Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0196100
Transcript ID	LotjaGi6g1v0196100.2
Related isoforms 4	LotjaGi6g1v0196100.1 LotjaGi6g1v0196100.3 LotjaGi6g1v0196100.4 LotjaGi6g1v0196100.5
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\|G7J6M7\|G7J6M7_MEDTR Ubiquitin carboxyl-terminal hydrolase-like protein; Found in the gene: LotjaGi6g1v0196100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:49247662..49265434) extracted from Lotus japonicus Gifu genome v1.2.

GCAAACAGCTATTTGCCGCCATTTGCTGCCATTTTTTGTTAGGGGGTTATCATAGCCGATTTTTAGTTTTCTGCGATCCT CGATTCCTTGATTGTGTAATTAATTCTGTTTACCTTTTCTCCCCTGGTAGGCTGTTGGAGGGTCTAGTTTAGTTATGGTC GTACTTTTTTCTTCTTCTATAATTTAAGCTTTCAGCTAGTTGCATACATGATAAGTAAGTTTTCTTTTTGGTTCTTCTAA TGTGATAGTTGTGGCTCAACCTGAAACTGCCAATGCTGTGGAGAGCCAGCCTGTTGCGGAACCACCTCCGACATCCAGAT TCACATGGAGGATTGATAACTTTACTAGGCTAAATACAAAGAAGCTTTATTCAGAAATATTCGTTGTTGGTGGTTACAAA TGGTACTTTTCTTATGAGATATACTTAATTGGTTGATGTTCATTTTCTTTTGAATATGCTCTGCTACGTATACTTTTTTT CAGTGATGTCCTCTCCTGAATTTTGTCTTATACTTGGCAGGCGTGTACTTATTTTCCCAAAAGGAAACAATGTGGACTAT TTGTCCATGTATTTGGATGTTGCAGATTCAGCAAGTTTGCCCTATGGTTGGAGTAGATATGCACAGTTCAGCTTGGCAGT TGTTAATCAAATCCAGAATAAGTATACAGTGAGAAAAGGTAGACGTTTCAGCTTGATCATTGCATTTCTTACAAGATGAC ATAGGTTAGTCATAATTGTACATAGGAAACAGCATTGCTGGAATTGAAAGCGAAGAATTTTGCTAGATGTGTGTTGCAAT TAATGGATGTAAGGTCATTTGATACTTAATCATGGTCATGGAGAAGATACTTGTATAATGAACAATCTATTGTCGATCAT TTTTAGTCAATTATCAATGCATATTATATGATCATTTGAAACCTTTACTCTTGTATAATTGTTTTAGGTTTGTTGGTGCT GAACTCATCTATACACTTTGACAACGTTCATATTGTATTTAACCTTTATTCATTTTCTCCTTTTTTTCAAAATTAGGTGG AGGATGAGATAATGAGTTCTATAATATATTTCTGCCCGATGAACTTGTTATCATTACCTTTCTCAAATTTTAAAAAAGAA AAAGGAAGTGAAAATATGCTGAATTTTCGGATTTAGCCATGCATCTTGCTTAACTTCATTACCATGTTACTTACATTATG CAGACACACAACACCAATTTAATGCTCGAGAAAGTGATTGGGGTTTCACGTCCTTCATGCCTCTTGGTGAATTGTACGAC CCTAGTAGAGGGTATCTGGTGAATGATACTCTCTTAATTGAAGCTGAGGTTCTTGTTCGTAGGATTGTTGATTACTGGAA TTATGATTCAAAGAAGGAGACTGGCTATGTTGGGCTTAAGAACCAAGGAGCTACCTGTTATATGAATTCTCTACTCCAGA