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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0711100 |
Transcript ID | LotjaGi1g1v0711100.2 |
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..127951891) extracted from Lotus japonicus Gifu genome v1.2.
TCGTCGAACCCTCAAAATCAAAAGCCATGGAAAGCAGAGTACGCCAAGTCAGGCCGATCGTCATGCCGGACCTGCAAGTC CCCCATTGACAAGGAGGTCTTCCGTCTCGGCAAGATGGTTCAATCCACCCAATTCGATGGCCTCATGCCTGTAATCTCTC CATTCCTTTCCATTTTTCCTTGTTAATGCTCTCTGTCAACTAGCTTAGTCATTCTTCTTGTTCCCTCAAACCCCATTTGG CATTTGGAACATTTCATGATTTGCATTTCATTTTTAGATGAAAGGATGCATAATAGGGTTTGATTTTTTGAGCATTCTGT ATAAAAGGTAGAAACTTTAGTGAAAATCACAATGTAATTTGTCAGATAGTGAAAGCTGTGTAGTGATTTCATTGTAGTTT TATGAGTTCTTGTGAAAAGGTAGAAACTTTAGTTAAAATTACAATGTAATTTGTCAGATAGTTAAAGGGGTTGATTTTTT GAGCATTCTGTAAAAAAGTAGAAACTTCAGTGAAAATTACAATGGAAGTTGTCAGATAGTTAATGGGTTTGATTTTTTGA ACATTCTGTAAAAAGGTAGAAACTTTAGTTAAAATGACAATGTAATTTGCCAGATAGTGTAAGTTGGGTAGTGATTTCAT TGTACTTTTATGAGTTTTTGTTTTTGTTAAGTAAAATTACTCTCTGCATGTTTGTTATGCTTTAATGTGTACTATTTTCC TTTTTCTACCAGATGTGGCATCATGCTGATTGCATATTGAAGAAATCCAACCAGATAAAATTGTAAGAAATTTTTTATCC TTATTACATGGAAAATTTTTGTGATATTTTACATCGGTAAGGATTTATGACTTGTCACGCACTACTTTTCTTTTAGAGTT GATGATGTTGAAAACTTAGAGTCGCTTCGTTGGGAAGACCAGCAAAAGATCAGAAAGTACATCGAGAGTGGCGGTGGCGG TAGTGGTGGCACGCCAACGCCAAAAAAGGCTAACAAAAATACTGAGTGTGGTATTGAAGTTTCACAAACTTCTCGTGCTA CTTGCAAGGATTGTGGTCAAAAAATCATCAAGGGAGAGGTTTGCTCCTAACTTCTCTTAAAATGTCATAAACTCATAATA TTGCAAAGGCAGTTCTTAGAGTTTGGATGTTTATGGGACCTAATGGATTTTGTGGCGTGAAAATGAGTTCACAAGCAAAA GCATAAATTTGATGATTTGCACTTACAATGAATTAACTCATGAAAGGTATATTTTTGTATTTAGTACTACCCTATTGACG TTGCAGATTTAATGGATGAAACTATTGGGATTCATAGTTTATTTTTTTAATCCTAACATCTAGCACTTCATGTTAATTTC CAAAAGTATCGCCTTGGCATCTAAAACATTTGCTTCCAATATCATGTGGTGTTGCTATCCATTGTGTCAGTTATTTGAAC AAGCCCTGGCCCATGGTAACAAAATTGTTGTGCTATCTCCTTGCATTCTCCATCTTGAGATTCAGAATGGCTAAAAGCAT CTCCAGCCAGCTTATCCCATCTTTCAAGTGAAAGAAAACTTAATAGAAGTTTGAATTCATGAATTTATGGAATTTTTTTG AATCTAGAAATTTCAGTAGTATGTGGAATAATATAAGGTTACATCGAGCTATGTTTTGTGGGTGGTGTCTGGAGTTACTT TAATCTAATTCTCCATAGCTTTTCGACTCAGAAATTAATCATGTTCCTCAGCTCTTTTGGGTTGACCATGAGGCCACATC TCTTAACTTCTTATCCATTCCTTTTTTTCAATTGTATGATGGCTAGAGAAATAAAAGCCTTCTGGCCTCATGGACACATT