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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0061200 |
Transcript ID | LotjaGi1g1v0061200.6 |
Related isoforms 6 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Ubiquitin carboxyl-terminal hydrolase-like protein; TAIR: AT3G11910.1 ubiquitin-specific protease 13; Swiss-Prot: sp|Q84WU2|UBP13_ARATH Ubiquitin carboxyl-terminal hydrolase 13; TrEMBL-Plants: tr|B0BLB2|B0BLB2_LOTJA CM0545.290.nc protein; Found in the gene: LotjaGi1g1v0061200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:8564697..8578405) extracted from Lotus japonicus Gifu genome v1.2.
TATAGGAGTTCTAGGTTTTCGTTTTTTTTTTCTCGGGGAGGGAGTAATTACTTGTCAGTTTGCAATGTTTGAATCTATTG GTTGCTTTATTCTCTCTCTCGTCTTTCACGGGTAGCAATTAGAGAGTTTCGTTTAATTATTGTCACTATATGCCCCACCC CTTCCCCTGTAAGTTCTCAGCTAATTTAAGGCATGATACTTAAGTTGTTTTCTTTTCATTTATGTGGATGGACATTAGTT GTTGCTCAACCTGAAGCTGCCCCCACTGTGGAGAGTCAGCCTGTCGAGGAGCCTCCACAATCAAGGTTCACGTGGAGAAT TGACAACTTCTCCAGGATGAATGTGAAAAAGCTCTATTCAGAAGTATTTGTTGTTGGTGGTTATAAATGGTAATGTGCTT ACACATTCCTTGAAAGAATTCATGTTGTTGATTTTGCTAGTTCATTAGATATGATTTACGATAGGGCATTATGATGCTGT TTGACCCACATGTCGTCGACTCTATCTTGTGGGAGAACAATTTTGTTGTTGTTGTCTTATTAGTTCGTTACTGTATATTT ATCTTCAGTGATCTCTCCTGATTAATTTTTTTTTAACTGAGCAGGCGTGTACTTATTTTCCCAAAAGGGAACAATGTGGA CTATCTGTCCATGTATTTGGATGTCGCAGATTCAACTAATTTGCCCTATGGTTGGAGTAGATATGCACAGTTTAGCTTGG CAGTAGTTAATCAAATACAGAATAAATACACCGTGAGAAAAGGTAATTTCTTCAGTTTGTTCCCTACTCCTGTTACAAGA TGAAGTACCATGCATGTATGTAGAAAAGGGAATTGCTGGACTTAAAAGTGACAAATGTTGTAAGATACTAAGATGTTATT TGCATTCTGGAGGAAAATTTTACAATTGAGATCTATTTGTTGCAATACTATTTTTTCACCGAGAAGCCTGAATGATTGTG GTAGATTGATTTTATAAAATCCCCATAATAACACCTCTTTGTATATCATTCTCATCTCCTATGCCATTTCTTATTAGCCA TTTATTCTTGTACCTTGTGGGGAAAGGCTTCTGTTTATCAAAAAAAATTTAAAACCTAACAAAACTGGTTTCTTTTCATA TGCCTTCTGCCTCCTCAATCATTGAAATTTTAGTTCATTAAACCTTTTTACTAAAATTAAAATTACCACTTGTACATGTG TTCTTTCCCTAATAACTTTGGATCTAAATCTTGATATAGTTATATTACTTGTCTTCAATGAACTTGTTAGTGGCAACATG TTAATAAAACACAGATTCTGCTAACTTAACGAGCACCCTTTAAGAAATACAAATTGGAAAGTATTTACCGAAAGTGTTAC ATTTAATGAATACATATAAATTTTTGTTTTTCGTTCAAACCTTTTCATTTTCATTTTTGGCTATGAAACCTTTTCATTTT TGAATTGGAAATAGAGAATAGAATGTTGAAGTGGTAATAGTTTTTGGGCATAGCCATGTGTCTTTTCTGTAACTTTGTTT TACTCTATGTAGACACACAGCATCAATTCAATGCACGAGAAAGTGATTGGGGTTTCACGTCCTTCATGCCGCTTGGTGAA TTGTATGATCCCAGTAGAGGGTATCTTCTGAATGATACTCTTGTAGTTGAAGCCGAGGTTCTTGTTCGTAGGATTGTTGA TTACTGGACTTATGATTCAAAAAAGGAGACTGGCTATGTTGGGCTGAAGAACCAGGGAGCTACATGTTATATGAATTCTC TACTCCAAACTCTGTACCATATACCTTATTTTCGAAAGGTCTGGTTCTATTTCTCGTATATATATTTTTCTTTGGCTGAA GTTCTCTTGTTTGACTGGAAAGTAATGAGGAATCTGAGTCCTGGATGTTATATTTCAGGCTGTATACCATATGCCAACAA