Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi5g1v0064500 |
Transcript ID | LotjaGi5g1v0064500.1 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Ubiquitin carboxyl-terminal hydrolase; TAIR: AT3G49600.1 ubiquitin-specific protease 26; Swiss-Prot: sp|Q9SCJ9|UBP26_ARATH Ubiquitin carboxyl-terminal hydrolase 26; TrEMBL-Plants: tr|I1M9Q7|I1M9Q7_SOYBN Uncharacterized protein; Found in the gene: LotjaGi5g1v0064500 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:10814296..10825566) extracted from Lotus japonicus Gifu genome v1.2.
GTATGATATAGCCTGAGCCCTGAAGGCAGGAAGTAAAAGGAAAGCTCTGACTGAATAAAAACTACACCCATCCATTGTCC CATATTTCATACTTGGCCTTGGCCCAACACAAACCAACCAAAATCATTTGTCCCTCTTCCCTCTTTCAATCAAACCCATC CCTTTCACTCTGACTCTCCCTCTTTTTCCCTTCTCTACCCTTAAAAAGGTAAAAACCTCAATTGAAAAAATAATAATATT ATTATTACTCCTTTCTTTCTTTGTATTATTTTCTATTACTCTCTTCATTTTTATTTATTTATTTTTCTCAGAATCTGAAG TGATTTTTGATCTTCTTGCTGTTGAAAGCAGCTTCTCTCTCTCTCTGGTATTGTCGCTACCACTATTTCTCTTCCTTTGA TATCACAGTTTCTTGGATCATTTTTTTGCAATTTGATTAATTTTATTGTTTCTTTCTCCGTTGATTGATTTTGCGTCTGT TAGGAATTTCTAGGGTTCTATGGTTTCTTTGTGATTTATGTAATTCGGTTCATGCTTGTTTTGTTCTGCAATCAATAATA TCATCACCATGACCAAGTGAACTTGTCGCAATGTTGTCAAATTTCTGGAAATTTCGGGTTTTTTTTTTTTTACTTGATTT CCCTGTAATGTGACACAAATGTAAGTGCTTGAATGCATTTTTTTCCATGAACATTGATGTGTTGTTTGTATTTTTTCCAG TTTCATTGTTAGCGTAAATCGAAACCAATAGGACTTTCTGTTGTTAGTTCATTTTTGCTGTTTTAAGGTCTAAAAATTGA TTGAGGAAATGGTGCATTGATTAATTTCAGTATCTTTCTGAAGGAAGTTAGTGTTTTGTGCTGTTATACAAAGTTTTTGT GCTTTTTTCAGGGCTAGGTTTTGTATTGTGCAATGAGTAGACCAACGACTCGAACAAAAAATAAAAGGCTGAGACAAGGG GATGATGGTGCCAGCACTTCTGAAATATGGAGGTACTACTATTACATATTCTTTTGTTTTTAGCTTATGAAATGGAATTG GAACTTATTGTTACTTCCTTTGTGTATCTATTTACTGGTTTATGATTCTCCTTCTGTAGGAAAATTCACAAAACTGGTGT TGTAACTGAAGAGGATATGAACCAACTGTATATGATTTGGAAGCCGGCGTGTTCGGGCTGTCGAGTAAATACTAAAGATA ACCCGAATTGCTTCTGTGCTTTGGTTCCACCTCCAAATGGAACCCGGAAGTCTGGCTTATGGCAGAAGATGTCTGATTTT GTTGAAAGTCTTGGTCCTGACCCTAACAAGGATCTTCGTGAGTCTGCTGATTCACCTGCAGGTTTGACAAATCTTGGTGC AACATGCTATGCCAACAGTATACTCCAGTGCTTATATATGAATAAAGCTTTCCGAGAAGGCATATTTTCTGCAGAAGTGG ATGTTTTGCAGCAGCAACCAGTGTTAGATCAACTGGCTCGGCTTTTTGTACAGTTGCATATTAGTAAAATGGCCTTCATA GATTCTTCTCCATTTGTAAAAACACTGGAGTTAGACAATGGTGTTCAGCAGGACAGCCACGAGTTTCTAACATTGCTTCT GTCATTGCTTGAGCGTTGCCTGAGCCATTCCAAACTTCCCAAGGCAAGAACTTTAGTTCAAGATCTTTTCCGGGGAAGTG