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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0711100 |
Transcript ID | LotjaGi1g1v0711100.1 |
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_chr1:127942347..127951960) extracted from Lotus japonicus Gifu genome v1.2.
TAAAAAAGCAAAAGGTGGAGGGAAGAGAGGGAGTGGAAGTGTGAGAGTGAGTGAGAGAGGAGAGGAATGTCGTCGAACCC TCAAAATCAAAAGCCATGGAAAGCAGAGTACGCCAAGTCAGGCCGATCGTCATGCCGGACCTGCAAGTCCCCCATTGACA AGGAGGTCTTCCGTCTCGGCAAGATGGTTCAATCCACCCAATTCGATGGCCTCATGCCTGTAATCTCTCCATTCCTTTCC ATTTTTCCTTGTTAATGCTCTCTGTCAACTAGCTTAGTCATTCTTCTTGTTCCCTCAAACCCCATTTGGCATTTGGAACA TTTCATGATTTGCATTTCATTTTTAGATGAAAGGATGCATAATAGGGTTTGATTTTTTGAGCATTCTGTATAAAAGGTAG AAACTTTAGTGAAAATCACAATGTAATTTGTCAGATAGTGAAAGCTGTGTAGTGATTTCATTGTAGTTTTATGAGTTCTT GTGAAAAGGTAGAAACTTTAGTTAAAATTACAATGTAATTTGTCAGATAGTTAAAGGGGTTGATTTTTTGAGCATTCTGT AAAAAAGTAGAAACTTCAGTGAAAATTACAATGGAAGTTGTCAGATAGTTAATGGGTTTGATTTTTTGAACATTCTGTAA AAAGGTAGAAACTTTAGTTAAAATGACAATGTAATTTGCCAGATAGTGTAAGTTGGGTAGTGATTTCATTGTACTTTTAT GAGTTTTTGTTTTTGTTAAGTAAAATTACTCTCTGCATGTTTGTTATGCTTTAATGTGTACTATTTTCCTTTTTCTACCA GATGTGGCATCATGCTGATTGCATATTGAAGAAATCCAACCAGATAAAATTGTAAGAAATTTTTTATCCTTATTACATGG AAAATTTTTGTGATATTTTACATCGGTAAGGATTTATGACTTGTCACGCACTACTTTTCTTTTAGAGTTGATGATGTTGA AAACTTAGAGTCGCTTCGTTGGGAAGACCAGCAAAAGATCAGAAAGTACATCGAGAGTGGCGGTGGCGGTAGTGGTGGCA CGCCAACGCCAAAAAAGGCTAACAAAAATACTGAGTGTGGTATTGAAGTTTCACAAACTTCTCGTGCTACTTGCAAGGAT TGTGGTCAAAAAATCATCAAGGGAGAGGTTTGCTCCTAACTTCTCTTAAAATGTCATAAACTCATAATATTGCAAAGGCA GTTCTTAGAGTTTGGATGTTTATGGGACCTAATGGATTTTGTGGCGTGAAAATGAGTTCACAAGCAAAAGCATAAATTTG ATGATTTGCACTTACAATGAATTAACTCATGAAAGGTATATTTTTGTATTTAGTACTACCCTATTGACGTTGCAGATTTA ATGGATGAAACTATTGGGATTCATAGTTTATTTTTTTAATCCTAACATCTAGCACTTCATGTTAATTTCCAAAAGTATCG CCTTGGCATCTAAAACATTTGCTTCCAATATCATGTGGTGTTGCTATCCATTGTGTCAGTTATTTGAACAAGCCCTGGCC CATGGTAACAAAATTGTTGTGCTATCTCCTTGCATTCTCCATCTTGAGATTCAGAATGGCTAAAAGCATCTCCAGCCAGC TTATCCCATCTTTCAAGTGAAAGAAAACTTAATAGAAGTTTGAATTCATGAATTTATGGAATTTTTTTGAATCTAGAAAT TTCAGTAGTATGTGGAATAATATAAGGTTACATCGAGCTATGTTTTGTGGGTGGTGTCTGGAGTTACTTTAATCTAATTC