CGGAGAATGATATGCCCGCTGGAAGCATTCCTCTGGCTCTGCAAAGTTTATTCTACAAGCTCCAATATAGTGACACCAGT GTTGCAACAAAGGAGCTGACAAAATCTTTTGGATGGGATACATATGATTCTTTCATGCAACATGATGTTCAAGAACTGAA TAGAGTTCTATGTGAAAAACTTGAAGACAAAATGAAGGTAACAGAAAGACCTCTAGATGTTTATAGTTTGTGCACAATTC TATATTGGTGAAATACTAGCTCAAATGCATTATGGATTATGTTCACTTTGTCTGTAGGGAACTGTTGTTGAGGGAACTAT ACAGAAATTATTTGAAGGGCACCATATGAACTATATTGAGTGCATCAATGTGGACTATAAATCAACTAGAAAGGAGTCCT TTTATGGTACTTTATGATGACGCTAAAGTTAATTTATGTTTAGTTGTACCTTGCCACTTGATTTTAATATAGTTTTACTG ATGGATGGCAGACCTTCAACTTGATGTGAAAGGCTGTCATGATGTTTATGCTTCCTTTGACAAGTATGTTGAAGTTGAAC CTCTTGAGGGGGACAACAAGTATCATGCTGAACAATATGGTTTGCAGGTTGGTTTCAATTGTCAAATTTTTAATCTACTT TGTAATAAAATCATCTTTGAGAAGCTAACCCTTTTGTTTTGTGTGTGGACTTGTATTGCTCATTGTTACTATTGTTTGTG AACCTTGCCATCGTGAATGTATGAAAAATTGCACACATGTCACGGTAACTTAATGTTTGCTTATTGGATAATGGTGCGCC TATGAAAATATGGTATAACTGGTTCAGAAGTCACAAGATAATATTGGTTTTTATTGAAGATAGAAGGAGTTATGAAGCGC ACAAAGTTTTCCAGAACAATGCTAGAGGTCCTGGACTCATTCCCGGACTAACTGATCATAGGGTCAAACAATATCCTTGT CTTTGTGGGATGCGTTGATTTGCATGTAGGAAAAAATCTTACGTATGAAGACATGAGTATACCGAAGTTGTTGGATACTT AGATGTTAATTGGGCAAGTTCTTGCCTTGCTTGAAGATTGACTTCTATATATAGTGTATTAATTAGGGATAGCTTGATCA CCCAGAAGTAAAATACAGAGAATTTTATAGCAAGATCAAGTGCTAAAGTAGAATATTGTTCCATGACATCAGCTACTTAT GACCTTATTTGGCTTAGGCAATTACTCTTAGCTCAAATTTGGGGAATCTAAATCATATTTACTAATCGCGTGCAAAAGCA CCGCAATTATAGTATATATATGTACATCATAGTTACTAAGCGATACTATAATCTCTGTAATTATTTCTCTTTATTTATAT AACCTTTTCTCTGCTATGTAGCTTAACACACAGATTATGCTGCATGCCTCTCTTTCCTCTTTAGTTTACCTATCCCCCAG ATTCATATATTAATAATATTATATTATTTTTTGTTTCATGTATTTTTAATATTTTGCTTATTTGCTGTGAGCATTGTCAT GATATCACCTTATGTTCTTTAAATTTACCGTGCAGTTGCATGAGCATTTTTTTTAATCTAGTTGCACTTTTTAACTAATG ATTTTTCGTATTCTCACTTTTTCAGGATGCTAAGAAGGGTGTCCTATTTATTGATTTTCCTCCTGTTCTGCAGCTTCAGC TGAAAAGATTTGAGTATGATTTTATGCGGGACACTATGGTAAAGGTTGGTAGTCTAATAGACCTTTGCTTTGCCATATTT CCTTCTCTTGGTACTTCCTTTTCTTTCTTTTATATTTAGAACTTCTGCTACTTCACCAGAATGCATCTGTAATTGGTTTT ATTGGATATTGGCCAGAGTAAGATGCAGAAAGTTTACTCCAGCGCTGTTATACAATGCACCGAAGATTATTTTGATCTGA CTAGTTAGTTATGCTAGATAATTTCATTGATATCTATTAGGATAGTCGGGAAGGGTGTAACATCCCTTGTTTATTTGCAG TATGCATCCATTCACAACACCTTTAGTACAATAAAGTGTTATGTTATGTATCTTGTGTTGGAGGAAATGATGCCTTTGGA TATTGAATACCTCAAAAGAATTAATGGCAGGCATTTTTCTGGTATTTTTTTTTTGAAATTGCTTTTTTTATGATAGTTTT ATTTTCTTCTTGTATATCCATGTTCAACATTTATGTGCATCATTTGGACACACTGAAGGGGGAGCATAGACATTAGCTAT TGGCATGAGATTCTGTGTCTCGGACTCTCGGTCGTTGAGTTACTCACTTTTGATGGGGTTTGAACTCTTCCTAGAAATGA ACGTTGGATTTTCTCTTGCCTTGCAGATTAACGATCGTTACGAGTTTCCCTTGGAACTTGACCTTGATCGTGATGATGGA AAATATTTATCACCTGATGCTGATAGGAATGTCCGCAATCTTTACACACTTCATAGGTAATATAGTGGAAGCACTTGAAT