TGTCTCATGTGACTACGTAAGAATCATTCGTAGCTACTTATTGACTTATATAGAATCATTTTTTTCTATTACAAATCTTT TTTTCTTTAACGTGTTTATGGCTTTGATGATGGATGATGGCATAATTTTCTCTTTTATTTTGGACCCTTCCCCTACCCCC TCATATACTCCAATACATAAAGAAAAACCTGATAGGAACGGGCAAGTAACTGTGTTTATTGGTAAAAACTACACTTAATT CTTGGATATTCGAGAGACGCCGGGCTCTCCCCAAGTTTCCTGTACAATGAATCCAAAGATCCAGGCCCTTTCGAACTCTC TTATATTTATTGCATTCTCCTTCACTCTCTAACTCCAGGTGAAGTCATTAAGAAGAGTCATGTCAGTTACTACTTCTCGT TAAGCTGTCATCAAATTCCAAATTCAGAAGTTCATATATTGTCATCCCAAATGTGCAGGAGGTGCACACTGGACAGGAAG GAAGCCAACTCACTGTTTTGGGTTTCAAACAGCTTAGAGTATGGGCCTAATAAGGAATTTCCCTTCTGTCCATAGACTTT TCTCTTTTCACCCAGAAGGTGGTTGTCATGAACACTTTTCAATTCATTGCCTCGTTTTGCCTTTGTTCCTTCTTCTCTAT GAATTACGATTTATGATGTTCTTCCTTTACCATAGGTCGATTGACCTTCATGCTACCTTCAAGATTCCTTTCTTCCTTCT TTGCTTCTTCAATTTGGTGACCTGAAGGATGATCTTCGAAACCAATCTTTGCTCTTGAACCCCCTCCTTGTCGGACACCA TAGCTGAGTCTCGCCTGTTCTCTTCCTTACCCAAAGCGTCTTGCATTAGTCTCTTTGGCCACAACCGAAGATTCTAGCTC CCACCCCTTCTTACGTTGGTGTGCACTCCCACTAGTCAAGCTAACTTCTCCACTCCCTATTCTAGATTCTTGAGTATTGC TTTTCGTTCTCATTTCCTCGCTTCTTGCTCTTCTCTGTTCATGCCCCCCTTTATCTCAATTGATTCCAGCCTTATCTCCA TTTTTTTGTCATTCATGAGTGTTGCTATTAAGCGCCCTCAGCTCCTTGACATAGCTCTGATATCATTTGCTAGAAACAAG CAATGAATTAGGATTACTTTTATTGATATTGGTCAAAAGCTAAGAAGCAAGGACACTGGCATGGACACAGGACATGACAC TGATGCACACATGGTGGCGCAAGAAAATTTGATGTGTCTATCTATTTTGTAGTGTCTCACTGTTGTGTGTTTCTAACACG AAGTGTCAAACATATTTCCAACACAACCCTCTCTTGAAGTGTGGTATTAGGTTAGAAGTTATTCTGGTTATTTATGTTTA AATGATCTCAAATAAATTTCTTATATTTATATATACTTCATCTAAACTCGTGTTACCACTTACTAGTATTAGCTCTGCTT TTGACTAAAACACATTTTTTACTTTATCACTTTATTGTGCAGGTGTTCACAATGTGGAAGAGACTCTGAAGCTTCTTCCA AAATGGAAGACTTCTATGAGTTGGAGTTGAATGTCAAGGGATTAGGAAGTTTGGGTGAGAGCCTAGATGATTACCTTACT GTGGAAAAGCTTCATGGAGAGAATCAATATTTTTGTGAGTTGTGTAAAACAAGAGTTGATGCTACACGAAGCATCAAGCT GCGTTCCTTACCTGATGTCCTTAATTTTCAGCTTAAGCGTTATGTCTTCCTTCCTAAGGTATTGTGTAAAAGTTTTGAAT TTCATCATTATTATCGCTGTTAAATGTCATGCATTTTTCAATGGTAACTTCCTTTTCGGGTTTGATTCTAGTGATTTTTG GGTATAAGAGAGCAATAAGTATTACTAGGATTTTCAGAGAAACTCCAAAAGATTCTTAGAGATAGATATTAAATACTCAA TGGGATGGGAGCATTGTAAGAGGCAAAGTGAATCTTGCTATGACGATCCACTGTAGTTCAGCGCTTATGTTTCAATTTGT AAATACAGAAACTTAAAGAGATAGATAATTGTATACTTTTAAGTTTTTTTTTTTCATTTTTTATAGGATTTTTATTCTTT TGTCAAGTTCCCTATCATTCTTAATCTAATATAGTAATGTAATCAAATTCTGGACTTACAAAATTTGTTTTTTCGTTGCT