TTGTCTGTATTAGTTAGGTAGGAGAAGTTGTGGGGGGAGGTGCTAATATGGGATCTAAGCCTCTCCTGAATTCTGGTTAC CGTGTTTGCGCTGAACTTGGAATCTTGCATTCAACCAACTTTTTGTCCTCTCATTTAACTATGATGTCCTTAAAAGGTTA AAATTTTCAAAACAATTCTTATAATGTTCAAATTAACCACTAATTTCATGATTTCATTTTGGATTAGATGAAAGCTTCTC AAATGGTATTAACAACAGTTTTCTTCATGCTTGTTAGACTCCATGTCTGCATTGTTGAGATTTTGAAACTCAATGTTTCC TAACCATTCGGCATGTGTTATTGGTTTTGGAATAGCTCTCCACACTGTGATTTTATTTTATGTTTAGGTTCGAATATCCA CTAAGCCTGAAGGTCAAGGTGCTAGGGGTTTGGCTTGGCACCATGCCAAGTGTCTCATGGAATTATCACCATCGATTCAA GTGGATAAGTTGTCTGGATGGAATAGTCTCTCATCTTCTGATCAATCAGCCGTCAGTGACTTGGCTAAGGGTCATCCTAT GAATAAGGGAGGTATGGTGATTGAGTTGTTTAATAAAGGCTGGTTCTGGTTTTTAATGCTGCAGTGATTTCATCTCCTTG TTTTTGTAGTTACTATGTCACTGTTTTCCTCGCAGATGGTAGTGATACAAAGATCGAGGCTGAAGAGTTTAATGAATCCG CACACCAATCCACTTCCAAAGGTGGCACCAAACGGGGGAAGAATGCCGATAGTGAGCGGAAGTCAAAAGTTACTAAGGCC AAAGAGGATGTGTCTGCAGGCAGGGCAGCATCAATGAAAAATGCTGATGGCTTAGGGGAAGCATGTGATCTGGAGACTAA ACTGGAGGCCCAGAGCAAAGAACTCTGGGCTCTGAAGGATGATCTTAAGAAGAATGTGACAACAGCAGAGTTGCGTGAAA TACTGGAAGTCAATGGTCAAGATTCAACAGGATCAGAACTTGATTTGCGTGATCGCTGGTAATTTAATCTCATGCACTTT CTTTGCTGATCTTTAAGAATATTTTGCCTCATTCCAGTCTGTTCTTTATTAAGCGTAAAGTTTTCCATTCGTAATGTTAT TGCCCCTTTCTTTTAAGTTTCTAAGGATTTTAATGATAATAGTTTATGTTTATTTGTCTGCTGGGAGTCCGCTATTATGC ATGATCACTTGTATTTTTACAAGTTTTAATAGATAATCATAAATTATTCATCAAAAGAAAAATTTAAAGGCAAGCAGGTC AAGCGCTTTATTGTCTGGATGAAAACAAACTTTCCAGATTTATTCTGCTTACTTTGTGATGCATTTTGAAAATATTATCC TGCACGTTATGATGTATTTCCTCAACTTTGATCATTATTATTGTGATTTTAGTGCTGATGGAATGATGTTTGGAGCACTT GGTCATTGCCCAATATGTTCTGGTTATCTGCGTTATTCTGGAGGAATGTTCCGGTGCAATGGATACATTTCTGAGTGGAG TAAATGTTCCTACTCTACCAGCGAACCAAAACGTACTGAAGGGAAGTGGAAAATCCCGGAGGAAACAAATAATCAATACC TAAAAAAGGTCTGTAAAGAGGAAAAAAGTCATTCAACAAAACCAACTTATTAAGGCTTAATTTTGTTCTTTGTGTTTACA GTGGTTCAAATCTCAAAAGGGGAAGAAACCAGTTAGGATATTGCCTCTGCCATCATCAATGAACTCTGTTGAAAGTCAAA TTACTAATTCCCAGCAGCATCAATCATCAAGCAGTGAGAGTTTGATGGATTTGAAAGTTTCTATTGCTGGATTACCTAAA GAATCTATTGTATAACTTCCTTTCTTTTTTTCCTTTCACATCCATTATTGAAGCCCCCTTCCCCCAAAATCATTTTGAGA AACTGCCAGATTCAATTTAGTTGCATTGTAGTATTAAGTATTCATCTTCTACGAATTGATTTCACAGGAGGATTGGAAAC GCAAAATTGATGGCGTTGGTGGGGTTTTTCATGCAAAAGTGAAGAAAGGTATCTGCTGCTGCGACCAATTTCTGAAAATT