TCCATAGCTTTTCGACTCAGAAATTAATCATGTTCCTCAGCTCTTTTGGGTTGACCATGAGGCCACATCTCTTAACTTCT TATCCATTCCTTTTTTTCAATTGTATGATGGCTAGAGAAATAAAAGCCTTCTGGCCTCATGGACACATTTTGTCTGTATT AGTTAGGTAGGAGAAGTTGTGGGGGGAGGTGCTAATATGGGATCTAAGCCTCTCCTGAATTCTGGTTACCGTGTTTGCGC TGAACTTGGAATCTTGCATTCAACCAACTTTTTGTCCTCTCATTTAACTATGATGTCCTTAAAAGGTTAAAATTTTCAAA ACAATTCTTATAATGTTCAAATTAACCACTAATTTCATGATTTCATTTTGGATTAGATGAAAGCTTCTCAAATGGTATTA ACAACAGTTTTCTTCATGCTTGTTAGACTCCATGTCTGCATTGTTGAGATTTTGAAACTCAATGTTTCCTAACCATTCGG CATGTGTTATTGGTTTTGGAATAGCTCTCCACACTGTGATTTTATTTTATGTTTAGGTTCGAATATCCACTAAGCCTGAA GGTCAAGGTGCTAGGGGTTTGGCTTGGCACCATGCCAAGTGTCTCATGGAATTATCACCATCGATTCAAGTGGATAAGTT GTCTGGATGGAATAGTCTCTCATCTTCTGATCAATCAGCCGTCAGTGACTTGGCTAAGGGTCATCCTATGAATAAGGGAG GTATGGTGATTGAGTTGTTTAATAAAGGCTGGTTCTGGTTTTTAATGCTGCAGTGATTTCATCTCCTTGTTTTTGTAGTT ACTATGTCACTGTTTTCCTCGCAGATGGTAGTGATACAAAGATCGAGGCTGAAGAGTTTAATGAATCCGCACACCAATCC ACTTCCAAAGGTGGCACCAAACGGGGGAAGAATGCCGATAGTGAGCGGAAGTCAAAAGTTACTAAGGCCAAAGAGGATGT GTCTGCAGGCAGGGCAGCATCAATGAAAAATGCTGATGGCTTAGGGGAAGCATGTGATCTGGAGACTAAACTGGAGGCCC AGAGCAAAGAACTCTGGGCTCTGAAGGATGATCTTAAGAAGAATGTGACAACAGCAGAGTTGCGTGAAATACTGGAAGTC AATGGTCAAGATTCAACAGGATCAGAACTTGATTTGCGTGATCGCTGGTAATTTAATCTCATGCACTTTCTTTGCTGATC TTTAAGAATATTTTGCCTCATTCCAGTCTGTTCTTTATTAAGCGTAAAGTTTTCCATTCGTAATGTTATTGCCCCTTTCT TTTAAGTTTCTAAGGATTTTAATGATAATAGTTTATGTTTATTTGTCTGCTGGGAGTCCGCTATTATGCATGATCACTTG TATTTTTACAAGTTTTAATAGATAATCATAAATTATTCATCAAAAGAAAAATTTAAAGGCAAGCAGGTCAAGCGCTTTAT TGTCTGGATGAAAACAAACTTTCCAGATTTATTCTGCTTACTTTGTGATGCATTTTGAAAATATTATCCTGCACGTTATG ATGTATTTCCTCAACTTTGATCATTATTATTGTGATTTTAGTGCTGATGGAATGATGTTTGGAGCACTTGGTCATTGCCC AATATGTTCTGGTTATCTGCGTTATTCTGGAGGAATGTTCCGGTGCAATGGATACATTTCTGAGTGGAGTAAATGTTCCT ACTCTACCAGCGAACCAAAACGTACTGAAGGGAAGTGGAAAATCCCGGAGGAAACAAATAATCAATACCTAAAAAAGGTC TGTAAAGAGGAAAAAAGTCATTCAACAAAACCAACTTATTAAGGCTTAATTTTGTTCTTTGTGTTTACAGTGGTTCAAAT CTCAAAAGGGGAAGAAACCAGTTAGGATATTGCCTCTGCCATCATCAATGAACTCTGTTGAAAGTCAAATTACTAATTCC CAGCAGCATCAATCATCAAGCAGTGAGAGTTTGATGGATTTGAAAGTTTCTATTGCTGGATTACCTAAAGAATCTATTGT