CTGTTGAAAATAATTTCTTAGAATATTCAACAGAAGTTTCAGAAGTTTGGTGCATAATTGATAATACATCTTTTTTGCAT TAGATTTAGGGCTGGTTGCTAGTGACTTGTTGATCTCTTTCATTATTCCTTTAGTTATTATGCTTACTTTGTAATACTTT ATCTAGTATTCGTGACTTGGTGTATGATATCCAAGTTCGTCTTTTATTTGTTTTTTAAGCAGCCATTATTGTTTTATATT TTTCTTTATTTTACCTATATACTTGAGTCTATTACAATCAATTGGTGACTTCTACAATCAACAGTGATGAAATGAGGCAA ATTAGAATAAGGAGAAAATGATGTGAGGATAGAGAATGGAAAGAAGAAAGCAATTAATCTTAGGGAGATGCATCTCCTAG GTCCTTCCAAATTAAGTTCGTAGTTTATTTTAAATCATTTTGGAACAGGAAAACTTGGATCATTAGTATGAAAGTGTCAT TCATCAAGAATATTAATCAAAGCAGCACATAAAATTTATAATTTCTGTTTCTCTGCTGATGTTGTCGATTGTTCTGCTAC TATCTTTTAATTTTTTTAATGCAAATTCATATCTTAATTTCTGTTGTTCAATATCTGACATATTGGAATTCCTCTCCAGT GTTTTGGTTCACAGTGGTGGTGTGCATGGTGGGCATTATTATGCTTTTATCCGGCCGACTCTCTCTGATCAGTGGTATGT ACAATAGGTTTCATGGGTCTGTACTGTTTACTTAGGAGCTATGTTCTATTATTAATGTGATGAGGACTCAAGGCCATGCT AAATAATCTGCTTAAATGCTGATTTTGCTGCATTCATCAAATGCTTTTGTGGTGCTTGGAGTTTCTAGAGTACATATATT AACATAACTAGCTACATGGCATAAACTGGGTGAATGAACATTGTTTCATTTTTTCCCGATCTCAAATCTTGAAAAGTATC TGTTTGAGAAAGGGTGTGGAGAGACTGTATAGGTGACTGTTTTTTTTTTCTTCTGTATGTGTTTGTAAGGAGTGAGGTGT ACTGTATGTTTGTATATCATGTAGATGTTCTGATGTGTGATCAGTTTTGGAAATAACAAACCTTGTTTGATGCCACATAA GGTTGTTGTGGCCTTGTGGGAGTTACTGAGTTCAGATCTTTGTACTGAATACTGATTTTAATATTTTATACAAACAGCTG GTAGTGATCATTGAAATAAATTAACAATTACGATGTGAAATCAAATATGCTAAGTTGCAAAATATTTACCGAGTGGTGCA CCACGAAACATAATGTTTACATTTAACATAAATATGGTTCTTGTTGTAAGATAGGGGAAAGTGGAGTATTTTATTACAAT GATAGAACCTTCATAGCTACTTTCACTTTATTCAGTACTTAGCAGAAGAATGCCTGAGAACTGCCTCGTTGCTCCTTTCC TAAGTACAACACAAAATGAACATATGCATATCCTTAATTTTTTTTTCGGGCTCATTAACTTTCATGTGTTTTATTATAGT GAGTGTTTAGCTACCTCCATCAATACCTTAATTGCATGGGAAAAAAATTTCGAACTCAATGTGTTTGTCTATAAAGTGAG AAAGTGAGGGTGTATCCACTGTTGATTTGATTTAAAGTGCATTGTAATCTTAAGTCGTAAAACTCCAAGTCTGTCCACCC TCACTTTATCACTTTGTTGACAGTCTCACTTTAGAGAAGCTCTGTCGAATTTTATGAAGTGTGTCATAGACTAAATCTGT TCAGTTTACACATTTTGCAATGGTGGTGATCTACAATCCTAAATTTCTAATAATAGTTTTACTGAGCTAGGGTATAACAT GCAACCTACTGAGAGGCCTTTCACATTCTTTTTGTATTTCAACTGCTCTTGTTACTGACTGACTGAACGAGCCCTTAACT GCATGATTTGATTGAATATATAACTTGCTCTCAGGTACAAATTTGATGATGAGAGGGTGACAAAAGAAGATACTAAACGG GCACTAGAGGAGCAATATGGTGGGGAGGAAGAGGTAACTGTTTTATTTCCATTGGCAGTGGCATTTGGTCTCTTTACTCA TTTGGATATTTATTAATAATTCAATCACTTGTTAACAGTTACCCCAGACAAATCCTGGATTCAATAACACACCTTTTAAA TTCACCAAATATTCAAATGCATATATGCTGGTATATATACGTGAAGCTGACAAGGACAAAGTAATATGCAATGTGGATGA GAAAGATATTGCTGAACATTTAAGGGTAAGTGGGTCTTCTTATGTGCTTTAGGGCTCAGAGTAAATCAATGTTTTCAGAA CCACAGATCGGTTATTGAACCGGTCAAGGCACCAGTTCTTATAAACATAATTATTATCATATTATATTTTCAGAAGTCTT AGTTATAATGTATAATTCAAAACAATTTTTCAAGACTGGAAATTCATGTCATACGTAATAAATATCAACGTGTCTTCGTG ATTTCCACAAGGAGCCTTCAACGCTCGCCTTCTGTCAATTTAATACAATGATTAATTATTTAATTAAAAAATTCTGTTCA