GAATATTCCAAAAAAACTGTAGAAATATTTTTGTCTGTTCATGTGTATGTATGACTTTTATAGTCTTTTCTTGACCTGTG TACTTGCAGATACTAGCTGCTTGGTGGTCAGTGGAGCACTTAATGATGAAGCTGAGATGCGGAAGGCAAGGTATGGGCGC ACTCAAGTTTTCAGTCTCTAATATTTTTTTCTTTTCGTTGTTTGATTGTAGTATCACTGATTTGGGAGAATTTCATCAAT AGGAGGATGAAAATACCAATAGTAAGAGAGGACTATTTGGTTGACTGTATGGAAAGAAATAAGAAGCTTCCATTTGATAT GTACAAAGTTGAAAAGATTGGTGAGGCTTCTAGCATGGTCACTGTCAAAGTGAAGGGGCAGAGTGCTGTTCACGAAGCTT CTGGCCTACAGGATTCCGGCCACATACTCGAGGAAGGGAAAAGCATATATAATACAACTTTGAACATGTCTGATTTGTCT ACTGGTGTTAACAGGTGGGTTCATTATATTTAGTTTTTTTTTTGTTTATCCTTCAGCATAAATTTTGTTTAGATGTTAGC AGTTTGGTTTCTTTGTCAATGATGATTTAAATTGCATTGAACCTAGAAGTATGCTACTAGATTTTTGTATGCCATGCAAT GTTTCTTAAAAACATCAAGCTGTCAAATGTTAAGAGCTTATATTTCCTTATCAGTAATGATTTTGTCTCCACCACAACAA AAAATGAATATTATATATGTTAAAGAGTAGAGTATTTGTTCTTTAAACGTGGAAACTGGAAAATAAGTTTATCAGGGTTT TAGATCCGTATCAGTAATGATTTTTTCCATACCCAAAAAAAAACTGCTTATTATAGATGTTCAAAAGTAAAGTACTTGTT CTTTTTAAAGTGGAAAATAATTTTCTGGTTGATTGTATATACTGTAAGCCTTTGATTTTTATTTGGACTTTTTACGTGAT GGTTTCTTAAATATTATGATGATGGAATGACTGCAGTAATTATGCCGTAACTGCAGCTAGTTACTGTGATGATGCTTAAT GGAAGCTGTTGAGTTTCACAGACCACTTGAATTATCATGCATCACTTTCTTTTTCAAGATTCTTGTTATGCTGTTATTTC CTCTCCTTCATTATCATCCTCTAACTTCATTTCCCATGTAAAGCTACTACATTCTCCAAATAATCCAAGAAGATAAGGGG TCAGGTTGCTATGTGTTTCGTAAATGGGGTCGTGTGGGAAATGACAAGATTGGAGGAAAGAAACTGGACGAAATGCCAAA AGGTGATGCAATCCGTGAATTCAGACGATTATTCTTTGAGAAAACTGGAAATCCTTGGGACGCTTGGGAACAAAAGACTA TTCAGAAGCAACCTGGAAGATTTTTCCCATTGGATATTGTACCGTTTTTAATCTTATTCTTATTTAAAAATTATTTGTTT GATGTAAATTATCTTGACTCATTAGGTGGATGATTCAACTCATGATTGTTTTGAACACTTTGTAGGATTATGGAGTTAGC AAGCAGGTGTCCAAAAAAATTAAAAATGAAGATAGTAAACTACCCTATCCATTAATAGAATTGATGAAGATGCTCTTCAA TGTGGAAACATACAGGTATAATCAAGGCCCAAGGAACTCTCCATTTTATTAGAATATATCTAATGCAGGACTGAATCTTG AATTTGTAGAGCTGCCATGATGGAATTTGAGATTAATATGTCCGAAATGCCACTTGGGAAACTGAGCAAAAGTAATATCC AAAAGGGTATGTTGGCACATTACTTTTAAACTTGTGCTGAGCTATGTTAGTTTGCAGCATAGGCAATCCATAGTATATAT TGAAGTTGTAAATTTTACCTTTCATTGGTCTGCTCTCTCTTCCCAGGGTTTGAAGCATTAACGGATATACAAAATTTGTT ACAAACTAGCAATCCTGATCCATCAGTCAGGGAAAGCTTGCTTATTGATGCCAGCAATCGGTTCTTCACTATGATCCCTT CTATTCATCCACATATAATTAGGGATGATGATGATTTTAAGTCAAAGGTGTGTATACTATTTTTATTCATTTTTTAGGTT