ATAACTTCCTTTCTTTTTTTCCTTTCACATCCATTATTGAAGCCCCCTTCCCCCAAAATCATTTTGAGAAACTGCCAGAT TCAATTTAGTTGCATTGTAGTATTAAGTATTCATCTTCTACGAATTGATTTCACAGGAGGATTGGAAACGCAAAATTGAT GGCGTTGGTGGGGTTTTTCATGCAAAAGTGAAGAAAGGTATCTGCTGCTGCGACCAATTTCTGAAAATTGAATATTCCAA AAAAACTGTAGAAATATTTTTGTCTGTTCATGTGTATGTATGACTTTTATAGTCTTTTCTTGACCTGTGTACTTGCAGAT ACTAGCTGCTTGGTGGTCAGTGGAGCACTTAATGATGAAGCTGAGATGCGGAAGGCAAGGTATGGGCGCACTCAAGTTTT CAGTCTCTAATATTTTTTTCTTTTCGTTGTTTGATTGTAGTATCACTGATTTGGGAGAATTTCATCAATAGGAGGATGAA AATACCAATAGTAAGAGAGGACTATTTGGTTGACTGTATGGAAAGAAATAAGAAGCTTCCATTTGATATGTACAAAGTTG AAAAGATTGGTGAGGCTTCTAGCATGGTCACTGTCAAAGTGAAGGGGCAGAGTGCTGTTCACGAAGCTTCTGGCCTACAG GATTCCGGCCACATACTCGAGGAAGGGAAAAGCATATATAATACAACTTTGAACATGTCTGATTTGTCTACTGGTGTTAA CAGGTGGGTTCATTATATTTAGTTTTTTTTTTGTTTATCCTTCAGCATAAATTTTGTTTAGATGTTAGCAGTTTGGTTTC TTTGTCAATGATGATTTAAATTGCATTGAACCTAGAAGTATGCTACTAGATTTTTGTATGCCATGCAATGTTTCTTAAAA ACATCAAGCTGTCAAATGTTAAGAGCTTATATTTCCTTATCAGTAATGATTTTGTCTCCACCACAACAAAAAATGAATAT TATATATGTTAAAGAGTAGAGTATTTGTTCTTTAAACGTGGAAACTGGAAAATAAGTTTATCAGGGTTTTAGATCCGTAT CAGTAATGATTTTTTCCATACCCAAAAAAAAACTGCTTATTATAGATGTTCAAAAGTAAAGTACTTGTTCTTTTTAAAGT GGAAAATAATTTTCTGGTTGATTGTATATACTGTAAGCCTTTGATTTTTATTTGGACTTTTTACGTGATGGTTTCTTAAA TATTATGATGATGGAATGACTGCAGTAATTATGCCGTAACTGCAGCTAGTTACTGTGATGATGCTTAATGGAAGCTGTTG AGTTTCACAGACCACTTGAATTATCATGCATCACTTTCTTTTTCAAGATTCTTGTTATGCTGTTATTTCCTCTCCTTCAT TATCATCCTCTAACTTCATTTCCCATGTAAAGCTACTACATTCTCCAAATAATCCAAGAAGATAAGGGGTCAGGTTGCTA TGTGTTTCGTAAATGGGGTCGTGTGGGAAATGACAAGATTGGAGGAAAGAAACTGGACGAAATGCCAAAAGGTGATGCAA TCCGTGAATTCAGACGATTATTCTTTGAGAAAACTGGAAATCCTTGGGACGCTTGGGAACAAAAGACTATTCAGAAGCAA CCTGGAAGATTTTTCCCATTGGATATTGTACCGTTTTTAATCTTATTCTTATTTAAAAATTATTTGTTTGATGTAAATTA TCTTGACTCATTAGGTGGATGATTCAACTCATGATTGTTTTGAACACTTTGTAGGATTATGGAGTTAGCAAGCAGGTGTC CAAAAAAATTAAAAATGAAGATAGTAAACTACCCTATCCATTAATAGAATTGATGAAGATGCTCTTCAATGTGGAAACAT ACAGGTATAATCAAGGCCCAAGGAACTCTCCATTTTATTAGAATATATCTAATGCAGGACTGAATCTTGAATTTGTAGAG CTGCCATGATGGAATTTGAGATTAATATGTCCGAAATGCCACTTGGGAAACTGAGCAAAAGTAATATCCAAAAGGGTATG