TATGTGCACCATCTCTCTCTCTCTCTCTCTCTCTCTTTTCCCCCAATTTTCCGGTCCATGCCAAAGCCCCAAGTAAATGA AAAATATTCCTCCATTCTGTATCATTGTTTACATTAGACATCTTGGTCAAAATGCTTTAGCAGAAAATGCACGAGCCTTT TAATATATTTTTCACACATTGGCTTATTTATACAAGCTTTACTTTCGTGTTTTGCATTCTGTTTTTCGTATTTCTTGTTT TCTTTTAGGAGGATATTCTGGGTATAATATAGTTTCAGCTTTATATGTAAGGAAAAAGCGAAAGAACTTTTAATGGTTAT ATAGAAAGGATGCTTGATTTGCTTTGCAAACTTGTATGGTGCCTCATAAGTTTTATGGCATGTTATTGCTGATTTCTCTG AATTTTTTTGGAAATCTTTCTTTACATAGGAATCACGCATGAGTAACTTTTTCTTTCTTGGTAGTTTCATGCTAGGGTGA TCTTGTTTACCTGTTTTTGCAATTTTTAATCTCCTTCATGCTATGAAGTAAATTTCAATTTTCTGTGCTCTAAATTGTTT TCTGATATATATATTTCTTTATTCTTCTATTTCCTGACAGACAACTACAAAAAAGAAAATTACTTCTGCATTTTCATTTC CTGCTGAGCTTGAGATGCACCATAGATTGTCTGAGCCACCTCAATGTGAATTGATATATGACCTGTCAGCTGTACTGATT CACAAGGGAACTGCTGCGAATAGTGGTCATTATATTGCTCACATCAAGGATGAGAACACTGGGCAATGGTGGGAATTTGA TGATGAGCATGTTACTAACTTGGGTCGTCATCCATTTGGCGAAGAAGCTTCATGTCCAACTTCTAAATCTGTTAAAACTG ATGTAGATAATTCTAATATCTCTGAAGCAATGGTAACTGACAACAATGGAAATGGTTTAAGCACCACTCACTCACAATCC TCGCAAGTAGAGACATTTTCATCTAGTGATGCATACATGTTGATGTACCACCTTAAGCGCACCAAAAATGTTGATGAAAA GGGGGGCATGGTTTGTGGTGCTAACCATCGAGAAAGTGATGACGGTGCAGTTACTGCACACGAAAATGGTTGTCTTCCTT CTCATTTTTCTGAAGAGATTCAAAATTTCAATGCTTCATATGTTGATGCCTGTGAGCAATACTCTCATAGGAAAGAGTTA GAAGTGAGTCGTATCAACGAGAGGAAACAGGAAGTTCGATCTGTTTTAGCAGAAGCTCCTGTTCAACCGTTGGAGCAACC ATACTTTTGGATTTCTAGTGACTGGCTTCGCCAGTGGGCTGAAAACATTATTCCAACGTTAGTGCCTATCTTTTATGGCA TTCTTTGCAGTAAATATTTCGATGGTTTTTTATTTTTACTGTGTGGCCAAATTCTTTCCTTGCCTTAGTTTCAGCTTTCA TTCTGTCAATTACTAGGATAGGGTTATTTCACTTAATTTATATGGTACTTAATTTTTAATGCAGTGCTATCGACAACACG TCCCTCCAATGTTCACATGGGAAAGTCCCAGTGTCAAAAGTTGCCTCAATGAAGCGATTGTCTTCTAAAGCATGGGATCA ATTATTGTCTAAGGTAACTGTCTTCATTAGCTGTTATGATACCATTCATTGATCTTGGAAGCCCCTTTTAAATCAATATG AAAGATGTTGAGTGGAATTTCCCATATTGCAATGGATAACATAGGTAGGAGTGATGAAAAGAAAATTTATCAGATTGAGC ATTAGCAGAGACAATCTAATCTAGTGTCATTTATGTGTTTTACTGAATAATTTGAAGTAGTGGGCTATTATCATCATGAA GCACCAAACTTAGGATATTTCTTGGTGATGCCAACAGGGAAACTGTTGTCATGTGGGTCTGAAAGAGGAACATTTTGGCA AACATAGCCTTTGTGAAGTAGGTTTTTTATTTATTTCTGCTGACTTGAGAAGGAGAGTTCAGTAAACTTGTCAGGAAGTT TGGCAAACAATAGCCTTTATGACTTGGGTTTTTTATTTTTTTATTTCTGCTGACTTGAGAAGGAGAATTCAGTACACTTG TCTGAATGAGTTACAGTGTACATGAAAACAACAGGAAGTTTAAGCTTCTATCAAGAGATTAAGAAGTTGTTAAATTGCTT GTTTTATTCCCATATATCTCCTTTTTTGCCATAGTTGCTGATATCATGCCTATAAGTCTATAACATGTTCCTTTATTGGC