAAGCAAAAGGTGGAGGGAAGAGAGGGAGTGGAAGTGTGAGAGTGAGTGAGAGAGGAGAGGAA TGTCGTCGAACCCTCAAAATCAAAAGCCATGGAAAGCAGAGTACGCCAAGTCAGGCCGATCGTCATGCCGGACCTGCAAG TCCCCCATTGACAAGGAGGTCTTCCGTCTCGGCAAGATGGTTCAATCCACCCAATTCGATGGCCTCATGCCTGTAATCTC TCCATTCCTTTCCATTTTTCCTTGTTAATGCTCTCTGTCAACTAGCTTAGTCATTCTTCTTGTTCCCTCAAACCCCATTT GGCATTTGGAACATTTCATGATTTGCATTTCATTTTTAGATGAAAGGATGCATAATAGGGTTTGATTTTTTGAGCATTCT GTATAAAAGGTAGAAACTTTAGTGAAAATCACAATGTAATTTGTCAGATAGTGAAAGCTGTGTAGTGATTTCATTGTAGT TTTATGAGTTCTTGTGAAAAGGTAGAAACTTTAGTTAAAATTACAATGTAATTTGTCAGATAGTTAAAGGGGTTGATTTT TTGAGCATTCTGTAAAAAAGTAGAAACTTCAGTGAAAATTACAATGGAAGTTGTCAGATAGTTAATGGGTTTGATTTTTT GAACATTCTGTAAAAAGGTAGAAACTTTAGTTAAAATGACAATGTAATTTGCCAGATAGTGTAAGTTGGGTAGTGATTTC ATTGTACTTTTATGAGTTTTTGTTTTTGTTAAGTAAAATTACTCTCTGCATGTTTGTTATGCTTTAATGTGTACTATTTT CCTTTTTCTACCAGATGTGGCATCATGCTGATTGCATATTGAAGAAATCCAACCAGATAAAATTGTAAGAAATTTTTTAT CCTTATTACATGGAAAATTTTTGTGATATTTTACATCGGTAAGGATTTATGACTTGTCACGCACTACTTTTCTTTTAGAG TTGATGATGTTGAAAACTTAGAGTCGCTTCGTTGGGAAGACCAGCAAAAGATCAGAAAGTACATCGAGAGTGGCGGTGGC GGTAGTGGTGGCACGCCAACGCCAAAAAAGGCTAACAAAAATACTGAGTGTGGTATTGAAGTTTCACAAACTTCTCGTGC TACTTGCAAGGATTGTGGTCAAAAAATCATCAAGGGAGAGGTTTGCTCCTAACTTCTCTTAAAATGTCATAAACTCATAA TATTGCAAAGGCAGTTCTTAGAGTTTGGATGTTTATGGGACCTAATGGATTTTGTGGCGTGAAAATGAGTTCACAAGCAA AAGCATAAATTTGATGATTTGCACTTACAATGAATTAACTCATGAAAGGTATATTTTTGTATTTAGTACTACCCTATTGA CGTTGCAGATTTAATGGATGAAACTATTGGGATTCATAGTTTATTTTTTTAATCCTAACATCTAGCACTTCATGTTAATT TCCAAAAGTATCGCCTTGGCATCTAAAACATTTGCTTCCAATATCATGTGGTGTTGCTATCCATTGTGTCAGTTATTTGA ACAAGCCCTGGCCCATGGTAACAAAATTGTTGTGCTATCTCCTTGCATTCTCCATCTTGAGATTCAGAATGGCTAAAAGC ATCTCCAGCCAGCTTATCCCATCTTTCAAGTGAAAGAAAACTTAATAGAAGTTTGAATTCATGAATTTATGGAATTTTTT TGAATCTAGAAATTTCAGTAGTATGTGGAATAATATAAGGTTACATCGAGCTATGTTTTGTGGGTGGTGTCTGGAGTTAC TTTAATCTAATTCTCCATAGCTTTTCGACTCAGAAATTAATCATGTTCCTCAGCTCTTTTGGGTTGACCATGAGGCCACA TCTCTTAACTTCTTATCCATTCCTTTTTTTCAATTGTATGATGGCTAGAGAAATAAAAGCCTTCTGGCCTCATGGACACA