CTCTATATCACATTCCATATTTTAGAAAGGTTAGAACTCTTAGTCTTATTTTGATTTCCGTGAAATTTACTTGTCTGATT GTGAAGTAATGGGGATGTTGGTTCCTGGATATCACATTTCAGGCTGTATACCATATGCCAACAACTGAGAATGATATGCC CTCCGGAAGCATCCCTTTGGCTCTCCAAAGTTTATTTTACAAGCTCCAATATAGTGACACTAGTGTTGCAACAAAGGAGC TGACAAAGTCTTTTGGATGGGATACATATGATTCTTTCATGCAGCATGATGTTCAAGAACTAAATCGAGTCCTCTGTGAA AAGCTTGAAGACAAAATGAAGGTAACAGAAAGGCCTTTGGTAATATTTGCTAAAAAATATTAACATTGAGTGACCATATA AAATGGGTGTGTTACTTGTTATTAGGGAACCGTTGTTGAGGGAACTATACAGAAGTTATTTGAAGGACACCATATGAACT ACATAGAGTGCATCAATGTGGACTATAAATCAACTCGAAAAGAGTCATTTTATGGTACATATGCATTTTGGATTCAATTT TTTGTTTAGTTGTTCCGTGTCATATGATATGCTAATTTATTTTTGTATTTTCATGTTAGACCTTCAGCTTGATGTTAAAG GTTGTCGTGATGTTTATGCTTCCTTTGATAAGTATGTGGAAGTTGAGCGTCTTGAGGGAGATAACAAATATCATGCTGAA CAGTATGGTTTGCAGGTTAGTTGCTATTTATTAGCTGAAGTGACTTATAACAACCTATAGTCATTTGGGAAAGTTAACCT TCTTGTAATACAAATAATTTTCTGTCATGTTTGTATTTGTTTTGATATTTTTTATATCAAATGTTTTTTTATTAACTCTG GCCATTTCAAAAGTAATAAAAGAAATTGTGGATTTGTCACTGAAGTCTTCTACATCAATGTTTGTGGTCAGATGTTGATG CATCTAAAAAATGTGACACATATTCTGATGAAACCCTGATATTATTCAACAGAAAAATGTACAAGAAACAGATGAGTATT CGAGAGACTCATCACTCTCCTAATTCCCAATTCCCAAATGATCTCAAAGATACCTAAACCCTCTTCACACTCCCTTATTT ATAGGCTAAGCCATAACTAACTAACTAACTCTAAATGCTAACCCTTAACTAACTAACTAACTCCAAGTACTCATCAATAC TCCCCCCTAAACATCCACCTTGTCCTCAAGGTGGGGTAAAACACAAGCTTCTTTAAACAAACAAAAAACAAATACTCCAA CAGTTGGGCCTGGCCCATTAGAGTAAGGGAATGAACTGGTCTGTAGATGATTGAGAAAGAAAAGTTCCTCTTGGGCCCGT TCCTTCTGTTTAGCATTATGGGCTTTGGCCTTGTGGTCAAACTTTGACCCAATTCTGAAAAATCTAGCTGAGCCAGCCTT GCTCTGCTTCGTGTGAACGCGTGTGCGTGTGAAGACAACGGAAAGACCACACCCAACCAGCGACGACGGAAACGAGCGTC CCCCGCCATAACTGCAAAGTCCGGTGGCTTCGCCGGCGGCCGTGAAACGGTTACCGACTTGCGAATGAGCGAGCGCCCTT TACTCTCCTCCGCGCGAACTAACTCGAGGCCACAGTATCCCACCACCGCTGTCTCAGCCAAATCCGGTGGCTTAGCTGGA GGACGGTTGGCCACCAAGTCCGATCTGCAAGAATCGCCAAGGATGAAGTGTGAGCTGCCACCACTGCGGTCTGGTGGCTT AGTCTCCAGTTGAATGGCAACCATCGAAGAGCAAAGAACAGAGGTCTGAATGAAGACCTCCGTCCAGCAAAAGAACGTGT CCGACAGTCGATTGGCGGTTACCGCCGTGCAGAGACATGAATCCGGCGGTTTCCGCGGCGGCCGTCTCTCCCAATCGAAC CCTAAATCACTGATTTGGGGCAAAACGATTGGTTGCACCTTCTTCCTTCCATGAATGCTGCAAATCTGCCATTTCTCCAT