TGTTTTGGTAATGAAACATGAAACTAGATTGGTGATTTTTTTTTTGCACTAGTTTTCAACTTTCAGCTATGACCCAATGA AGTGAATATTGTTGGCAGTTGTATTGTAAAACTTGGATATTAAGATAATTTTATATTTGAACACAGTAACGAAGAATTTG TACTGGACTGCCATGTGGTTTTTTTTTTGAGTTTGTTTTCTTGCAATTTGGCAGTGGGTTTAATCTCTTATGCTCTATTT AGATGTGGAGAGAAAAGGAAAATATATAACATGAGCATACAGAAAATGAAAAAGACAAGTGAAAATTCGTGTTTTCTTTT CACTTGAGAACTTTAATATGGGTCGCACATCAATTATTTTCTCTCCATAAATAAACAAGAGAAAATAGTTTATTCCTCTT ATTTCCTCTCCACACAACTTCCTGTCATTTTCTACCCTACCATAAGTAGGGTTAAAGGTTAGGATCATCATGACAGTAAA GAAAGAGGTGAAACTTTTTGGTGTTTTCATTGTTCAAAGAATGTGAGTAATTAATGATATGTAAATTATGATTTCTATCA GGACTGTAGTGTTGCCCCATGGATTGGCGCATATGATTACCCTTCGTTATGATTCGAATAATGTGGCCGTACTGTTTTGG TAGGTGAAAATGTTAGAAGCCCTTCAAGACATTGAAATAGCCTCAAGATTAGTTGGATTTGATGCCAACAGTGATGACTC CATTGATGATAATTACAAGAAGCTCCACTGTGATATGTCTCCACTTCCTCATGACAGCGAAGATTTCCGTTTAGTTGAGA AGTTTCTCCATAACACCCATGCCCCCACTCATACGGTATATTTATATTTGTTAATTTGTTCATGGGTGTGTTTTTGTATA TTTATGTTGCTGGTGTGAGCTCTTTTGTTTCTCAAATGTACAAGTTCCCACAATCTTTGTAATCCATCTACACAGGATTG GAGTCTTGAGCTAGAAGAAGTTTTTTCACTTGAAAGGGAAGGAGAGTTTGATAAGTTTGCTCCTTACAGGGACAAACTTG GTAACAGAATGCTCCTATGGCATGGTAAGTTGTGATACTACTAGTTCACTTGTAGTTTTCTGTTACGAAATATTCTGCTA AGTGCCATGATGTAAGAAAATCGAAGTATCGGAACATGTATGGATTTGTAAAGAAGATAAGAAAACCTAATAAACCTCCG AGTCTCTAAATATCCTCATGGAATTCTTCTCAGATATCTGATTACCCCATAGGGGTTGCCAAGATAATGCTAGACCAGAG GAGTTCTAAAGGCCAGAACTTTTAGCTTAAAATTAATTTTTTTCTCTGACAAAAAAATTCAGTTTCTGTGGTGAATTACA ATCACATGGATCATTATTTGTAGTAGATGAATGTTACAGCTGTAAATGAAAATATGTACAAATGCGAGTTAGACACCTAT GACAAAAATTTTTCTCCATTATAGGTTCTAGGTTGACAAACTTTGTTGGAATTCTGAGCCAAGGACTGAGAATTGCCCCT CCTGAAGCCCCTGCGACTGGATATATGGTTCTATCTATTAATCTATTTTCATACTTTTCTTTTAATATTTATATTTTCAT ACACAGCTTACCTACCCAAATCAGTACTTAAATCTGAATATATTGCATTGCAGTTTGGCAAAGGGGTTTACTTTGCTGAC CTGGTCAGCAAGAGTGCTCAGTATTGCTTCACGGATAAGAAAAACCCTGTTGGTCTAATGCTTCTGAGTGAAGTTGCCCT TGGAGATGTCTATGAACTCAAAAAAGCTAAGGTGAATCTGGTTTGATAAGTTATGCTTATTGGTTTATATGGTCATGGTT TGATAGTTTGCTAGTAAGTCTGCTTTCAAAATGACCAACAATGTTGCGTTCAACCATAAATTTCTTCTAAATGGATTCGC AATAATTTTTATTTTCATTTTGATTCTTTATTTTATGCCAAATAGTATATGGACAAACCTCCAGTAGGAAAGCACTCTAC