TTTTGTCTGTATTAGTTAGGTAGGAGAAGTTGTGGGGGGAGGTGCTAATATGGGATCTAAGCCTCTCCTGAATTCTGGTT ACCGTGTTTGCGCTGAACTTGGAATCTTGCATTCAACCAACTTTTTGTCCTCTCATTTAACTATGATGTCCTTAAAAGGT TAAAATTTTCAAAACAATTCTTATAATGTTCAAATTAACCACTAATTTCATGATTTCATTTTGGATTAGATGAAAGCTTC TCAAATGGTATTAACAACAGTTTTCTTCATGCTTGTTAGACTCCATGTCTGCATTGTTGAGATTTTGAAACTCAATGTTT CCTAACCATTCGGCATGTGTTATTGGTTTTGGAATAGCTCTCCACACTGTGATTTTATTTTATGTTTAGGTTCGAATATC CACTAAGCCTGAAGGTCAAGGTGCTAGGGGTTTGGCTTGGCACCATGCCAAGTGTCTCATGGAATTATCACCATCGATTC AAGTGGATAAGTTGTCTGGATGGAATAGTCTCTCATCTTCTGATCAATCAGCCGTCAGTGACTTGGCTAAGGGTCATCCT ATGAATAAGGGAGGTATGGTGATTGAGTTGTTTAATAAAGGCTGGTTCTGGTTTTTAATGCTGCAGTGATTTCATCTCCT TGTTTTTGTAGTTACTATGTCACTGTTTTCCTCGCAGATGGTAGTGATACAAAGATCGAGGCTGAAGAGTTTAATGAATC CGCACACCAATCCACTTCCAAAGGTGGCACCAAACGGGGGAAGAATGCCGATAGTGAGCGGAAGTCAAAAGTTACTAAGG CCAAAGAGGATGTGTCTGCAGGCAGGGCAGCATCAATGAAAAATGCTGATGGCTTAGGGGAAGCATGTGATCTGGAGACT AAACTGGAGGCCCAGAGCAAAGAACTCTGGGCTCTGAAGGATGATCTTAAGAAGAATGTGACAACAGCAGAGTTGCGTGA AATACTGGAAGTCAATGGTCAAGATTCAACAGGATCAGAACTTGATTTGCGTGATCGCTGGTAATTTAATCTCATGCACT TTCTTTGCTGATCTTTAAGAATATTTTGCCTCATTCCAGTCTGTTCTTTATTAAGCGTAAAGTTTTCCATTCGTAATGTT ATTGCCCCTTTCTTTTAAGTTTCTAAGGATTTTAATGATAATAGTTTATGTTTATTTGTCTGCTGGGAGTCCGCTATTAT GCATGATCACTTGTATTTTTACAAGTTTTAATAGATAATCATAAATTATTCATCAAAAGAAAAATTTAAAGGCAAGCAGG TCAAGCGCTTTATTGTCTGGATGAAAACAAACTTTCCAGATTTATTCTGCTTACTTTGTGATGCATTTTGAAAATATTAT CCTGCACGTTATGATGTATTTCCTCAACTTTGATCATTATTATTGTGATTTTAGTGCTGATGGAATGATGTTTGGAGCAC TTGGTCATTGCCCAATATGTTCTGGTTATCTGCGTTATTCTGGAGGAATGTTCCGGTGCAATGGATACATTTCTGAGTGG AGTAAATGTTCCTACTCTACCAGCGAACCAAAACGTACTGAAGGGAAGTGGAAAATCCCGGAGGAAACAAATAATCAATA CCTAAAAAAGGTCTGTAAAGAGGAAAAAAGTCATTCAACAAAACCAACTTATTAAGGCTTAATTTTGTTCTTTGTGTTTA CAGTGGTTCAAATCTCAAAAGGGGAAGAAACCAGTTAGGATATTGCCTCTGCCATCATCAATGAACTCTGTTGAAAGTCA AATTACTAATTCCCAGCAGCATCAATCATCAAGCAGTGAGAGTTTGATGGATTTGAAAGTTTCTATTGCTGGATTACCTA AAGAATCTATTGTATAACTTCCTTTCTTTTTTTCCTTTCACATCCATTATTGAAGCCCCCTTCCCCCAAAATCATTTTGA