TGAAGAACCTTCCTGTAACCGCTTGATTTTGATTTCCCCTTCGGCGTCGATCTTCTCTCCTTTCGCCGTCAACGTGCAAT CGATGTAATCAACCACGGTGACCGGTTGACACCGTGACACCTCCGCTGTTTGCTCCGCCGCCATTGCAAACTCCGAGTCT TTCCGCGACGCTTCCATCTCAGAATTCTCCGGCGAATATGGCTTGATCTCTGATTTCGCCAACAGCACTGAATTGGCCTT AGGTTTGGCTTCCACCACAACAGTTCTTCGTTCTGCCTCCAAGACTTCTTGCTTCCCAGGGATTTCTTCCTCCTCTGAAT CTTGGACTGGTTCTGGCATGTACGGTTCCAATTCTGGTTCGAATTTCCTCAACAGAGCCTCCACAAATTCCCACCATGTT GCCTTCTGATTGCGTCTTCTCCAGCAAAACCACCACATGAAAGCTTCACCAGTCAAAGCCTTCTCTGCCCCTGAGAATTT CTCCTCTTCGGATACTCCCTTGGCCTCAAAGTGTTGCTCCACCATAATGAGCCATCCGTAGGCCTCTCTTCCATCAAATT CTGGAAACATCTTCACGAATTGATGGCAATCACAGCACCTAGATCGGTGCTCTGATACCAATTGATGAAACCCTGATATT ATTCAACAGAAAAATGTACAAGAAACAGATGAGTATTCGAGAGACTCATCACTCTCCTAATTCCCAATTCCCAAATGATC TCAAAGATACCTAAACCCTCTTCACACTCCCTTATTTATAGGCTAAGCCATAACTAACTAACTAACTCTAAATGCTAACC CTTAACTAACTAACTAACTCCAAGTACTCATCATATTCTGATATACCTGTAGAATTTTATAAGGGGTTCAATTGTTTGAT CGAGGCCCACAGTTTGGAAGGTTTATTTTAGGAGGAGAAGAAAATCTGCCAGCATGGCAGTTAGTTAGAAAAGGAGAGGA TTCTGCTTGTAGTGAGGGGGAGTTTAGGGGGATAGTGAGGAAGGAGGAAGGGGGATGTGTGCATATCATAGTGAGACTGT GGAGTAGAGGTTTTTCTCTAGGAAAGGAATGCCTATTGTTGGAGCTGAGGCTCTAGCGAGGTACAATCAGTATCTACTGT GTATCTCTCATTCTATTAATATAATAAATTCTGTTTTTTTCTTCTTGTATTCTATTAGCTGGAGAGAGCAAGAAACTAAA GGTTGACAGCTAGATAAATCTCGATGTTCTTAGAAAAGCTGAAGGGAGATTCAAAGAGAGTCTGGGGAAGCTTTGCTTCA TTTTCTGTTTACATGTTATTCTGCCTTTTCTATTTTGGAGGATTTGTTATCCAAAGCTTGTTCGACAGAAGTAGGGTCAG CAGTAGAAAGTAAAAGAGTGGGCTGCATATCAGGTTTAGTTATCCCTGATTTCGATCTTGTCTGCATGGAGTAGGAAGGT GGAATTAAAGGATGAGAAACAGGGGAGGAAGGTAATGAGAACATGAGTCAGAGGGTTTGTAAAAGATGAGCCCTGTTTCG GAATGTGACAAGCTTACTGTAATAAGAAATGCACGAGGAACAATTCAATATACAGTGGCAGATGCAAGTGAATGCAGTAG GTTGGGAAAGTCCATATGAAAGTTGTGCTGCCGAAACATACTAACAAGTAAGAAAAAGCCCAAGCTTACAGTGAGCATGG GCATTTTTAGAGCCTCATGATGAGAAAGCCCAAGCTTGCAATGCCACATATTATATGTTGTGGGACCTACAAGCTACAAC AGAACTAACTGGTTTAATAGAATCTTGATTTTGTACATTGGAATGTAAAAAAATAGATAGGGAATAAGTTACACCAGTTA ATGTGTCATTGGTAAGATGTAGGGACTGAGGAGTGCAAGCCATCGAATCATTATAGTCCATCACTGGGCTTCATCTGAGA