TAAAGGACTGGGCAAGAAAATGCCTCAGGAATCAGAATATGTAAAGTGGAGGGATGATGTCGTCGTTCCTTGTGGCAAAC CAGTGTCATCAAATGTCAAGGCATCTGAACTCATGTACAATGAGTATATTGTTTATAATACTGCTCAAGTAAGTTTCAAG CTTGATGATTATATTTTTACCTTACCATACCTGTAAAGCAAGCTAGCACATTTGTTGTTTAGATTGTAATAAAATGAAGA GTGGGGAATTTCTACTGCCAGGGTCACTATCGGTTTGCTATTTGGTATATTTATGCTGATTCATTGGTTATTTGTTTATT TAAAGTTTCTTGTAGATTAATTACTGAGATGAATGGCAAACTATGGTTTGATTACATATACAATTTTCATTATCAGAAAC GCCACAGATAA
CDS sequence (LotjaGi1g1v0711100.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTTCAATCCACCCAATTCGATGGCCTCATGCCTATGTGGCATCATGCTGATTGCATATTGAAGAAATCCAACCAGAT AAAATTAGTTGATGATGTTGAAAACTTAGAGTCGCTTCGTTGGGAAGACCAGCAAAAGATCAGAAAGTACATCGAGAGTG GCGGTGGCGGTAGTGGTGGCACGCCAACGCCAAAAAAGGCTAACAAAAATACTGAGTGTGGTATTGAAGTTTCACAAACT TCTCGTGCTACTTGCAAGGATTGTGGTCAAAAAATCATCAAGGGAGAGGTTCGAATATCCACTAAGCCTGAAGGTCAAGG TGCTAGGGGTTTGGCTTGGCACCATGCCAAGTGTCTCATGGAATTATCACCATCGATTCAAGTGGATAAGTTGTCTGGAT GGAATAGTCTCTCATCTTCTGATCAATCAGCCGTCAGTGACTTGGCTAAGGGTCATGGTAGTGATACAAAGATCGAGGCT GAAGAGTTTAATGAATCCGCACACCAATCCACTTCCAAAGGTGGCACCAAACGGGGGAAGAATGCCGATAGTGAGCGGAA GTCAAAAGTTACTAAGGCCAAAGAGGATGTGTCTGCAGGCAGGGCAGCATCAATGAAAAATGCTGATGGCTTAGGGGAAG CATGTGATCTGGAGACTAAACTGGAGGCCCAGAGCAAAGAACTCTGGGCTCTGAAGGATGATCTTAAGAAGAATGTGACA ACAGCAGAGTTGCGTGAAATACTGGAAGTCAATGGTCAAGATTCAACAGGATCAGAACTTGATTTGCGTGATCGCTGTGC TGATGGAATGATGTTTGGAGCACTTGGTCATTGCCCAATATGTTCTGGTTATCTGCGTTATTCTGGAGGAATGTTCCGGT GCAATGGATACATTTCTGAGTGGAGTAAATGTTCCTACTCTACCAGCGAACCAAAACGTACTGAAGGGAAGTGGAAAATC CCGGAGGAAACAAATAATCAATACCTAAAAAAGTGGTTCAAATCTCAAAAGGGGAAGAAACCAGTTAGGATATTGCCTCT GCCATCATCAATGAACTCTGTTGAAAGTCAAATTACTAATTCCCAGCAGCATCAATCATCAAGCAGTGAGAGTTTGATGG ATTTGAAAGTTTCTATTGCTGGATTACCTAAAGAATCTATTGAGGATTGGAAACGCAAAATTGATGGCGTTGGTGGGGTT TTTCATGCAAAAGTGAAGAAAGATACTAGCTGCTTGGTGGTCAGTGGAGCACTTAATGATGAAGCTGAGATGCGGAAGGC AAGGAGGATGAAAATACCAATAGTAAGAGAGGACTATTTGGTTGACTGTATGGAAAGAAATAAGAAGCTTCCATTTGATA TGTACAAAGTTGAAAAGATTGGTGAGGCTTCTAGCATGGTCACTGTCAAAGTGAAGGGGCAGAGTGCTGTTCACGAAGCT TCTGGCCTACAGGATTCCGGCCACATACTCGAGGAAGGGAAAAGCATATATAATACAACTTTGAACATGTCTGATTTGTC TACTGGTGTTAACAGCTACTACATTCTCCAAATAATCCAAGAAGATAAGGGGTCAGGTTGCTATGTGTTTCGTAAATGGG