TTATAAATTTCAGTATGGTGGGGGGCCAAAACTTGCTCATGATGACTGCTGTTGGGATTGCCTGATTGATGGAGCTCAGA ATGTGGTGTCAGCTGACACTTATCGAGATCAAAGAGAGTCATTGAAGCAACTTGCACGGGAAATTCTTGATGGAAACTGT GAAGATGGAAAGTACTATGTGTCCAGACCATGGTATGATTGCTAATCTTTTCTCCTGTCAAATATACTCCTAAAGAAAGT TATAGGGGGCGGTGGTGATAAGTGCAGTTTTCTGTTATGTTACACAAATTGTTAATATCTTAAGTGACTGGCCCAGTGTT ACGATTATAGAGAGGGAGGGGGGGAGCATAGGAGAATAAAAAATGCAGAGATTGGAGAACTGAATTCATTGAAGTAAGCA CTTACATTTAAAAGATCTGGTGTTCTAACAACCAACTGATTCTGTTTGGGCTGAGCTGTTATGGAGGCTGTAACATAAAT TTTATAACTAACTGACACCCAACTAACTGTTGATAACTAACTAAACAGAATCCCTGTACACCAGTAAATCACAATTGCAT ATAATACACTATTGCCCAGTCATAAATAATTCCATTACCGTTTCTGATCAATTTATGGTGTTAGTATAATTTGCAAGTCA CGATGCTAATGCCGATTAAGCTATGGGTTTACTTTTGTAGGTTGCTGCAGTGGTGGAAAAGAAAAGTTGTTGATGCTCCT TCTGAAGCTGATGCTGGACCAACAGCAGCTATTACTTGTCCACACGGGCAACTTATGCCTGAGCTAGCCACTGGTGCTAA GCGGGTGCTTGTCCCTGAGTGTTTCTGGCTCTTCTTATACAAAAATGCCACTTCTGTAAAACATGATGATCTTCTGGGTT GCCCTACTTTTCCTTTAGACTCCGGAGAGTGTTCCCAATGCAGTATTGAATTATCTGAAGTAGCTTGCTTGGAGGACTCT TTGAGGTTATTTCATTTGTACATTCCTATTTAAATAAAAATCTATAGACAAATTTTAAAGTGAGTGCTGTATTCTTGCTG CAGATTATTGAAACAAAGGGAGCGTCAGACTCATGACAAACTATTCAGCGGGAAAAGTATGCCTCTCTCTCTACATTGCG AGTATTTCTTAGTTCCTTCTTCCTGGATTTCAAAGTGGAGAAATTATGTTAATCCAGCTATCAAGAATTCAGATAAACCT GAAACTTTAGATGGGGTAGTTCAGTCACTGATGTGTGAAAAGGTACTTCTTTACTTTACTTAATCATGTTTTGTATCCTC TTCTGTGGTAATCACTTAGTTTGCTTTTGTCTCAATTTAGTATATTACTAGTTGCATTTGGTTAGAGTTGAATTTTTAGG CATAAAGTATACACTTACTTTAAGAAGATTTACTTTGAAAAGTTAATCTATGCATGTGTGTTAGGAATTTTAGTTGCAGG TCCAGATTCTAACTCATAAACTAAACACAATGACTGGGTCTGCACGTACTTGACATGGCATCTCCAATCTGTCAAATTTA ATCTGTAGCAATTTTAGACATGTAACATGCAAGTAGAATTACATTTTTTGTTTTTGCAGATTCTAACTGTTTTATTCCCT TGCTGTTCAGCACTCAGGACTCCTTGAAAGGCCTCCTGAACTGATTTTCAGACGCGGTGCTATATACCCAAGAGAGTCTT CTGTAAGTTGTATTATTGTAAAGAAAATATGTTTCTGCTCTGTAGTCATGTGACCTGTATGTACACGCTTGCAATGTTCT GTCATTAAAATATTTAGAGAAACTAAATTTTAGTATGCTTTGAATCCTTGTTTTTAAAATAATTAAATTGTAATATCCCG GACACCTAGTTGCTCCTTCTGTCTCTCCCTCCATTTTGGCATATCAATATGTTTGTTCTTCTTTGTCAGTTTCTCAGTCT TTACTTCCATTTGTGGATTCTAGGCTGGTGGCTTAACCGTCATATCTGAGAATGATTGGAAATGCTTCTGTGAAAAATGG GGTGCTATTGAGACCAAAGGAATATCTGCAAGAATTGAGAAAATTAATGATTCGGAGAATGCTTTCCCTGGAACCAATGA AGAGATGCCCATATGTGAGGATCAGTTGTCCAATTGGGATAAAGTGAATAATGAAAGTGAAAATGGCCAAATTGTGATTA