TTGGCACATTACTTTTAAACTTGTGCTGAGCTATGTTAGTTTGCAGCATAGGCAATCCATAGTATATATTGAAGTTGTAA ATTTTACCTTTCATTGGTCTGCTCTCTCTTCCCAGGGTTTGAAGCATTAACGGATATACAAAATTTGTTACAAACTAGCA ATCCTGATCCATCAGTCAGGGAAAGCTTGCTTATTGATGCCAGCAATCGGTTCTTCACTATGATCCCTTCTATTCATCCA CATATAATTAGGGATGATGATGATTTTAAGTCAAAGGTGTGTATACTATTTTTATTCATTTTTTAGGTTTGTTTTGGTAA TGAAACATGAAACTAGATTGGTGATTTTTTTTTTGCACTAGTTTTCAACTTTCAGCTATGACCCAATGAAGTGAATATTG TTGGCAGTTGTATTGTAAAACTTGGATATTAAGATAATTTTATATTTGAACACAGTAACGAAGAATTTGTACTGGACTGC CATGTGGTTTTTTTTTTGAGTTTGTTTTCTTGCAATTTGGCAGTGGGTTTAATCTCTTATGCTCTATTTAGATGTGGAGA GAAAAGGAAAATATATAACATGAGCATACAGAAAATGAAAAAGACAAGTGAAAATTCGTGTTTTCTTTTCACTTGAGAAC TTTAATATGGGTCGCACATCAATTATTTTCTCTCCATAAATAAACAAGAGAAAATAGTTTATTCCTCTTATTTCCTCTCC ACACAACTTCCTGTCATTTTCTACCCTACCATAAGTAGGGTTAAAGGTTAGGATCATCATGACAGTAAAGAAAGAGGTGA AACTTTTTGGTGTTTTCATTGTTCAAAGAATGTGAGTAATTAATGATATGTAAATTATGATTTCTATCAGGACTGTAGTG TTGCCCCATGGATTGGCGCATATGATTACCCTTCGTTATGATTCGAATAATGTGGCCGTACTGTTTTGGTAGGTGAAAAT GTTAGAAGCCCTTCAAGACATTGAAATAGCCTCAAGATTAGTTGGATTTGATGCCAACAGTGATGACTCCATTGATGATA ATTACAAGAAGCTCCACTGTGATATGTCTCCACTTCCTCATGACAGCGAAGATTTCCGTTTAGTTGAGAAGTTTCTCCAT AACACCCATGCCCCCACTCATACGGTATATTTATATTTGTTAATTTGTTCATGGGTGTGTTTTTGTATATTTATGTTGCT GGTGTGAGCTCTTTTGTTTCTCAAATGTACAAGTTCCCACAATCTTTGTAATCCATCTACACAGGATTGGAGTCTTGAGC TAGAAGAAGTTTTTTCACTTGAAAGGGAAGGAGAGTTTGATAAGTTTGCTCCTTACAGGGACAAACTTGGTAACAGAATG CTCCTATGGCATGGTAAGTTGTGATACTACTAGTTCACTTGTAGTTTTCTGTTACGAAATATTCTGCTAAGTGCCATGAT GTAAGAAAATCGAAGTATCGGAACATGTATGGATTTGTAAAGAAGATAAGAAAACCTAATAAACCTCCGAGTCTCTAAAT ATCCTCATGGAATTCTTCTCAGATATCTGATTACCCCATAGGGGTTGCCAAGATAATGCTAGACCAGAGGAGTTCTAAAG GCCAGAACTTTTAGCTTAAAATTAATTTTTTTCTCTGACAAAAAAATTCAGTTTCTGTGGTGAATTACAATCACATGGAT CATTATTTGTAGTAGATGAATGTTACAGCTGTAAATGAAAATATGTACAAATGCGAGTTAGACACCTATGACAAAAATTT TTCTCCATTATAGGTTCTAGGTTGACAAACTTTGTTGGAATTCTGAGCCAAGGACTGAGAATTGCCCCTCCTGAAGCCCC TGCGACTGGATATATGGTTCTATCTATTAATCTATTTTCATACTTTTCTTTTAATATTTATATTTTCATACACAGCTTAC CTACCCAAATCAGTACTTAAATCTGAATATATTGCATTGCAGTTTGGCAAAGGGGTTTACTTTGCTGACCTGGTCAGCAA