TTATTTCTTTTTTATAATTTTAAGACAATACAAGTTGGGAGTCGCACTCCTCCTCAGCCCTGCTTACATTATAAGCTGTA ACAGATGGACCGGACCCATTTTTAAAGGCCTAATCTCTTCTGTCTTCTCCATAATTTACACACAACTCCACTTCACAACC TCTCTCAAACCCTATCTGCACTGAGTTTCTGCATTGTGTTAATTCAGGAGAGGTTGAAGAAAGAACAGGAAGAAAAAGAG CACAAAAAGAAAGAAAAGGCAGAGGCTCACCTCTACACTATTATAAAGGTTCTTATTTCTTAACTTAGGATTAAGCATTG TTTGTTTTTATGAAGATGCTGTGAGCTACTCAATCATATTGTATCTAGATATTACTGGTAACATATGATACTTCTTAGGT GGCACGAAATGAAGACCTTAAAGAGCAGATTGGAAAGGATATATATTTTGATCTCGTAGACCATGACAAAGTGAGGAGTT TCCGTGTCCAAAAGCAGATGTCATTTAACCTTTTCAAGGTAACATCGTTAGTCACACTTTTAGCTCTCTTGCTAAGTCTA TTGACCTGGCATGATATACCAACTATTTTTTTTTTGACTCGATGTGGTCTCCAAAGCAAATATTTCTTGTTAAACTGTCA CTTTTCATTGGAAAACTTTAATAACAGACAGATTGATATTGTTATAATCTAACAATTCCAAAAGTTTAATATGTCGGGTT AAAAAAGATGTGAATGATTTTATATCAAACATGTCCCCTCATGCAATAATCAGTTGGGGTTTGAAATGAGGACTATACAC AAATCCATCCTACCTTGCAAGAAATTTAACTTTTTTTGTTGATCTCATTAGTCATAACTATTTAGTATTTAGTCATAGAA GTTTTAGGGTCTGAGTGTCTCAGATTGAGTATGCTCATGATCAAAAGCAAAATTTAAAAAATAAACTAGAAATTTGATTT TTAGTAGAAAATATTTTAGTAGCTTTTGAAATAGCCATTGTAACATACGAGAGAGAATCAAACTCCTTATTTTTAGGTGA CACTACCTCGTTTAGTTTTACAATCTCATCCATATTTTTTAAATCTTAAGTGTTTTTTATGTCATTCAATGAAATTCTAT ATGAAAAAAGCACTTCTACATTTTTATATTATGATCTGCAATCACTTTTTAAAACTGAAAGCACTTTTTCATTTTGTACA CGACCATTTGTAATTTGTGCTTTTTAAAAACTGTCCTATAATAAAATAACTTTTTTATGCAACCTTTTAATCACTTATAT TTTAAGCATACACAAACTGGCCCTTAACATCATTGCTTAAATGAGTAATCCCATAAGCTTAAGTTGATAGATGAAAGCAC GTCAATGATTTATATCTAACAAATATTCTGACATAGAGTGCCTTACACCACATTGATAATACACTCAAGAGGGAGACAAT ATAAGATTATCCATGGGCAGGGAACTACATTATTGATGTTTCTAAGTATAATTTTTTCTTCTTCAAAATAGGGTGAAAGT TAGCAGTTCCATGTCATGGTTATTTTTTAGATTAATGTGTTTTAAAATTGGGGGGGGGGGGGTATATACTTTAGTTTTGT ATTTTTCTTGCAATGTATTTAATGGCGTATTAAGATATCCTCTGTCCTTCCGTTGTGGATGATAGCAGTTGAAGAGTTAC CAGAATGTCATAGGATTGAATGCATCCGAGAGGGATTTAGGAATTGGGAATATTGAATGTCATAGACTTCTATGGTTGAT ATTTCTGGCTGGTGCTTTTGCTGCTAGTCATTTTACTTTTTGGATGAATCCTTAATTTCTCGCACTATCTTCTCAAATTT TTACTCAGATATGATGGGAGTCATGGGACTAGGGAAACTTTAGTTTTTGAACTCCTAAAGAGCATATCATTATATTAATT TCATCCTCGGAGATTTTTTTTTGAAACAGTACTCAATTATAAAACTGTTGTTGCTTTAGTTGGAATGTCATATGATTCTT TGTGGTCTTAAATGATATTTTTATTTGTTGGTGAAGGTTACACAATTGATGCGTTATGTTTGTTTGTTTGATTTGATTTG ATATTTTTCTTTGATTTCTGATTGTGGTAAGCAGGAAGAGGTTGCTAAAGAGTTTGGCATACCAGTTCAATTCCAGCGCT TTTGGCTATGGGCAAAGCGTCAAAACCATACATATCGCCCCAATCGACCATTGACACCAGCTGAGGAAGCACAATCTGTA AAGTTTTTTTCCTGGAACCTTTTCCTTATTATTCTGCTCATATAACCCCTTCAAGCTTCTTACCTATGACTTTTTCATCT TTGGTTATCATGTTTCATACTTCCACGCTTTTAGGGAAATAGTCGTTTTGTAAAAAGAACTTATTTTTCCCCAAATTTAT GTGCTATGTTGAATCTGTTTAATGCTGTATGGCAAATTGATTGTGATTTGAACTAAAAAAAGAAGTGGGAAATTGATATA