AGTATCTGGGATTTAACAATGAAAAATGGTGGATGAAATTAAAACTAGACAGAAGTATTGCGAGCAAACTTACTCTCACT TCATTGATTTGAAATTATGGACGAAACTAGCAACATTCTCACCCGAAGCTATCTTTTTTGGGTTAGAGTGAAGGGTTTGT ATTGAAGGCCCACATTGGTTAGAGAAGCTAAAGTAGTTCTTATATAGGGTTGGACAATACTCACTCCAAAGCTATCTTTT TTTAGTTACAGTTAGGTCTATACTCAAATTCTTAGAGTACTTTTTGCTTTGAGGCTGTAAATGTTAATGACTGGCTGATC CCTGATTGACTTTTTTTGCCCTTCTATGAATCTTATTAATTGTACAATTTAATTTATTTATACTTAGCTTTATGGCTTCC AATATTATTATATTACTTAGAAGTAATTTTTTTGTGTATTTCAAACATTTTGTTATTTGCTTGGAACACATTCATGATAT CTTGTTAAGTTGCTTGCTTGTATTTAATGTCAATATCTAAGCATTTCCATTTTTATTGAATTTGATGCATAAACTGATGT ACTTTTCAATGGTACGATTGTTTCAGGATGCTAAGAAGGGTGTCTTATTTATTGATTTTCCTCCTGTCCTTCAGCTTCAG CTGAAAAGATTTGAATATGATTTTATGAGAGATACTATGGTTAAGGTGGGTAGTCCAATTTTGCTTTAAACCTTCTCTTG ATAATTGTTTGCAAGGATGTTAGTAGTGTCTTTCTATTAGATATTTTACCACTTGTTGCACTAAATAGAGGATTAGTTGG TCTAACTGCTATAAATAGTTAGGTGCATCTGGCGTGGTCTCGCTATTATTACATTAAACTATAATCATGCTTTACAATGT GGAATGCTACTGGTATCCACTGTTGTAAGTATGAATTCATTAATGTTAGTTTAATGTTACTACTTTATTCATGCAACGAG TAGTGGCTTGTCTTGTATATGGATGCATTTTTACATCTATATTTTGAACCACTGCATAGAAGGAATTTTTTCTGCAAGAG TGATCATGGGGATTAGCTATTATCATGAGTTTCTACATTTCTGTAAATTTTTCCTTCACTTGTGGAGAGGTAACTCTTTT TTTATTCATGAAGTATTAATTATGTCTATTCATGTAGATTAACGACCGTTATGAGTTTCCATCAGAACTTGATCTTGACC GTGAGGATGGAAAATATCTATCACCTGACGCAGATAGGAGTGTCCGCAATCTTTACACACTTCACAGGTAACGTAATGTT AGCGTTTGCTATATTTGTCGAAGATTGCATGAATATGTTGTGTGGGCTAGTGACCTTTCTAATTTGTTTATTTGTTTTTT TCCCTTCACAATTACTGTTTTATTTGGTAGTTGGTGATTGGGGACATGATTCCTAATTGTCTTTGATTCATTGAAAGCAT GATACCATTTGCATATTCACTGTGCACGTTATATAAGCTCTTTCCCTCTACTGTGTTTCTCTTTCTTCGGAAGCCCCGTC ACTTTTCCGGCAGCCACGGTCGCTTTCTGGCAGACATTCCTAATTCATGATCCCCGATAGACCCACTGTTCACTGGTGCA ATATTTTCTTTTCGGGATCCATATTCTTCTCTTGTTTCCGGCCTTACCCCCATTGTGTCTCATTTCGACAGTTTCTCATC CCGTGTACCTTTTTTTTTTGATTGGTTCATTCATCCTCTCTCGTATACATTTGGTGTAATATATTTAAGTAAATGTTGTT TTGCATGAAAATCATTTCATGAATGTTTATGCACTGATGTGACTTTTTTAATGCATTGAATTGGGGTGTGCAATTACTGT CACAACTGCTTTCTCTTTGATTACTAATACTTTGTGAATTGTCCCAAGTGTTTTCCTTTTGTAGTTACCTTATTAATAAG