GAGTGCTCAGTATTGCTTCACGGATAAGAAAAACCCTGTTGGTCTAATGCTTCTGAGTGAAGTTGCCCTTGGAGATGTCT ATGAACTCAAAAAAGCTAAGGTGAATCTGGTTTGATAAGTTATGCTTATTGGTTTATATGGTCATGGTTTGATAGTTTGC TAGTAAGTCTGCTTTCAAAATGACCAACAATGTTGCGTTCAACCATAAATTTCTTCTAAATGGATTCGCAATAATTTTTA TTTTCATTTTGATTCTTTATTTTATGCCAAATAGTATATGGACAAACCTCCAGTAGGAAAGCACTCTACTAAAGGACTGG GCAAGAAAATGCCTCAGGAATCAGAATATGTAAAGTGGAGGGATGATGTCGTCGTTCCTTGTGGCAAACCAGTGTCATCA AATGTCAAGGCATCTGAACTCATGTACAATGAGTATATTGTTTATAATACTGCTCAAGTAAGTTTCAAGCTTGATGATTA TATTTTTACCTTACCATACCTGTAAAGCAAGCTAGCACATTTGTTGTTTAGATTGTAATAAAATGAAGAGTGGGGAATTT CTACTGCCAGGGTCACTATCGGTTTGCTATTTGGTATATTTATGCTGATTCATTGGTTATTTGTTTATTTAAAGTTTCTT GTAGATTAATTACTGAGATGAATGGCAAACTATGGTTTGATTACATATACAATTTTCATTATCAGAAACGCCACAGATAA ATAACAAAAACTTGGGATTACTATCCCTGTGGTGGCAAGTTCACAGACTGGCATCTTAAAATTCGGGTTAAGCTTAACTG TTCTCCAAAAGTTATCTAAGAAATGAGGATTGCTATACCATTTATAAGGATTTATTTAGCTATATCTCTAGTCAATATTG GATCAAAACAAAGTATAATGCTTGGGTTTGTGGTTGATTAGCATGATTCTTTAGCTGTTCTTTGTCGGTACATTTCCATT GCTGTTTGGTAAAACTTATTCATGACATACTTGCACAATGCTACATTTTTGTGGATTTGTCAAGAGACTCAGCTAAAGCC CGATATATGGTGTACCTTTCTTTTCTTAAGTACATGCCTTTGACTGATTGTGGACTTTCTTTGCAGGTCAAGATGCAATT CTTATTGAAGGTGAGGTTCCATCACAAAAGGTGAGGTTTGGAAACTAGAGGTTTTCTGTTTTGGGGCTTTATGTGTACGT AGCAGTTTTTTTGACCAGGACTAGTACATATTCCATCTGGTATTCTCTAAAATTGTCTAGGAAAGGTCTCATTTTGAGTT GACGGGAGATCTTTCAACCTTTTTTTTGGTGTGTTTGTAAGTGCAGCCTGTGCAGGGATCTAGTTGAAACTCGTCATTTT GTAGCAGAAATATCTAATGCAATTTGTGATCTGGTTGTGTGTAGAATAGACCACCGTTTTAATGTCAAACTGTGTTATCG TGCTGTTCCCTCTTTAATGTGCGATGCATCTGTATTCTGTACAGATTGAGGTTTTTTATCCTACCCTTATTCAATTTTCT GGTAAGTATGCCTAAATAGCAGAAGAGTTGCTTTCCTTTGTAAGTGAAGGGAAGGGTACTTTTCTGATAATTATGGTGAT CCTAATTTTTGTGAACCCTGTTAAGGCCAAAAATGAAGAATGAATAATTAAAGCTTCCCTGGTCATGGGCTGTGGTTGTT ATGGGGGATTTAGAACCCGTTTGGATACATACTTATTGGAGCTTATTAAACCTTATCTACTAGAAAAAAGGCATTAAGTA AGCTCCAATTAGTGCTCTTTGGTTTGCATCCAAATGAGTAGTCATTCTGTTGCGTAAGATGTTACGCGGTCATCTTACGC GGTCTGCATGTGTG