GGACCTTTCCTGAGGTAATCCAAAGCTCTGACACATTTTGCTGCATATGCTATTTTATACCCCAACCTTGATATTCTTGT GAATGTGTGTCTGTGTATTAGACATTTAATCCAATATGCTAGTTTGTGTTGATTTATGTTAGACTAAATGTTCATGCTAA TGTTTCAGATTTACCTGGAAGGGCATGTCCTTGATTTTTCTAATTTTCCTGTTAGCTCTTTTCATCACATGCATAGTACA ACAACCTTTCTCTGAAAAAAAAATTGAGGTTGCAATGCATGTTTCTGAATGAGAGCAATCGTGTCTTACAAAAGCTGCTT CCGGATGTGCGTGTAACTTAACTAAAACATGGGACAGACCTATGTAGAGATCTAAGGGGGTGGTGGCCCCCCAAGAGAAA AAAATTCCTCAATAAGATAGTTCTTAAATGTTGTTTCCGCCCCTCTTAAATTTTTTATACTGCTTCTTTAGATTAGTAAT GGCTAGTTTTGCTAAATGTGTTAAACTTTCGCCCTTACCTATTTTTTCTTGTTCTGTCCCTGACTAAAACAATTGTAATT TGACTATTTGAGTGATAATTTTACTGGAGTCTGAAAGTTGTGTGTTTTTGTACCTTGCTCAGTTGAATCTATAGTTCTAT ACTGTTATCCATTCCTTTATTCTCTTGCACATAAATTCTATAGCCAACTTCTGTATTTATTTTTCTGTTTCTTCTAAATC TCTGATATTCTAATACCAAATTTACTGGAAACTTCCTCTCTTTATAGGATTATATATATTTTTTTCATTTAAAATATGAT TTTTACCCTTCTTGATATTCAGGTTTGTGAAAGTTGCATTGGAGAAAAGGAAAGTTGTGAGTTAATGCAGAAGCTTAACT ATTGCAATGAGGACATATGCGTAATTCTTGTCCGTGGAAAAGAAGTCCCTAGATCGATCCTGGAGGCTTCAAAGGGCACA ACTGAAACAGATCGGCGGGTTTCCAAGCGCTCCCGGAAGACAAAAAATGGGAGTTCAGTTATGCTAAAAGTTTCTGCTTC GACATCAATTTACCAGCTGAAAATGATGATATGGGAATCATTTGGGGTAAGCCAAGTTTGCGCTGTATGCATATTATTTG TCTGGTTTAAAATGTTGGCTGTCTAAGCTCAAGTGGTTAAAAATGGTCAAGGAATATCTCAACCTTTAGGCACAGGAAAA TGCTGGAGTCAGATATCTTTTTGGACTTATTTTTCTACACCTCGTTTTTCCCACCTCTATCAACCTTTTCCCATTTCATC TCTAATTCGCTCTCTCTTCTTTTCCATTCTCTATCTCCCATAGGCAGATACACCTATTTGAGGTGTACAAACATAATTTT TCTATCTGTTTTATCCAAATGATGGGTTGCAATGGCATGCTTGTCGGTTCTTGGATTAGAAGTTATCCATACCGCTTCAT TCCATCCAAGAACCAATCTTGAAATTTCAATATTCTGGGTATTCTTTTCTGGTGTGCACACACATATTGCTACATGAAGC ATATATAGATAGGTTCTTGTTTTATAGTTATGAAAACCATTACCATTCTTTGGCCCCTAATTGTTTAACTTTTTAGCTCT TAAACATATTTCAAAGCTTCACTTCCAGTACGGGGTAGGGTCAAATTTCAGTGATAGAACCTGAAACTCCAGAATATTTG GATTAAGGTCTCTGTACTTGTCTGTTTGTGTGAAAGCATTTAATATGACATTGAATAAAATCTAACTTGGATGGATTAGA CATGAATTGAAGGTGATGGCTTGGCAAACTGAAAATATTAGGAAAGTGGGATGGAATATGATCTTCCTCTTTCTGTTGCT AGTAGAGGGTGGAAAATCACTTTCCGACTTGAACTCATTTTCATGCGATGTGAAAGGCTAAATGTATTCTGGTTATAATT AGGTGTATGTTAATTTCAACTTTCCGACTTTGTTGTGCCAGGCTTGTGTGAAGTGATTTTGATTCTAACTCGCCTCCCTA CTTTTCCACCTAAATAAGCGCACCTGGCATAAATTATCAAAGTAATTAGGTTTTCAAAAAGAGGGTAGGGTTTTGGATGC TTGAGAGAAGACAAACATAGGTTACACAAATTTAATGACATTCATGGAGGTGGTTATATGATTGGTGTTTGCTGATACTC CCTATTGTGATTTAGTTTTTATATTGCAACCAATTCATTGCTTCATAATGCACCAATTTTTTGTTCCCACATCTGGTAAT