GTCGTGTGGGAAATGACAAGATTGGAGGAAAGAAACTGGACGAAATGCCAAAAGGTGATGCAATCCGTGAATTCAGACGA TTATTCTTTGAGAAAACTGGAAATCCTTGGGACGCTTGGGAACAAAAGACTATTCAGAAGCAACCTGGAAGATTTTTCCC ATTGGATATTGATTATGGAGTTAGCAAGCAGGTGTCCAAAAAAATTAAAAATGAAGATAGTAAACTACCCTATCCATTAA TAGAATTGATGAAGATGCTCTTCAATGTGGAAACATACAGAGCTGCCATGATGGAATTTGAGATTAATATGTCCGAAATG CCACTTGGGAAACTGAGCAAAAGTAATATCCAAAAGGGGTTTGAAGCATTAACGGATATACAAAATTTGTTACAAACTAG CAATCCTGATCCATCAGTCAGGGAAAGCTTGCTTATTGATGCCAGCAATCGGTTCTTCACTATGATCCCTTCTATTCATC CACATATAATTAGGGATGATGATGATTTTAAGTCAAAGGTGAAAATGTTAGAAGCCCTTCAAGACATTGAAATAGCCTCA AGATTAGTTGGATTTGATGCCAACAGTGATGACTCCATTGATGATAATTACAAGAAGCTCCACTGTGATATGTCTCCACT TCCTCATGACAGCGAAGATTTCCGTTTAGTTGAGAAGTTTCTCCATAACACCCATGCCCCCACTCATACGGATTGGAGTC TTGAGCTAGAAGAAGTTTTTTCACTTGAAAGGGAAGGAGAGTTTGATAAGTTTGCTCCTTACAGGGACAAACTTGGTAAC AGAATGCTCCTATGGCATGGTTCTAGGTTGACAAACTTTGTTGGAATTCTGAGCCAAGGACTGAGAATTGCCCCTCCTGA AGCCCCTGCGACTGGATATATGTTTGGCAAAGGGGTTTACTTTGCTGACCTGGTCAGCAAGAGTGCTCAGTATTGCTTCA CGGATAAGAAAAACCCTGTTGGTCTAATGCTTCTGAGTGAAGTTGCCCTTGGAGATGTCTATGAACTCAAAAAAGCTAAG TATATGGACAAACCTCCAGTAGGAAAGCACTCTACTAAAGGACTGGGCAAGAAAATGCCTCAGGAATCAGAATATGTAAA GTGGAGGGATGATGTCGTCGTTCCTTGTGGCAAACCAGTGTCATCAAATGTCAAGGCATCTGAACTCATGTACAATGAGT ATATTGTTTATAATACTGCTCAAGGTCACTATCGGTTTGCTATTTGGTATATTTATAAACGCCACAGATAA
Protein sequence (LotjaGi1g1v0711100.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVQSTQFDGLMPMWHHADCILKKSNQIKLVDDVENLESLRWEDQQKIRKYIESGGGGSGGTPTPKKANKNTECGIEVSQT SRATCKDCGQKIIKGEVRISTKPEGQGARGLAWHHAKCLMELSPSIQVDKLSGWNSLSSSDQSAVSDLAKGHGSDTKIEA EEFNESAHQSTSKGGTKRGKNADSERKSKVTKAKEDVSAGRAASMKNADGLGEACDLETKLEAQSKELWALKDDLKKNVT TAELREILEVNGQDSTGSELDLRDRCADGMMFGALGHCPICSGYLRYSGGMFRCNGYISEWSKCSYSTSEPKRTEGKWKI PEETNNQYLKKWFKSQKGKKPVRILPLPSSMNSVESQITNSQQHQSSSSESLMDLKVSIAGLPKESIEDWKRKIDGVGGV FHAKVKKDTSCLVVSGALNDEAEMRKARRMKIPIVREDYLVDCMERNKKLPFDMYKVEKIGEASSMVTVKVKGQSAVHEA SGLQDSGHILEEGKSIYNTTLNMSDLSTGVNSYYILQIIQEDKGSGCYVFRKWGRVGNDKIGGKKLDEMPKGDAIREFRR LFFEKTGNPWDAWEQKTIQKQPGRFFPLDIDYGVSKQVSKKIKNEDSKLPYPLIELMKMLFNVETYRAAMMEFEINMSEM PLGKLSKSNIQKGFEALTDIQNLLQTSNPDPSVRESLLIDASNRFFTMIPSIHPHIIRDDDDFKSKVKMLEALQDIEIAS RLVGFDANSDDSIDDNYKKLHCDMSPLPHDSEDFRLVEKFLHNTHAPTHTDWSLELEEVFSLEREGEFDKFAPYRDKLGN RMLLWHGSRLTNFVGILSQGLRIAPPEAPATGYMFGKGVYFADLVSKSAQYCFTDKKNPVGLMLLSEVALGDVYELKKAK YMDKPPVGKHSTKGLGKKMPQESEYVKWRDDVVVPCGKPVSSNVKASELMYNEYIVYNTAQGHYRFAIWYIYKRHR