AAGAATCAAAAGAGAAGTACAAATTTATTAAATAAATGATTGAGAATAGGGGAGATGTCTCTCCTCTAAGGGGTTTCCCT TGGCAAAGGATTTCTCTTTTCACACACAAGTTATCAAATTCATAAAATGAATCTTTCTATCCTTATTTCCCCTATTTATC TAATTGATATCCCCCTAGCTACCCCAACTAATCCTTACCACTATTACTTCAATTCATTCTACTCTTTCACCTTGATGGAT TGTCATAGCTTGTTGCACATTGTTAGATTTCCTATCTTGGGCTGACCCAATAGTTGATTGGCTCTCTATTTTCTTTCTAG TTGTTTTATTTTCCCCATACTGGCTAGCTTCTTTTTATTTCTTGAAAATGAATCCAAAATGCAACTCATACAAGTATTTT TCTTACTGATTGTTTTGGATCACATGACTTTTTATAGTTTTGCACTTATTCCTGTGATAGTGCTTAGTGTTTTGTGATTC ACATTTGCCTGTTTTCTGTGCTCAATTTTGCGACAACAATTTCTCTTTGATCTGAAGTAATTAATTATTTTTTCTCAATC TGATACATGTTGTAGGTTGGACAAGTGAGAGAGGTTTCAAACAAGGTTCACAATGCAGAATTGAAGTTGTTTTTGGAAGT GGAGCTTGGACCGGTAACATTTAAATTACAGAAGTTGTATGCCACTTTGGTAACATGAAACATTATTATCAAAACGCAAT CCTGTTGACAAACTACATTATTATTTAGGACTTACGTCCCATTGCACCATCTGACAAGACAAAGGACGATATACTTCTTT TTTTCAAGTTATATGATCCTGAAAAAGAGGAGCTACGGTACTGAGTAATTTCTTTATTTTAACGTATGTTGGATAAATGG TGGGCCTAGGTTGAAATTAAATATGTTTCCCTTTTATGGCAGTTATGTTGGAAGGCTCTTTGTGAAGAGTACCGGTAAGC CATCAGAAATCTTAACAAGGTTAAATGAAATGGCTGGTTATGATCCTGACGAAGAGATTGGACTTTATGAGGTTGGTTTG TATTATCTGGTTTATATCTATCTGTTGTATAACTTAAAAATATCAAAATAGTTCATCCTTTTATGATCTGAAGCCATATG CTTCTTTACCCACTAAGCTCGGTCAACCAGTCATGGTTTAAGTTCTTCAGTAATTAAGCTTGCTGGTCATTAATGTCAAT AGTGCCTCATGATACATGAAAATTTATCTTCGTTGCATATGCCTTTTCAGAAGGGAAAGGACCTTTATTTTTGTGGCATC TTCAGGTTCTGATCTCGACAAGCAGCTTTAGTCACGTGGCATTAACTGTGCCTGTTATTGTGTAGGAAATTAAGTTCGAA CCAAATGTCATGTGTGAGCCTATTGACAAGAAATTAACATTTCGAGCAAGCCAGGTAAATATGTACAATTGATGCACATT GAGTTACTGTATCGTGATTATTGGTTTATTGGCTGGCTTATTGGTTTGTTTTTCTAAAATGCAGCTAGAAGATGGAGATA TCATATGCTTTCAGAAAGCTCCTGCAATGGATAGTGAGGAACATGTTCGCTATCCAGATGTGCCTTCTTACTTAGAATAT GTGCACAATCGCCAGGTAATTTCTTCTTGGGGTTCAACTAAGGAAATTTGTTTTGTATGTGATGCAAAAAATAAAGTTAC TGATTTGTTGTGTGATGCTGTTATGCTGGAATCATTCTACTTTCCTCTTTTCCTTTGTGCTCATGCTTGCATCATGTGTA ACAAATAAGATATCTGCTGAAATTGTCTTCAATTGATATATTTTAGGTTGTCCACTTTCGTTCGTTAGATAAACCTAAAG AAGATGACTTCTGCCTGGAGATGTAAGCATTATGGAATTTATTGGAGTAAATCATTATATTAATACAATTGCAGTATTTT AGTTTAGAGAACATTCAAGTTATATATTGTGCTTATGATAACGTCTTTAACGCATACTCTATGTATATTAATGTCCAGGT CAAGGCTGTATACATATGATGATGTGGTGGAGAAAGTAGCCCAACAACTTAACCTGGACGATCCATCCAAAATTAGGCTT ACCCCACACAACTGCTACTCTCAACAACCTAAACCCCAGCCTATAAAGTACAGAGGGGTGGATCATTTATCTGATATGCT GGTTCATTACAATCAGGTAGTTATTGATTTATAGTTTAACCCTTCCTGATGTTTATTATTATAAAATTGAACACCTTATA CCTTTCTTGTATGCCAGACTTCGGATATATTATACTATGAAATACTTGACATACCTCTGCCAGAGTTACAAGGTCTGAAA ACTCTGAAAGTTGCATTTTATCATGCTACCAAGGATGAAGTGAGTACAGTTAACAATTCTTCAAGTTTTTGTTTTGTGTT TCTGTTTTTAATTTTTTTTTTTAAATTGTTGATTCAGGTGGTTAGTCATACCATCAGGCTCCCAAAACAGAGCACTGTGG GGGATGTCCTTGACGATCTTAAAACAAAGGTGCTTTTATCTGATTTTTGCTATAGTTCGTTAACTTGCTTACGTTGTATA