TGTACTCTCAGGTCGTCAAGGAAAACCAGATTCTGCAAAAAGGTGATCAAACAATTGATATTGATGATGAGTGTACTACG CTTGTGGATGTAAACATATTTGCTGGAGACCAAGTTATAGTTAGGGACTCTGAGATCCATGAAAATCGAGATATTGCTGG TAAGCCATTTGGTACAGATACTTGATTATCTTTTCCCTTTTATATTATAAATGTCTTCATATTCATCTTTCGCAGATGAG CTTTGTGACGAGAAAATGGATTCGCAGCATACCGAGGAAGGGTTTCGCGGAACACTTTTGACATCAAATGTTTCATCTCA GGTTGTTTAGGAATCGCATTTTCAGCAGTATGTATTTTTGTGTGTCTGTATAGGCGTCTCAAGAAAAAATCAAATATGAA GGAGAAAAGAAATAGTTAGGTGGGATCCAACCATGTAAAATTCCTTATGCCTCGGCCTTAGCGGGTGTTGAACGCTATTG GTCTTTAGCCACCATAATGGCAAATTTTGGATTGTATTGTTTTGATTTATGTACATATGAGCAAAAGCTCAAGGGTGAAG GAGGCAACCTTATTTAAAAGTCAAGGCATGCCACTTAATTAACCTACTATTATTACCACCACAGTTTTTGACTATTTATT ACTACTGATCAACTGTTATAAAGACTTATTGTGTTTCGCTAATAATTACTGAGGATTCATTTTTTATAATACATTTTTGA GTTTAATTTTTATGCACCAATGGTGTAAAGTTTTTTTACACCGTCAACCAATCAGATTTCAAGAATGTGAG
CDS sequence (LotjaGi5g1v0064500.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAGTAGACCAACGACTCGAACAAAAAATAAAAGGCTGAGACAAGGGGATGATGGTGCCAGCACTTCTGAAATATGGAG GAAAATTCACAAAACTGGTGTTGTAACTGAAGAGGATATGAACCAACTGTATATGATTTGGAAGCCGGCGTGTTCGGGCT GTCGAGTAAATACTAAAGATAACCCGAATTGCTTCTGTGCTTTGGTTCCACCTCCAAATGGAACCCGGAAGTCTGGCTTA TGGCAGAAGATGTCTGATTTTGTTGAAAGTCTTGGTCCTGACCCTAACAAGGATCTTCGTGAGTCTGCTGATTCACCTGC AGGTTTGACAAATCTTGGTGCAACATGCTATGCCAACAGTATACTCCAGTGCTTATATATGAATAAAGCTTTCCGAGAAG GCATATTTTCTGCAGAAGTGGATGTTTTGCAGCAGCAACCAGTGTTAGATCAACTGGCTCGGCTTTTTGTACAGTTGCAT ATTAGTAAAATGGCCTTCATAGATTCTTCTCCATTTGTAAAAACACTGGAGTTAGACAATGGTGTTCAGCAGGACAGCCA CGAGTTTCTAACATTGCTTCTGTCATTGCTTGAGCGTTGCCTGAGCCATTCCAAACTTCCCAAGGCAAGAACTTTAGTTC AAGATCTTTTCCGGGGAAGTGTGTCTCATGTGACTACGTGTTCACAATGTGGAAGAGACTCTGAAGCTTCTTCCAAAATG GAAGACTTCTATGAGTTGGAGTTGAATGTCAAGGGATTAGGAAGTTTGGGTGAGAGCCTAGATGATTACCTTACTGTGGA AAAGCTTCATGGAGAGAATCAATATTTTTGTGAGTTGTGTAAAACAAGAGTTGATGCTACACGAAGCATCAAGCTGCGTT CCTTACCTGATGTCCTTAATTTTCAGCTTAAGCGTTATGTCTTCCTTCCTAAGACAACTACAAAAAAGAAAATTACTTCT GCATTTTCATTTCCTGCTGAGCTTGAGATGCACCATAGATTGTCTGAGCCACCTCAATGTGAATTGATATATGACCTGTC AGCTGTACTGATTCACAAGGGAACTGCTGCGAATAGTGGTCATTATATTGCTCACATCAAGGATGAGAACACTGGGCAAT GGTGGGAATTTGATGATGAGCATGTTACTAACTTGGGTCGTCATCCATTTGGCGAAGAAGCTTCATGTCCAACTTCTAAA TCTGTTAAAACTGATGTAGATAATTCTAATATCTCTGAAGCAATGGTAACTGACAACAATGGAAATGGTTTAAGCACCAC