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 | 1 | 55 | 55 | 15.715 | ||
PIRSF | 1 | 955 | 955 | 0.0 | ||
SMART | 1 | 52 | 52 | 6.5E-5 | ||
Gene3D | 1 | 68 | 68 | 7.8E-17 | ||
SUPERFAMILY | 2 | 69 | 68 | 7.84E-10 | – | |
Pfam | 10 | 51 | 42 | 7.9E-5 | ||
PANTHER | 11 | 941 | 931 | 0.0 | – | |
PANTHER | 11 | 941 | 931 | 0.0 | – | |
MobiDBLite | 51 | 70 | 20 | - | – | |
Gene3D | 69 | 173 | 105 | 4.2E-20 | ||
SUPERFAMILY | 72 | 163 | 92 | 8.41E-18 | – | |
ProSiteProfiles | 73 | 153 | 81 | 14.901 | ||
Pfam | 76 | 147 | 72 | 2.2E-14 | ||
SMART | 76 | 150 | 75 | 6.5E-20 | ||
MobiDBLite | 136 | 155 | 20 | - | – | |
MobiDBLite | 160 | 201 | 42 | - | – | |
MobiDBLite | 178 | 196 | 19 | - | – | |
Gene3D | 201 | 273 | 73 | 1.6E-20 | – | |
SMART | 262 | 315 | 54 | 1.6E-29 | ||
Pfam | 264 | 314 | 51 | 5.0E-21 | ||
Gene3D | 274 | 334 | 61 | 2.9E-16 | ||
Gene3D | 350 | 459 | 110 | 6.4E-14 | ||
ProSiteProfiles | 367 | 457 | 91 | 13.952 | ||
SUPERFAMILY | 368 | 457 | 90 | 3.53E-15 | ||
SMART | 370 | 447 | 78 | 6.4E-10 | ||
CDD | 372 | 445 | 74 | 3.82677E-14 | – | |
Pfam | 374 | 444 | 71 | 2.5E-6 | ||
Gene3D | 462 | 608 | 147 | 8.9E-42 | ||
SUPERFAMILY | 465 | 590 | 126 | 1.31E-32 | ||
CDD | 487 | 592 | 106 | 5.58915E-44 | – | |
SMART | 497 | 580 | 84 | 1.1E-26 | ||
Pfam | 497 | 575 | 79 | 6.4E-17 | ||
ProSiteProfiles | 606 | 724 | 119 | 35.472 | ||
Pfam | 607 | 737 | 131 | 8.7E-35 | ||
SUPERFAMILY | 607 | 741 | 135 | 5.23E-34 | ||
CDD | 607 | 946 | 340 | 3.41602E-172 | – | |
Gene3D | 610 | 947 | 338 | 7.4E-131 | – | |
Gene3D | 622 | 728 | 107 | 7.4E-131 | ||
ProSiteProfiles | 731 | 956 | 226 | 97.8 | ||
SUPERFAMILY | 740 | 952 | 213 | 2.73E-67 | – | |
Pfam | 751 | 948 | 198 | 8.2E-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 LotjaGi1g1v0711100.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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