GAAACTGCCAGATTCAATTTAGTTGCATTGTAGTATTAAGTATTCATCTTCTACGAATTGATTTCACAGGAGGATTGGAA ACGCAAAATTGATGGCGTTGGTGGGGTTTTTCATGCAAAAGTGAAGAAAGGTATCTGCTGCTGCGACCAATTTCTGAAAA TTGAATATTCCAAAAAAACTGTAGAAATATTTTTGTCTGTTCATGTGTATGTATGACTTTTATAGTCTTTTCTTGACCTG TGTACTTGCAGATACTAGCTGCTTGGTGGTCAGTGGAGCACTTAATGATGAAGCTGAGATGCGGAAGGCAAGGTATGGGC GCACTCAAGTTTTCAGTCTCTAATATTTTTTTCTTTTCGTTGTTTGATTGTAGTATCACTGATTTGGGAGAATTTCATCA ATAGGAGGATGAAAATACCAATAGTAAGAGAGGACTATTTGGTTGACTGTATGGAAAGAAATAAGAAGCTTCCATTTGAT ATGTACAAAGTTGAAAAGATTGGTGAGGCTTCTAGCATGGTCACTGTCAAAGTGAAGGGGCAGAGTGCTGTTCACGAAGC TTCTGGCCTACAGGATTCCGGCCACATACTCGAGGAAGGGAAAAGCATATATAATACAACTTTGAACATGTCTGATTTGT CTACTGGTGTTAACAGGTGGGTTCATTATATTTAGTTTTTTTTTTGTTTATCCTTCAGCATAAATTTTGTTTAGATGTTA GCAGTTTGGTTTCTTTGTCAATGATGATTTAAATTGCATTGAACCTAGAAGTATGCTACTAGATTTTTGTATGCCATGCA ATGTTTCTTAAAAACATCAAGCTGTCAAATGTTAAGAGCTTATATTTCCTTATCAGTAATGATTTTGTCTCCACCACAAC AAAAAATGAATATTATATATGTTAAAGAGTAGAGTATTTGTTCTTTAAACGTGGAAACTGGAAAATAAGTTTATCAGGGT TTTAGATCCGTATCAGTAATGATTTTTTCCATACCCAAAAAAAAACTGCTTATTATAGATGTTCAAAAGTAAAGTACTTG TTCTTTTTAAAGTGGAAAATAATTTTCTGGTTGATTGTATATACTGTAAGCCTTTGATTTTTATTTGGACTTTTTACGTG ATGGTTTCTTAAATATTATGATGATGGAATGACTGCAGTAATTATGCCGTAACTGCAGCTAGTTACTGTGATGATGCTTA ATGGAAGCTGTTGAGTTTCACAGACCACTTGAATTATCATGCATCACTTTCTTTTTCAAGATTCTTGTTATGCTGTTATT TCCTCTCCTTCATTATCATCCTCTAACTTCATTTCCCATGTAAAGCTACTACATTCTCCAAATAATCCAAGAAGATAAGG GGTCAGGTTGCTATGTGTTTCGTAAATGGGGTCGTGTGGGAAATGACAAGATTGGAGGAAAGAAACTGGACGAAATGCCA AAAGGTGATGCAATCCGTGAATTCAGACGATTATTCTTTGAGAAAACTGGAAATCCTTGGGACGCTTGGGAACAAAAGAC TATTCAGAAGCAACCTGGAAGATTTTTCCCATTGGATATTGTACCGTTTTTAATCTTATTCTTATTTAAAAATTATTTGT TTGATGTAAATTATCTTGACTCATTAGGTGGATGATTCAACTCATGATTGTTTTGAACACTTTGTAGGATTATGGAGTTA GCAAGCAGGTGTCCAAAAAAATTAAAAATGAAGATAGTAAACTACCCTATCCATTAATAGAATTGATGAAGATGCTCTTC AATGTGGAAACATACAGGTATAATCAAGGCCCAAGGAACTCTCCATTTTATTAGAATATATCTAATGCAGGACTGAATCT TGAATTTGTAGAGCTGCCATGATGGAATTTGAGATTAATATGTCCGAAATGCCACTTGGGAAACTGAGCAAAAGTAATAT