CDS sequence (LotjaGi1g1v0711100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCGTCGAACCCTCAAAATCAAAAGCCATGGAAAGCAGAGTACGCCAAGTCAGGCCGATCGTCATGCCGGACCTGCAA GTCCCCCATTGACAAGGAGGTCTTCCGTCTCGGCAAGATGGTTCAATCCACCCAATTCGATGGCCTCATGCCTATGTGGC ATCATGCTGATTGCATATTGAAGAAATCCAACCAGATAAAATTAGTTGATGATGTTGAAAACTTAGAGTCGCTTCGTTGG GAAGACCAGCAAAAGATCAGAAAGTACATCGAGAGTGGCGGTGGCGGTAGTGGTGGCACGCCAACGCCAAAAAAGGCTAA CAAAAATACTGAGTGTGGTATTGAAGTTTCACAAACTTCTCGTGCTACTTGCAAGGATTGTGGTCAAAAAATCATCAAGG GAGAGGTTCGAATATCCACTAAGCCTGAAGGTCAAGGTGCTAGGGGTTTGGCTTGGCACCATGCCAAGTGTCTCATGGAA TTATCACCATCGATTCAAGTGGATAAGTTGTCTGGATGGAATAGTCTCTCATCTTCTGATCAATCAGCCGTCAGTGACTT GGCTAAGGGTCATCCTATGAATAAGGGAGATGGTAGTGATACAAAGATCGAGGCTGAAGAGTTTAATGAATCCGCACACC AATCCACTTCCAAAGGTGGCACCAAACGGGGGAAGAATGCCGATAGTGAGCGGAAGTCAAAAGTTACTAAGGCCAAAGAG GATGTGTCTGCAGGCAGGGCAGCATCAATGAAAAATGCTGATGGCTTAGGGGAAGCATGTGATCTGGAGACTAAACTGGA GGCCCAGAGCAAAGAACTCTGGGCTCTGAAGGATGATCTTAAGAAGAATGTGACAACAGCAGAGTTGCGTGAAATACTGG AAGTCAATGGTCAAGATTCAACAGGATCAGAACTTGATTTGCGTGATCGCTGTGCTGATGGAATGATGTTTGGAGCACTT GGTCATTGCCCAATATGTTCTGGTTATCTGCGTTATTCTGGAGGAATGTTCCGGTGCAATGGATACATTTCTGAGTGGAG TAAATGTTCCTACTCTACCAGCGAACCAAAACGTACTGAAGGGAAGTGGAAAATCCCGGAGGAAACAAATAATCAATACC TAAAAAAGTGGTTCAAATCTCAAAAGGGGAAGAAACCAGTTAGGATATTGCCTCTGCCATCATCAATGAACTCTGTTGAA AGTCAAATTACTAATTCCCAGCAGCATCAATCATCAAGCAGTGAGAGTTTGATGGATTTGAAAGTTTCTATTGCTGGATT ACCTAAAGAATCTATTGAGGATTGGAAACGCAAAATTGATGGCGTTGGTGGGGTTTTTCATGCAAAAGTGAAGAAAGATA CTAGCTGCTTGGTGGTCAGTGGAGCACTTAATGATGAAGCTGAGATGCGGAAGGCAAGGAGGATGAAAATACCAATAGTA AGAGAGGACTATTTGGTTGACTGTATGGAAAGAAATAAGAAGCTTCCATTTGATATGTACAAAGTTGAAAAGATTGGTGA GGCTTCTAGCATGGTCACTGTCAAAGTGAAGGGGCAGAGTGCTGTTCACGAAGCTTCTGGCCTACAGGATTCCGGCCACA TACTCGAGGAAGGGAAAAGCATATATAATACAACTTTGAACATGTCTGATTTGTCTACTGGTGTTAACAGCTACTACATT CTCCAAATAATCCAAGAAGATAAGGGGTCAGGTTGCTATGTGTTTCGTAAATGGGGTCGTGTGGGAAATGACAAGATTGG AGGAAAGAAACTGGACGAAATGCCAAAAGGTGATGCAATCCGTGAATTCAGACGATTATTCTTTGAGAAAACTGGAAATC CTTGGGACGCTTGGGAACAAAAGACTATTCAGAAGCAACCTGGAAGATTTTTCCCATTGGATATTGATTATGGAGTTAGC AAGCAGGTGTCCAAAAAAATTAAAAATGAAGATAGTAAACTACCCTATCCATTAATAGAATTGATGAAGATGCTCTTCAA TGTGGAAACATACAGAGCTGCCATGATGGAATTTGAGATTAATATGTCCGAAATGCCACTTGGGAAACTGAGCAAAAGTA