ATGATATTTACATGACATTGCAATTAGAATATAGAAATGCACCCAACATGAATTTATGATTTATGGTTTCATCTACATTT AGCGTTTTAAAAATGCCTGTTTTGCGCAGTTGTAGCTGCAGTATTGTTTGAGTAGCAGTTTTTTTGATATGAAGTTGTCA ACTTTTCCTCAATTCATGATTTTTTAATTAATTACCTAATTAGATATGCCATGCCCATTTTTGTACTGTTTTTATAGGTT GAGTTGTCTCATCCTAATGCTGAGCTTAGGCTGCTTGAAGTCTTCTATCACAAGATATACAAGGTAGGAAGATACCTCTC AGCGAACTGCTACTGGGTTTATTACTATTCTTACTTATTTTTCTGAGTAAATTATTGCGGAGTCAGGACTGAACATACTA AAAATGGTATTGGCCCGTGATCTTCAGTTGCTTGTATTACTGGCTTTGCAATTAACTATTTGACACACCATCCCATTTTT CTTATTGACATAGATTCATTCAACCTGCCTCTTTTGTACAGGTTTTCCCTCCCAATGAAAAGATTGAAACCATAAATGAT CAATACTGGACATTGCGTGCAGAGGAGGTAACAATCTGTTTCTTCCTTCGTGTGTGTGGGGTGGGAAGGGAGGAGAATAG ATTTCAGTCCATCATGTGTTTCTGCCTTTATATGTTCATAATAGCACTTTGGCTTCTTCTAAATACGCAGTTGCATCTTT TTACCCCATAGTTCCTGTAAAAAAATGAACGAGTCTCTTTGTTTACAACTTTTACAGGTTCCAGAAGAAGAGAAAAATCT TGGTCCTCATGATCGTCTAATCCATGTGTATCATTTCACTAAAGACACATCCCAGAACCAAATGGTATGTAGTTTTAATT GATTCATTTAGCTTTTTACAGTTTTTAGTAATTGTTTTGGTACTTGTGCTGATATTAATTGTGTGCCTCTAGTAACCGAG TTTTGCATTTGATGTGTACAGCAAATTCAGAACTTTGGGGAACCCTTTTTCTTGGTCATACGTGAAGGCGAGACTTTAAC TGAAATTAAAGTGAGAATACAGAAGAAACTTCAAGTTCCTGATGATGAGTTTGAAAAGGTATTTCCTCTTTCAGAGTTTT ATGGGGCATATTAGGGTTCTTACATTTTGAGATTTTGTTAAGTGATGAATGTATTATAGGATAAATATATGCAGTAAATA TTGGTTAGTATACTTGGTTTAGGTTGCCTAATTTTTTCAATATTTCTTGTTTGGCCAGTGGAAGTTTGCTTTTTTTGCAT TAGGCCGTCCTGAATACCTCCAGGACTCTGACATCGTATCCAATCGTTTTCAGGTGATTATTTATTTATTTATTTCAATA ATTCAATTGATATTTAGCACTATTTTCATACCCTCAGATTATGTTTACATTGCCCTTCTACTGTACTTCGTGACAGAGAA GAGATGTTTATGGTGCTTGGGAGCAGTATCTTGGTTTGGAGCATACTGACAATGCTCCTAAGAGGTCATATGCTGTTAAT CAGGTTGGTTAGTTTGCTTGCAAAAACTGATTTTTTAAGTACATTTTGGTCTTTTGATTGTTTGGTTCTTGTCACTAGGT ATTAGTTTTGAGGTTGGAAAATCTTTGTTTGTCACACCATTTCAAATCACATGTGTTTTGTTTTCAGAATCGCCACACAT TTGAGAAGCCAGTAAAGATTTACAATTAG
CDS sequence (LotjaGi1g1v0061200.6) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAATGTGAAAAAGCTCTATTCAGAAGTATTTGTTGTTGGTGGTTATAAATGGCGTGTACTTATTTTCCCAAAAGGGAA CAATGTGGACTATCTGTCCATGTATTTGGATGTCGCAGATTCAACTAATTTGCCCTATGGTTGGAGTAGATATGCACAGT TTAGCTTGGCAGTAGTTAATCAAATACAGAATAAATACACCGTGAGAAAAGACACACAGCATCAATTCAATGCACGAGAA AGTGATTGGGGTTTCACGTCCTTCATGCCGCTTGGTGAATTGTATGATCCCAGTAGAGGGTATCTTCTGAATGATACTCT TGTAGTTGAAGCCGAGGTTCTTGTTCGTAGGATTGTTGATTACTGGACTTATGATTCAAAAAAGGAGACTGGCTATGTTG GGCTGAAGAACCAGGGAGCTACATGTTATATGAATTCTCTACTCCAAACTCTGTACCATATACCTTATTTTCGAAAGGCT GTATACCATATGCCAACAACGGAGAATGATATGCCCGCTGGAAGCATTCCTCTGGCTCTGCAAAGTTTATTCTACAAGCT CCAATATAGTGACACCAGTGTTGCAACAAAGGAGCTGACAAAATCTTTTGGATGGGATACATATGATTCTTTCATGCAAC ATGATGTTCAAGAACTGAATAGAGTTCTATGTGAAAAACTTGAAGACAAAATGAAGGGAACTGTTGTTGAGGGAACTATA