CCAAAAGGGTATGTTGGCACATTACTTTTAAACTTGTGCTGAGCTATGTTAGTTTGCAGCATAGGCAATCCATAGTATAT ATTGAAGTTGTAAATTTTACCTTTCATTGGTCTGCTCTCTCTTCCCAGGGTTTGAAGCATTAACGGATATACAAAATTTG TTACAAACTAGCAATCCTGATCCATCAGTCAGGGAAAGCTTGCTTATTGATGCCAGCAATCGGTTCTTCACTATGATCCC TTCTATTCATCCACATATAATTAGGGATGATGATGATTTTAAGTCAAAGGTGTGTATACTATTTTTATTCATTTTTTAGG TTTGTTTTGGTAATGAAACATGAAACTAGATTGGTGATTTTTTTTTTGCACTAGTTTTCAACTTTCAGCTATGACCCAAT GAAGTGAATATTGTTGGCAGTTGTATTGTAAAACTTGGATATTAAGATAATTTTATATTTGAACACAGTAACGAAGAATT TGTACTGGACTGCCATGTGGTTTTTTTTTTGAGTTTGTTTTCTTGCAATTTGGCAGTGGGTTTAATCTCTTATGCTCTAT TTAGATGTGGAGAGAAAAGGAAAATATATAACATGAGCATACAGAAAATGAAAAAGACAAGTGAAAATTCGTGTTTTCTT TTCACTTGAGAACTTTAATATGGGTCGCACATCAATTATTTTCTCTCCATAAATAAACAAGAGAAAATAGTTTATTCCTC TTATTTCCTCTCCACACAACTTCCTGTCATTTTCTACCCTACCATAAGTAGGGTTAAAGGTTAGGATCATCATGACAGTA AAGAAAGAGGTGAAACTTTTTGGTGTTTTCATTGTTCAAAGAATGTGAGTAATTAATGATATGTAAATTATGATTTCTAT CAGGACTGTAGTGTTGCCCCATGGATTGGCGCATATGATTACCCTTCGTTATGATTCGAATAATGTGGCCGTACTGTTTT GGTAGGTGAAAATGTTAGAAGCCCTTCAAGACATTGAAATAGCCTCAAGATTAGTTGGATTTGATGCCAACAGTGATGAC TCCATTGATGATAATTACAAGAAGCTCCACTGTGATATGTCTCCACTTCCTCATGACAGCGAAGATTTCCGTTTAGTTGA GAAGTTTCTCCATAACACCCATGCCCCCACTCATACGGTATATTTATATTTGTTAATTTGTTCATGGGTGTGTTTTTGTA TATTTATGTTGCTGGTGTGAGCTCTTTTGTTTCTCAAATGTACAAGTTCCCACAATCTTTGTAATCCATCTACACAGGAT TGGAGTCTTGAGCTAGAAGAAGTTTTTTCACTTGAAAGGGAAGGAGAGTTTGATAAGTTTGCTCCTTACAGGGACAAACT TGGTAACAGAATGCTCCTATGGCATGGTAAGTTGTGATACTACTAGTTCACTTGTAGTTTTCTGTTACGAAATATTCTGC TAAGTGCCATGATGTAAGAAAATCGAAGTATCGGAACATGTATGGATTTGTAAAGAAGATAAGAAAACCTAATAAACCTC CGAGTCTCTAAATATCCTCATGGAATTCTTCTCAGATATCTGATTACCCCATAGGGGTTGCCAAGATAATGCTAGACCAG AGGAGTTCTAAAGGCCAGAACTTTTAGCTTAAAATTAATTTTTTTCTCTGACAAAAAAATTCAGTTTCTGTGGTGAATTA CAATCACATGGATCATTATTTGTAGTAGATGAATGTTACAGCTGTAAATGAAAATATGTACAAATGCGAGTTAGACACCT ATGACAAAAATTTTTCTCCATTATAGGTTCTAGGTTGACAAACTTTGTTGGAATTCTGAGCCAAGGACTGAGAATTGCCC