ATATCCAAAAGGGGTTTGAAGCATTAACGGATATACAAAATTTGTTACAAACTAGCAATCCTGATCCATCAGTCAGGGAA AGCTTGCTTATTGATGCCAGCAATCGGTTCTTCACTATGATCCCTTCTATTCATCCACATATAATTAGGGATGATGATGA TTTTAAGTCAAAGGTGAAAATGTTAGAAGCCCTTCAAGACATTGAAATAGCCTCAAGATTAGTTGGATTTGATGCCAACA GTGATGACTCCATTGATGATAATTACAAGAAGCTCCACTGTGATATGTCTCCACTTCCTCATGACAGCGAAGATTTCCGT TTAGTTGAGAAGTTTCTCCATAACACCCATGCCCCCACTCATACGGATTGGAGTCTTGAGCTAGAAGAAGTTTTTTCACT TGAAAGGGAAGGAGAGTTTGATAAGTTTGCTCCTTACAGGGACAAACTTGGTAACAGAATGCTCCTATGGCATGGTTCTA GGTTGACAAACTTTGTTGGAATTCTGAGCCAAGGACTGAGAATTGCCCCTCCTGAAGCCCCTGCGACTGGATATATGTTT GGCAAAGGGGTTTACTTTGCTGACCTGGTCAGCAAGAGTGCTCAGTATTGCTTCACGGATAAGAAAAACCCTGTTGGTCT AATGCTTCTGAGTGAAGTTGCCCTTGGAGATGTCTATGAACTCAAAAAAGCTAAGTATATGGACAAACCTCCAGTAGGAA AGCACTCTACTAAAGGACTGGGCAAGAAAATGCCTCAGGAATCAGAATATGTAAAGTGGAGGGATGATGTCGTCGTTCCT TGTGGCAAACCAGTGTCATCAAATGTCAAGGCATCTGAACTCATGTACAATGAGTATATTGTTTATAATACTGCTCAAGT CAAGATGCAATTCTTATTGAAGGTGAGGTTCCATCACAAAAGGTGA
Protein sequence (LotjaGi1g1v0711100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSSNPQNQKPWKAEYAKSGRSSCRTCKSPIDKEVFRLGKMVQSTQFDGLMPMWHHADCILKKSNQIKLVDDVENLESLRW EDQQKIRKYIESGGGGSGGTPTPKKANKNTECGIEVSQTSRATCKDCGQKIIKGEVRISTKPEGQGARGLAWHHAKCLME LSPSIQVDKLSGWNSLSSSDQSAVSDLAKGHPMNKGDGSDTKIEAEEFNESAHQSTSKGGTKRGKNADSERKSKVTKAKE DVSAGRAASMKNADGLGEACDLETKLEAQSKELWALKDDLKKNVTTAELREILEVNGQDSTGSELDLRDRCADGMMFGAL GHCPICSGYLRYSGGMFRCNGYISEWSKCSYSTSEPKRTEGKWKIPEETNNQYLKKWFKSQKGKKPVRILPLPSSMNSVE SQITNSQQHQSSSSESLMDLKVSIAGLPKESIEDWKRKIDGVGGVFHAKVKKDTSCLVVSGALNDEAEMRKARRMKIPIV REDYLVDCMERNKKLPFDMYKVEKIGEASSMVTVKVKGQSAVHEASGLQDSGHILEEGKSIYNTTLNMSDLSTGVNSYYI LQIIQEDKGSGCYVFRKWGRVGNDKIGGKKLDEMPKGDAIREFRRLFFEKTGNPWDAWEQKTIQKQPGRFFPLDIDYGVS KQVSKKIKNEDSKLPYPLIELMKMLFNVETYRAAMMEFEINMSEMPLGKLSKSNIQKGFEALTDIQNLLQTSNPDPSVRE SLLIDASNRFFTMIPSIHPHIIRDDDDFKSKVKMLEALQDIEIASRLVGFDANSDDSIDDNYKKLHCDMSPLPHDSEDFR LVEKFLHNTHAPTHTDWSLELEEVFSLEREGEFDKFAPYRDKLGNRMLLWHGSRLTNFVGILSQGLRIAPPEAPATGYMF GKGVYFADLVSKSAQYCFTDKKNPVGLMLLSEVALGDVYELKKAKYMDKPPVGKHSTKGLGKKMPQESEYVKWRDDVVVP CGKPVSSNVKASELMYNEYIVYNTAQVKMQFLLKVRFHHKR