CAGAAATTATTTGAAGGGCACCATATGAACTATATTGAGTGCATCAATGTGGACTATAAATCAACTAGAAAGGAGTCCTT TTATGACCTTCAACTTGATGTGAAAGGCTGTCATGATGTTTATGCTTCCTTTGACAAGTATGTTGAAGTTGAACCTCTTG AGGGGGACAACAAGTATCATGCTGAACAATATGGTTTGCAGGATGCTAAGAAGGGTGTCCTATTTATTGATTTTCCTCCT GTTCTGCAGCTTCAGCTGAAAAGATTTGAGTATGATTTTATGCGGGACACTATGGTAAAGATTAACGATCGTTACGAGTT TCCCTTGGAACTTGACCTTGATCGTGATGATGGAAAATATTTATCACCTGATGCTGATAGGAATGTCCGCAATCTTTACA CACTTCATAGTGTTTTGGTTCACAGTGGTGGTGTGCATGGTGGGCATTATTATGCTTTTATCCGGCCGACTCTCTCTGAT CAGTGGTACAAATTTGATGATGAGAGGGTGACAAAAGAAGATACTAAACGGGCACTAGAGGAGCAATATGGTGGGGAGGA AGAGTTACCCCAGACAAATCCTGGATTCAATAACACACCTTTTAAATTCACCAAATATTCAAATGCATATATGCTGGTAT ATATACGTGAAGCTGACAAGGACAAAGTAATATGCAATGTGGATGAGAAAGATATTGCTGAACATTTAAGGGAGAGGTTG AAGAAAGAACAGGAAGAAAAAGAGCACAAAAAGAAAGAAAAGGCAGAGGCTCACCTCTACACTATTATAAAGGTGGCACG AAATGAAGACCTTAAAGAGCAGATTGGAAAGGATATATATTTTGATCTCGTAGACCATGACAAAGTGAGGAGTTTCCGTG TCCAAAAGCAGATGTCATTTAACCTTTTCAAGGAAGAGGTTGCTAAAGAGTTTGGCATACCAGTTCAATTCCAGCGCTTT TGGCTATGGGCAAAGCGTCAAAACCATACATATCGCCCCAATCGACCATTGACACCAGCTGAGGAAGCACAATCTGTTGG ACAAGTGAGAGAGGTTTCAAACAAGGTTCACAATGCAGAATTGAAGTTGTTTTTGGAAGTGGAGCTTGGACCGGACTTAC GTCCCATTGCACCATCTGACAAGACAAAGGACGATATACTTCTTTTTTTCAAGTTATATGATCCTGAAAAAGAGGAGCTA CGTTATGTTGGAAGGCTCTTTGTGAAGAGTACCGGTAAGCCATCAGAAATCTTAACAAGGTTAAATGAAATGGCTGGTTA TGATCCTGACGAAGAGATTGGACTTTATGAGGAAATTAAGTTCGAACCAAATGTCATGTGTGAGCCTATTGACAAGAAAT TAACATTTCGAGCAAGCCAGCTAGAAGATGGAGATATCATATGCTTTCAGAAAGCTCCTGCAATGGATAGTGAGGAACAT GTTCGCTATCCAGATGTGCCTTCTTACTTAGAATATGTGCACAATCGCCAGGTTGTCCACTTTCGTTCGTTAGATAAACC TAAAGAAGATGACTTCTGCCTGGAGATGTCAAGGCTGTATACATATGATGATGTGGTGGAGAAAGTAGCCCAACAACTTA ACCTGGACGATCCATCCAAAATTAGGCTTACCCCACACAACTGCTACTCTCAACAACCTAAACCCCAGCCTATAAAGTAC AGAGGGGTGGATCATTTATCTGATATGCTGGTTCATTACAATCAGACTTCGGATATATTATACTATGAAATACTTGACAT ACCTCTGCCAGAGTTACAAGGTCTGAAAACTCTGAAAGTTGCATTTTATCATGCTACCAAGGATGAAGTGGTTAGTCATA CCATCAGGCTCCCAAAACAGAGCACTGTGGGGGATGTCCTTGACGATCTTAAAACAAAGGTTGAGTTGTCTCATCCTAAT GCTGAGCTTAGGCTGCTTGAAGTCTTCTATCACAAGATATACAAGGTTTTCCCTCCCAATGAAAAGATTGAAACCATAAA TGATCAATACTGGACATTGCGTGCAGAGGAGGTTCCAGAAGAAGAGAAAAATCTTGGTCCTCATGATCGTCTAATCCATG TGTATCATTTCACTAAAGACACATCCCAGAACCAAATGCAAATTCAGAACTTTGGGGAACCCTTTTTCTTGGTCATACGT GAAGGCGAGACTTTAACTGAAATTAAAGTGAGAATACAGAAGAAACTTCAAGTTCCTGATGATGAGTTTGAAAAGTGGAA GTTTGCTTTTTTTGCATTAGGCCGTCCTGAATACCTCCAGGACTCTGACATCGTATCCAATCGTTTTCAGAGAAGAGATG TTTATGGTGCTTGGGAGCAGTATCTTGGTTTGGAGCATACTGACAATGCTCCTAAGAGGTCATATGCTGTTAATCAGAAT CGCCACACATTTGAGAAGCCAGTAAAGATTTACAATTAG
Protein sequence (LotjaGi1g1v0061200.6) extracted from Lotus japonicus Gifu v1.2 Proteins.