CTCCTGAAGCCCCTGCGACTGGATATATGGTTCTATCTATTAATCTATTTTCATACTTTTCTTTTAATATTTATATTTTC ATACACAGCTTACCTACCCAAATCAGTACTTAAATCTGAATATATTGCATTGCAGTTTGGCAAAGGGGTTTACTTTGCTG ACCTGGTCAGCAAGAGTGCTCAGTATTGCTTCACGGATAAGAAAAACCCTGTTGGTCTAATGCTTCTGAGTGAAGTTGCC CTTGGAGATGTCTATGAACTCAAAAAAGCTAAGGTGAATCTGGTTTGATAAGTTATGCTTATTGGTTTATATGGTCATGG TTTGATAGTTTGCTAGTAAGTCTGCTTTCAAAATGACCAACAATGTTGCGTTCAACCATAAATTTCTTCTAAATGGATTC GCAATAATTTTTATTTTCATTTTGATTCTTTATTTTATGCCAAATAGTATATGGACAAACCTCCAGTAGGAAAGCACTCT ACTAAAGGACTGGGCAAGAAAATGCCTCAGGAATCAGAATATGTAAAGTGGAGGGATGATGTCGTCGTTCCTTGTGGCAA ACCAGTGTCATCAAATGTCAAGGCATCTGAACTCATGTACAATGAGTATATTGTTTATAATACTGCTCAAGTAAGTTTCA AGCTTGATGATTATATTTTTACCTTACCATACCTGTAAAGCAAGCTAGCACATTTGTTGTTTAGATTGTAATAAAATGAA GAGTGGGGAATTTCTACTGCCAGGGTCACTATCGGTTTGCTATTTGGTATATTTATGCTGATTCATTGGTTATTTGTTTA TTTAAAGTTTCTTGTAGATTAATTACTGAGATGAATGGCAAACTATGGTTTGATTACATATACAATTTTCATTATCAGAA ACGCCACAGATAA
CDS sequence (LotjaGi1g1v0711100.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTGGCATCATGCTGATTGCATATTGAAGAAATCCAACCAGATAAAATTAGTTGATGATGTTGAAAACTTAGAGTCGCT TCGTTGGGAAGACCAGCAAAAGATCAGAAAGTACATCGAGAGTGGCGGTGGCGGTAGTGGTGGCACGCCAACGCCAAAAA AGGCTAACAAAAATACTGAGTGTGGTATTGAAGTTTCACAAACTTCTCGTGCTACTTGCAAGGATTGTGGTCAAAAAATC ATCAAGGGAGAGGTTCGAATATCCACTAAGCCTGAAGGTCAAGGTGCTAGGGGTTTGGCTTGGCACCATGCCAAGTGTCT CATGGAATTATCACCATCGATTCAAGTGGATAAGTTGTCTGGATGGAATAGTCTCTCATCTTCTGATCAATCAGCCGTCA GTGACTTGGCTAAGGGTCATGGTAGTGATACAAAGATCGAGGCTGAAGAGTTTAATGAATCCGCACACCAATCCACTTCC AAAGGTGGCACCAAACGGGGGAAGAATGCCGATAGTGAGCGGAAGTCAAAAGTTACTAAGGCCAAAGAGGATGTGTCTGC AGGCAGGGCAGCATCAATGAAAAATGCTGATGGCTTAGGGGAAGCATGTGATCTGGAGACTAAACTGGAGGCCCAGAGCA AAGAACTCTGGGCTCTGAAGGATGATCTTAAGAAGAATGTGACAACAGCAGAGTTGCGTGAAATACTGGAAGTCAATGGT CAAGATTCAACAGGATCAGAACTTGATTTGCGTGATCGCTGTGCTGATGGAATGATGTTTGGAGCACTTGGTCATTGCCC AATATGTTCTGGTTATCTGCGTTATTCTGGAGGAATGTTCCGGTGCAATGGATACATTTCTGAGTGGAGTAAATGTTCCT ACTCTACCAGCGAACCAAAACGTACTGAAGGGAAGTGGAAAATCCCGGAGGAAACAAATAATCAATACCTAAAAAAGTGG