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 |
---|---|---|---|---|---|---|
Gene3D | 2 | 108 | 107 | 3.9E-36 | ||
PIRSF | 4 | 1001 | 998 | 0.0 | ||
SUPERFAMILY | 8 | 107 | 100 | 9.5E-27 | – | |
ProSiteProfiles | 11 | 94 | 84 | 29.516 | ||
Pfam | 14 | 90 | 77 | 3.9E-18 | ||
SMART | 14 | 91 | 78 | 5.3E-36 | ||
ProSitePatterns | 23 | 58 | 36 | - | ||
PANTHER | 58 | 1000 | 943 | 0.0 | – | |
PANTHER | 58 | 1000 | 943 | 0.0 | – | |
MobiDBLite | 90 | 111 | 22 | - | – | |
Gene3D | 109 | 200 | 92 | 4.1E-18 | ||
SUPERFAMILY | 111 | 196 | 86 | 4.66E-18 | – | |
ProSiteProfiles | 112 | 186 | 75 | 14.781 | ||
SMART | 115 | 189 | 75 | 6.5E-20 | ||
Pfam | 115 | 186 | 72 | 2.3E-14 | ||
MobiDBLite | 175 | 246 | 72 | - | – | |
MobiDBLite | 193 | 211 | 19 | - | – | |
MobiDBLite | 223 | 241 | 19 | - | – | |
Gene3D | 246 | 318 | 73 | 1.7E-20 | – | |
SMART | 307 | 360 | 54 | 1.6E-29 | ||
Pfam | 309 | 359 | 51 | 5.3E-21 | ||
Gene3D | 319 | 379 | 61 | 3.0E-16 | ||
Gene3D | 395 | 504 | 110 | 6.9E-14 | ||
ProSiteProfiles | 412 | 502 | 91 | 13.952 | ||
SUPERFAMILY | 413 | 502 | 90 | 3.79E-15 | ||
SMART | 415 | 492 | 78 | 6.4E-10 | ||
CDD | 417 | 488 | 72 | 5.42863E-14 | – | |
Pfam | 419 | 489 | 71 | 2.6E-6 | ||
Gene3D | 507 | 653 | 147 | 9.5E-42 | ||
SUPERFAMILY | 510 | 635 | 126 | 1.44E-32 | ||
CDD | 532 | 637 | 106 | 4.73539E-44 | – | |
Pfam | 542 | 620 | 79 | 6.8E-17 | ||
SMART | 542 | 625 | 84 | 1.1E-26 | ||
ProSiteProfiles | 651 | 769 | 119 | 35.472 | ||
CDD | 652 | 996 | 345 | 2.43471E-177 | – | |
Pfam | 652 | 782 | 131 | 9.3E-35 | ||
SUPERFAMILY | 652 | 786 | 135 | 5.49E-34 | ||
Gene3D | 655 | 995 | 341 | 1.8E-134 | – | |
Gene3D | 667 | 773 | 107 | 1.8E-134 | ||
ProSiteProfiles | 776 | 1001 | 226 | 104.31 | ||
SUPERFAMILY | 785 | 1000 | 216 | 6.62E-70 | – | |
Pfam | 796 | 996 | 201 | 4.4E-73 |
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 LotjaGi1g1v0711100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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