Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi5g1v0064500
Transcript ID	LotjaGi5g1v0064500.1
Related isoforms 2	LotjaGi5g1v0064500.2 LotjaGi5g1v0064500.3
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

Download Genomic Sequence

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

Download CDS Sequence

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

Download Protein Sequence

Domain prediction

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	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	21	21	-	–
PANTHER	PTHR24006 View details on PTHR24006 Search for proteins/transripts with this domain View external data on PTHR24006	11	993	983	6.9E-119	–
PANTHER	PTHR24006:SF722 View details on PTHR24006:SF722 Search for proteins/transripts with this domain View external data on PTHR24006:SF722	11	993	983	6.9E-119	–
Gene3D	G3DSA:3.90.70.10 View details on G3DSA:3.90.70.10 Search for proteins/transripts with this domain View external data on G3DSA:3.90.70.10	91	451	361	1.4E-78	–
SUPERFAMILY	SSF54001 View details on SSF54001 Search for proteins/transripts with this domain View external data on SSF54001	106	447	342	2.75E-77	IPR038765 Show description in modal box View details on IPR038765 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50235 View details on PS50235 Search for proteins/transripts with this domain View external data on PS50235	107	450	344	47.8	IPR028889 Show description in modal box View details on IPR028889 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00443 View details on PF00443 Search for proteins/transripts with this domain View external data on PF00443	108	447	340	1.3E-44	IPR001394 Show description in modal box View details on IPR001394 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd02668 View details on cd02668 Search for proteins/transripts with this domain View external data on cd02668	108	447	340	2.33445E-121	IPR033841 Show description in modal box View details on IPR033841 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00972 View details on PS00972 Search for proteins/transripts with this domain View external data on PS00972	108	123	16	-	IPR018200 Show description in modal box View details on IPR018200 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00973 View details on PS00973 Search for proteins/transripts with this domain View external data on PS00973	344	362	19	-	IPR018200 Show description in modal box View details on IPR018200 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51283 View details on PS51283 Search for proteins/transripts with this domain View external data on PS51283	514	606	93	11.497	IPR006615 Show description in modal box View details on IPR006615 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF143791 View details on SSF143791 Search for proteins/transripts with this domain View external data on SSF143791	518	604	87	3.01E-14	IPR035927 Show description in modal box View details on IPR035927 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00695 View details on SM00695 Search for proteins/transripts with this domain View external data on SM00695	532	608	77	6.6E-11	IPR006615 Show description in modal box View details on IPR006615 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51283 View details on PS51283 Search for proteins/transripts with this domain View external data on PS51283	621	723	103	9.551	IPR006615 Show description in modal box View details on IPR006615 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51283 View details on PS51283 Search for proteins/transripts with this domain View external data on PS51283	749	869	121	10.083	IPR006615 Show description in modal box View details on IPR006615 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	959	979	21	-	–
CDD	cd01795 View details on cd01795 Search for proteins/transripts with this domain View external data on cd01795	966	1076	111	4.33688E-24	–
Gene3D	G3DSA:3.10.20.90 View details on G3DSA:3.10.20.90 Search for proteins/transripts with this domain View external data on G3DSA:3.10.20.90	973	1043	71	1.9E-7	–
SUPERFAMILY	SSF54236 View details on SSF54236 Search for proteins/transripts with this domain View external data on SSF54236	976	1042	67	1.63E-7	IPR029071 Show description in modal box View details on IPR029071 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0004843 View details of GO:0004843 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0036459
GO:0006511 View details of GO:0006511 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0019941
GO:0016579 View details of GO:0016579 AmiGO InterPro QuickGO	Biological process	Protein deubiquitination	The removal of one or more ubiquitin groups from a protein.	Subterm of View details of GO:0070646
GO:0036459 View details of GO:0036459 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0019783 View details of GO:0101005

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Expression data

Expression pattern

Expression pattern of LotjaGi5g1v0064500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi5g1v0064500.1