TTCAAATCTCAAAAGGGGAAGAAACCAGTTAGGATATTGCCTCTGCCATCATCAATGAACTCTGTTGAAAGTCAAATTAC TAATTCCCAGCAGCATCAATCATCAAGCAGTGAGAGTTTGATGGATTTGAAAGTTTCTATTGCTGGATTACCTAAAGAAT CTATTGAGGATTGGAAACGCAAAATTGATGGCGTTGGTGGGGTTTTTCATGCAAAAGTGAAGAAAGATACTAGCTGCTTG GTGGTCAGTGGAGCACTTAATGATGAAGCTGAGATGCGGAAGGCAAGGAGGATGAAAATACCAATAGTAAGAGAGGACTA TTTGGTTGACTGTATGGAAAGAAATAAGAAGCTTCCATTTGATATGTACAAAGTTGAAAAGATTGGTGAGGCTTCTAGCA TGGTCACTGTCAAAGTGAAGGGGCAGAGTGCTGTTCACGAAGCTTCTGGCCTACAGGATTCCGGCCACATACTCGAGGAA GGGAAAAGCATATATAATACAACTTTGAACATGTCTGATTTGTCTACTGGTGTTAACAGCTACTACATTCTCCAAATAAT CCAAGAAGATAAGGGGTCAGGTTGCTATGTGTTTCGTAAATGGGGTCGTGTGGGAAATGACAAGATTGGAGGAAAGAAAC TGGACGAAATGCCAAAAGGTGATGCAATCCGTGAATTCAGACGATTATTCTTTGAGAAAACTGGAAATCCTTGGGACGCT TGGGAACAAAAGACTATTCAGAAGCAACCTGGAAGATTTTTCCCATTGGATATTGATTATGGAGTTAGCAAGCAGGTGTC CAAAAAAATTAAAAATGAAGATAGTAAACTACCCTATCCATTAATAGAATTGATGAAGATGCTCTTCAATGTGGAAACAT ACAGAGCTGCCATGATGGAATTTGAGATTAATATGTCCGAAATGCCACTTGGGAAACTGAGCAAAAGTAATATCCAAAAG GGGTTTGAAGCATTAACGGATATACAAAATTTGTTACAAACTAGCAATCCTGATCCATCAGTCAGGGAAAGCTTGCTTAT TGATGCCAGCAATCGGTTCTTCACTATGATCCCTTCTATTCATCCACATATAATTAGGGATGATGATGATTTTAAGTCAA AGGTGAAAATGTTAGAAGCCCTTCAAGACATTGAAATAGCCTCAAGATTAGTTGGATTTGATGCCAACAGTGATGACTCC ATTGATGATAATTACAAGAAGCTCCACTGTGATATGTCTCCACTTCCTCATGACAGCGAAGATTTCCGTTTAGTTGAGAA GTTTCTCCATAACACCCATGCCCCCACTCATACGGATTGGAGTCTTGAGCTAGAAGAAGTTTTTTCACTTGAAAGGGAAG GAGAGTTTGATAAGTTTGCTCCTTACAGGGACAAACTTGGTAACAGAATGCTCCTATGGCATGGTTCTAGGTTGACAAAC TTTGTTGGAATTCTGAGCCAAGGACTGAGAATTGCCCCTCCTGAAGCCCCTGCGACTGGATATATGTTTGGCAAAGGGGT TTACTTTGCTGACCTGGTCAGCAAGAGTGCTCAGTATTGCTTCACGGATAAGAAAAACCCTGTTGGTCTAATGCTTCTGA GTGAAGTTGCCCTTGGAGATGTCTATGAACTCAAAAAAGCTAAGTATATGGACAAACCTCCAGTAGGAAAGCACTCTACT AAAGGACTGGGCAAGAAAATGCCTCAGGAATCAGAATATGTAAAGTGGAGGGATGATGTCGTCGTTCCTTGTGGCAAACC AGTGTCATCAAATGTCAAGGCATCTGAACTCATGTACAATGAGTATATTGTTTATAATACTGCTCAAGGTCACTATCGGT TTGCTATTTGGTATATTTATAAACGCCACAGATAA