MNVKKLYSEVFVVGGYKWRVLIFPKGNNVDYLSMYLDVADSTNLPYGWSRYAQFSLAVVNQIQNKYTVRKDTQHQFNARE SDWGFTSFMPLGELYDPSRGYLLNDTLVVEAEVLVRRIVDYWTYDSKKETGYVGLKNQGATCYMNSLLQTLYHIPYFRKA VYHMPTTENDMPAGSIPLALQSLFYKLQYSDTSVATKELTKSFGWDTYDSFMQHDVQELNRVLCEKLEDKMKGTVVEGTI QKLFEGHHMNYIECINVDYKSTRKESFYDLQLDVKGCHDVYASFDKYVEVEPLEGDNKYHAEQYGLQDAKKGVLFIDFPP VLQLQLKRFEYDFMRDTMVKINDRYEFPLELDLDRDDGKYLSPDADRNVRNLYTLHSVLVHSGGVHGGHYYAFIRPTLSD QWYKFDDERVTKEDTKRALEEQYGGEEELPQTNPGFNNTPFKFTKYSNAYMLVYIREADKDKVICNVDEKDIAEHLRERL KKEQEEKEHKKKEKAEAHLYTIIKVARNEDLKEQIGKDIYFDLVDHDKVRSFRVQKQMSFNLFKEEVAKEFGIPVQFQRF WLWAKRQNHTYRPNRPLTPAEEAQSVGQVREVSNKVHNAELKLFLEVELGPDLRPIAPSDKTKDDILLFFKLYDPEKEEL RYVGRLFVKSTGKPSEILTRLNEMAGYDPDEEIGLYEEIKFEPNVMCEPIDKKLTFRASQLEDGDIICFQKAPAMDSEEH VRYPDVPSYLEYVHNRQVVHFRSLDKPKEDDFCLEMSRLYTYDDVVEKVAQQLNLDDPSKIRLTPHNCYSQQPKPQPIKY RGVDHLSDMLVHYNQTSDILYYEILDIPLPELQGLKTLKVAFYHATKDEVVSHTIRLPKQSTVGDVLDDLKTKVELSHPN AELRLLEVFYHKIYKVFPPNEKIETINDQYWTLRAEEVPEEEKNLGPHDRLIHVYHFTKDTSQNQMQIQNFGEPFFLVIR EGETLTEIKVRIQKKLQVPDDEFEKWKFAFFALGRPEYLQDSDIVSNRFQRRDVYGAWEQYLGLEHTDNAPKRSYAVNQN RHTFEKPVKIYN
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 | 113 | 113 | 32.511 | ||
Gene3D | 2 | 129 | 128 | 8.0E-43 | ||
SMART | 2 | 94 | 93 | 9.3E-10 | ||
SUPERFAMILY | 3 | 118 | 116 | 2.62E-34 | ||
CDD | 4 | 113 | 110 | 5.2034E-32 | ||
Pfam | 5 | 114 | 110 | 2.0E-16 | ||
PANTHER | 11 | 957 | 947 | 0.0 | – | |
PANTHER | 11 | 957 | 947 | 0.0 | – | |
SUPERFAMILY | 128 | 485 | 358 | 1.39E-97 | ||
Gene3D | 130 | 459 | 330 | 1.7E-88 | – | |
CDD | 131 | 457 | 327 | 2.21909E-165 | – | |
Pfam | 133 | 454 | 322 | 1.7E-46 | ||
ProSiteProfiles | 133 | 457 | 325 | 39.76 | ||
ProSitePatterns | 134 | 149 | 16 | - | ||
ProSitePatterns | 373 | 390 | 18 | - | ||
Coils | 466 | 497 | 32 | - | – | |
Gene3D | 473 | 607 | 135 | 6.6E-40 | – | |
Pfam | 558 | 810 | 253 | 1.9E-78 | ||
Gene3D | 618 | 735 | 118 | 2.0E-38 | – | |
Gene3D | 736 | 833 | 98 | 5.6E-9 | – | |
Pfam | 820 | 1030 | 211 | 4.0E-58 |
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 | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
Biological process | Ubiquitin-dependent protein catabolic process | The chemical reactions and pathways resulting in the breakdown of a protein or peptide by hydrolysis of its peptide bonds, initiated by the covalent attachment of a ubiquitin group, or multiple ubiquitin groups, to the protein. | ||
Biological process | Protein deubiquitination | The removal of one or more ubiquitin groups from a protein. | ||
Molecular function | Thiol-dependent ubiquitinyl hydrolase activity | Catalysis of the thiol-dependent hydrolysis of an ester, thioester, amide, peptide or isopeptide bond formed by the C-terminal glycine of ubiquitin. |
Expression pattern of LotjaGi1g1v0061200.6, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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