TCACTCACAATCCTCGCAAGTAGAGACATTTTCATCTAGTGATGCATACATGTTGATGTACCACCTTAAGCGCACCAAAA ATGTTGATGAAAAGGGGGGCATGGTTTGTGGTGCTAACCATCGAGAAAGTGATGACGGTGCAGTTACTGCACACGAAAAT GGTTGTCTTCCTTCTCATTTTTCTGAAGAGATTCAAAATTTCAATGCTTCATATGTTGATGCCTGTGAGCAATACTCTCA TAGGAAAGAGTTAGAAGTGAGTCGTATCAACGAGAGGAAACAGGAAGTTCGATCTGTTTTAGCAGAAGCTCCTGTTCAAC CGTTGGAGCAACCATACTTTTGGATTTCTAGTGACTGGCTTCGCCAGTGGGCTGAAAACATTATTCCAACTGCTATCGAC AACACGTCCCTCCAATGTTCACATGGGAAAGTCCCAGTGTCAAAAGTTGCCTCAATGAAGCGATTGTCTTCTAAAGCATG GGATCAATTATTGTCTAAGTATGGTGGGGGGCCAAAACTTGCTCATGATGACTGCTGTTGGGATTGCCTGATTGATGGAG CTCAGAATGTGGTGTCAGCTGACACTTATCGAGATCAAAGAGAGTCATTGAAGCAACTTGCACGGGAAATTCTTGATGGA AACTGTGAAGATGGAAAGTACTATGTGTCCAGACCATGGTTGCTGCAGTGGTGGAAAAGAAAAGTTGTTGATGCTCCTTC TGAAGCTGATGCTGGACCAACAGCAGCTATTACTTGTCCACACGGGCAACTTATGCCTGAGCTAGCCACTGGTGCTAAGC GGGTGCTTGTCCCTGAGTGTTTCTGGCTCTTCTTATACAAAAATGCCACTTCTGTAAAACATGATGATCTTCTGGGTTGC CCTACTTTTCCTTTAGACTCCGGAGAGTGTTCCCAATGCAGTATTGAATTATCTGAAGTAGCTTGCTTGGAGGACTCTTT GAGATTATTGAAACAAAGGGAGCGTCAGACTCATGACAAACTATTCAGCGGGAAAAGTATGCCTCTCTCTCTACATTGCG AGTATTTCTTAGTTCCTTCTTCCTGGATTTCAAAGTGGAGAAATTATGTTAATCCAGCTATCAAGAATTCAGATAAACCT GAAACTTTAGATGGGGTAGTTCAGTCACTGATGTGTGAAAAGCACTCAGGACTCCTTGAAAGGCCTCCTGAACTGATTTT CAGACGCGGTGCTATATACCCAAGAGAGTCTTCTGCTGGTGGCTTAACCGTCATATCTGAGAATGATTGGAAATGCTTCT GTGAAAAATGGGGTGCTATTGAGACCAAAGGAATATCTGCAAGAATTGAGAAAATTAATGATTCGGAGAATGCTTTCCCT GGAACCAATGAAGAGATGCCCATATGTGAGGATCAGTTGTCCAATTGGGATAAAGTGAATAATGAAAGTGAAAATGGCCA AATTGTGATTAGGACCTTTCCTGAGGTTTGTGAAAGTTGCATTGGAGAAAAGGAAAGTTGTGAGTTAATGCAGAAGCTTA ACTATTGCAATGAGGACATATGCGTAATTCTTGTCCGTGGAAAAGAAGTCCCTAGATCGATCCTGGAGGCTTCAAAGGGC ACAACTGAAACAGATCGGCGGGTTTCCAAGCGCTCCCGGAAGACAAAAAATGGGAGTTCAGTTATGCTAAAAGTTTCTGC TTCGACATCAATTTACCAGCTGAAAATGATGATATGGGAATCATTTGGGGTCGTCAAGGAAAACCAGATTCTGCAAAAAG GTGATCAAACAATTGATATTGATGATGAGTGTACTACGCTTGTGGATGTAAACATATTTGCTGGAGACCAAGTTATAGTT AGGGACTCTGAGATCCATGAAAATCGAGATATTGCTGATGAGCTTTGTGACGAGAAAATGGATTCGCAGCATACCGAGGA AGGGTTTCGCGGAACACTTTTGACATCAAATGTTTCATCTCAGGTTGTTTAG