Protein sequence (LotjaGi1g1v0711100.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MWHHADCILKKSNQIKLVDDVENLESLRWEDQQKIRKYIESGGGGSGGTPTPKKANKNTECGIEVSQTSRATCKDCGQKI IKGEVRISTKPEGQGARGLAWHHAKCLMELSPSIQVDKLSGWNSLSSSDQSAVSDLAKGHGSDTKIEAEEFNESAHQSTS KGGTKRGKNADSERKSKVTKAKEDVSAGRAASMKNADGLGEACDLETKLEAQSKELWALKDDLKKNVTTAELREILEVNG QDSTGSELDLRDRCADGMMFGALGHCPICSGYLRYSGGMFRCNGYISEWSKCSYSTSEPKRTEGKWKIPEETNNQYLKKW FKSQKGKKPVRILPLPSSMNSVESQITNSQQHQSSSSESLMDLKVSIAGLPKESIEDWKRKIDGVGGVFHAKVKKDTSCL VVSGALNDEAEMRKARRMKIPIVREDYLVDCMERNKKLPFDMYKVEKIGEASSMVTVKVKGQSAVHEASGLQDSGHILEE GKSIYNTTLNMSDLSTGVNSYYILQIIQEDKGSGCYVFRKWGRVGNDKIGGKKLDEMPKGDAIREFRRLFFEKTGNPWDA WEQKTIQKQPGRFFPLDIDYGVSKQVSKKIKNEDSKLPYPLIELMKMLFNVETYRAAMMEFEINMSEMPLGKLSKSNIQK GFEALTDIQNLLQTSNPDPSVRESLLIDASNRFFTMIPSIHPHIIRDDDDFKSKVKMLEALQDIEIASRLVGFDANSDDS IDDNYKKLHCDMSPLPHDSEDFRLVEKFLHNTHAPTHTDWSLELEEVFSLEREGEFDKFAPYRDKLGNRMLLWHGSRLTN FVGILSQGLRIAPPEAPATGYMFGKGVYFADLVSKSAQYCFTDKKNPVGLMLLSEVALGDVYELKKAKYMDKPPVGKHST KGLGKKMPQESEYVKWRDDVVVPCGKPVSSNVKASELMYNEYIVYNTAQGHYRFAIWYIYKRHR
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 |
|---|---|---|---|---|---|---|
| SMART | 1 | 40 | 40 | 0.12 | ||
| SUPERFAMILY | 1 | 57 | 57 | 1.1E-6 | – | |
| Gene3D | 1 | 56 | 56 | 7.9E-12 | ||
| PIRSF | 1 | 943 | 943 | 0.0 | ||
| ProSiteProfiles | 1 | 43 | 43 | 13.123 | ||
| PANTHER | 2 | 929 | 928 | 0.0 | – | |
| PANTHER | 2 | 929 | 928 | 0.0 | – | |
| MobiDBLite | 39 | 58 | 20 | - | – | |
| Gene3D | 57 | 161 | 105 | 4.3E-20 | ||
| SUPERFAMILY | 60 | 151 | 92 | 8.41E-18 | – | |
| ProSiteProfiles | 61 | 141 | 81 | 14.901 | ||
| Pfam | 64 | 135 | 72 | 2.2E-14 | ||
| SMART | 64 | 138 | 75 | 6.5E-20 | ||
| MobiDBLite | 124 | 143 | 20 | - | – | |
| MobiDBLite | 148 | 189 | 42 | - | – | |
| MobiDBLite | 166 | 184 | 19 | - | – | |
| Gene3D | 189 | 261 | 73 | 1.6E-20 | – | |
| SMART | 250 | 303 | 54 | 1.6E-29 | ||
| Pfam | 252 | 302 | 51 | 4.9E-21 | ||
| Gene3D | 262 | 322 | 61 | 2.8E-16 | ||
| Gene3D | 338 | 447 | 110 | 6.3E-14 | ||
| ProSiteProfiles | 355 | 445 | 91 | 13.952 | ||
| SUPERFAMILY | 356 | 445 | 90 | 3.53E-15 | ||
| SMART | 358 | 435 | 78 | 6.4E-10 | ||
| CDD | 360 | 433 | 74 | 4.04441E-14 | – | |
| Pfam | 362 | 432 | 71 | 2.4E-6 | ||
| Gene3D | 450 | 596 | 147 | 8.7E-42 | ||
| SUPERFAMILY | 453 | 578 | 126 | 1.29E-32 | ||
| CDD | 475 | 580 | 106 | 7.14289E-44 | – | |
| Pfam | 485 | 563 | 79 | 6.3E-17 | ||
| SMART | 485 | 568 | 84 | 1.1E-26 | ||
| ProSiteProfiles | 594 | 712 | 119 | 35.472 | ||
| CDD | 595 | 934 | 340 | 2.77836E-172 | – | |
| Pfam | 595 | 725 | 131 | 8.6E-35 | ||
| SUPERFAMILY | 595 | 729 | 135 | 5.1E-34 | ||
| Gene3D | 598 | 935 | 338 | 7.2E-131 | – | |
| Gene3D | 610 | 716 | 107 | 7.2E-131 | ||
| ProSiteProfiles | 719 | 944 | 226 | 97.8 | ||
| SUPERFAMILY | 728 | 940 | 213 | 2.66E-67 | – | |
| Pfam | 739 | 936 | 198 | 8.0E-69 |
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 | DNA binding | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
| Molecular function | NAD+ ADP-ribosyltransferase activity | Catalysis of the reaction: NAD+ + (ADP-D-ribosyl)(n)-acceptor = nicotinamide + (ADP-D-ribosyl)(n+1)-acceptor. | ||
| Cellular component | Nucleus | A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent. | ||
| Biological process | Protein ADP-ribosylation | The transfer, from NAD, of ADP-ribose to protein amino acids. | ||
| Molecular function | Zinc ion binding | Interacting selectively and non-covalently with zinc (Zn) ions. | ||
| Molecular function | NAD binding | Interacting selectively and non-covalently with nicotinamide adenine dinucleotide, a coenzyme involved in many redox and biosynthetic reactions; binding may be to either the oxidized form, NAD+, or the reduced form, NADH. |
Expression pattern of LotjaGi1g1v0711100.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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