Protein sequence (LotjaGi5g1v0064500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSRPTTRTKNKRLRQGDDGASTSEIWRKIHKTGVVTEEDMNQLYMIWKPACSGCRVNTKDNPNCFCALVPPPNGTRKSGL WQKMSDFVESLGPDPNKDLRESADSPAGLTNLGATCYANSILQCLYMNKAFREGIFSAEVDVLQQQPVLDQLARLFVQLH ISKMAFIDSSPFVKTLELDNGVQQDSHEFLTLLLSLLERCLSHSKLPKARTLVQDLFRGSVSHVTTCSQCGRDSEASSKM EDFYELELNVKGLGSLGESLDDYLTVEKLHGENQYFCELCKTRVDATRSIKLRSLPDVLNFQLKRYVFLPKTTTKKKITS AFSFPAELEMHHRLSEPPQCELIYDLSAVLIHKGTAANSGHYIAHIKDENTGQWWEFDDEHVTNLGRHPFGEEASCPTSK SVKTDVDNSNISEAMVTDNNGNGLSTTHSQSSQVETFSSSDAYMLMYHLKRTKNVDEKGGMVCGANHRESDDGAVTAHEN GCLPSHFSEEIQNFNASYVDACEQYSHRKELEVSRINERKQEVRSVLAEAPVQPLEQPYFWISSDWLRQWAENIIPTAID NTSLQCSHGKVPVSKVASMKRLSSKAWDQLLSKYGGGPKLAHDDCCWDCLIDGAQNVVSADTYRDQRESLKQLAREILDG NCEDGKYYVSRPWLLQWWKRKVVDAPSEADAGPTAAITCPHGQLMPELATGAKRVLVPECFWLFLYKNATSVKHDDLLGC PTFPLDSGECSQCSIELSEVACLEDSLRLLKQRERQTHDKLFSGKSMPLSLHCEYFLVPSSWISKWRNYVNPAIKNSDKP ETLDGVVQSLMCEKHSGLLERPPELIFRRGAIYPRESSAGGLTVISENDWKCFCEKWGAIETKGISARIEKINDSENAFP GTNEEMPICEDQLSNWDKVNNESENGQIVIRTFPEVCESCIGEKESCELMQKLNYCNEDICVILVRGKEVPRSILEASKG TTETDRRVSKRSRKTKNGSSVMLKVSASTSIYQLKMMIWESFGVVKENQILQKGDQTIDIDDECTTLVDVNIFAGDQVIV RDSEIHENRDIADELCDEKMDSQHTEEGFRGTLLTSNVSSQVV
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 |
---|---|---|---|---|---|---|
MobiDBLite | 1 | 21 | 21 | - | – | |
PANTHER | 11 | 993 | 983 | 6.9E-119 | – | |
PANTHER | 11 | 993 | 983 | 6.9E-119 | – | |
Gene3D | 91 | 451 | 361 | 1.4E-78 | – | |
SUPERFAMILY | 106 | 447 | 342 | 2.75E-77 | ||
ProSiteProfiles | 107 | 450 | 344 | 47.8 | ||
Pfam | 108 | 447 | 340 | 1.3E-44 | ||
CDD | 108 | 447 | 340 | 2.33445E-121 | ||
ProSitePatterns | 108 | 123 | 16 | - | ||
ProSitePatterns | 344 | 362 | 19 | - | ||
ProSiteProfiles | 514 | 606 | 93 | 11.497 | ||
SUPERFAMILY | 518 | 604 | 87 | 3.01E-14 | ||
SMART | 532 | 608 | 77 | 6.6E-11 | ||
ProSiteProfiles | 621 | 723 | 103 | 9.551 | ||
ProSiteProfiles | 749 | 869 | 121 | 10.083 | ||
MobiDBLite | 959 | 979 | 21 | - | – | |
CDD | 966 | 1076 | 111 | 4.33688E-24 | – | |
Gene3D | 973 | 1043 | 71 | 1.9E-7 | – | |
SUPERFAMILY | 976 | 1042 | 67 | 1.63E-7 |
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 | Thiol-dependent ubiquitin-specific protease activity | Catalysis of the thiol-dependent hydrolysis of a peptide bond formed by the C-terminal glycine of ubiquitin and another protein. | ||
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 LotjaGi5g1v0064500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…