TTTCTTGTACTAAATAGCATTGCTCTTAAATTAATGATATGTTAAGTGTTATAATTTCTATTTATCCATGTTACTGAAGA CCGTCCCTGCGCAATTCGTTTTATTTATATCGGTCATGGATTTTCTGTTTTTAACTCGTTTAATTTTTTTTCCCCAGTGT TTTGGTTCACAGTGGAGGAGTGCATGGTGGACATTACTATGCTTTTATCAGGCCAACTCTCTCTGAACAGTGGTATGTAT ATTAGTTTATCTTATGTTTATTGTCATTTGAGCTAGCATGTATGTAATGGGGCCATGGAACATGCATAAATAGCTGCATG AGAAGAAGAATCAGTGTTGTTAATCGCGGATCGCGAAAATAGCAGGAAGACAAAAATCCGCTATGTCAAGCCCTCAGAGT ATAAAATAGCGGCGAGCCCTCAGAGCGCTACGCTCTAGCGCCGCTATATCAGCTATTTGACAACACTGAGAAAGAATTAC TTGCTGTCGTTGAACACATTGTTTTCATATCTCAGATTGTGTAACTTGTCTATATGCATAATCATTTTGGCAACTGCAAT AACTAAAAGAATTTGAAGCCACATAATGTCATCATGAATGTTACAGATCAGCTATTTGTAGTCATCTAATGTTGCAATCA GTAATTATGACATGACATTTATTTTTGAGTCTCAGATAGCTACACAAATCCTATATTATTATGTACTAGCCTTTCGTGTG ATAATCAAACTTCTAATATCTTTTTGGACTTCCAAGAGAATTGATTGTCTTTATTCTTTATTTACATGACAATTTTCTAT CCCATGGAGGTTTACTAATGTTGCAAATAAAACTTATTGCTTACTTCTTTTTTTATATGATTGGAGGAAGTGAAGTTATT ATTACTAATGATTGAATCTTCATAATTGATAATTATCTTCAATTTAAGGAAGGCAAACTTAATAAATGGAGATCCTTATT TTGTTTAAGAGGACTGCTATTTAATACGAACAGGGAAAGTTGCGAAACATAAGAATCCTCTCGTGGCCACATTTCATTGG TGCTTAATGTAATAAATGGTTATTAATTACAAAATCTCAAAGACAGAAAACAAGGAAATGCAATGGTATTTTAAGTTCTT ACTTTTTGTTTCATAAGGAACATCAATTCTCTTTGTTTAATTCTTAGCAGTTGACTTTGTTCAAAATATTATATGTAGTA TGAGGTTAGTTGCCTGAAGTATGTTCTATGTACTATTTGAAATTAGGCTTTTGTGGGAGTCTGAAAGGATGAATCTTTTC CTCGGTACTTTTTTGCTTGATTTGTTGACTAGAATTTCAATAATCGTTATGCTTGAACATAGCTACAGTATGCAACATAC TGAGACTGAGAGGCGCTTCACCTTCTTTTTGCTGTTTTGAATTGCTCTTTTTGGTTCTGTCTCTGCCAATCAGTACATTT TTACTGAGTATCTGACTGGCTCTCAGGTACAAGTTTGATGATGAGAGGGTGACTAAAGAAGACAACAAACGGGCATTAGA GGAACAATATGGTGGTGAGGAGGAGGTAATTTCTTTATCATTATTGGTCATTACTTCTTATCCTTCTTGAAAATTTACTT GTTAATGGTTAACCGTTTGTGTTTAAACAGTTACCACAGACAAATCCTGGATTCAATAACGCACCATTTAAATTCACCAA ATATTCAAATGCTTATATGCTGGTGTATATTCGTGAAAGTGACAAGGACAAAATCATTTGCAATGTGGACGAGAAAGACA TTGCTGAACATTTAAGGGTAAGCATATACCTTATCTACTTTTAGGGCTCAAAATGAAGTAAGTCAGGTTGAATGGGAACG AATCCTCTCAATTAAAACTTGACCATGTTAAGTATCGCCATCTAACCATTGATTCTTGAGCGTTTAATAATTAAAGAAAT TAAAAATAAATAAATCAATGGTTACTGGTTAGATGGCGAAACTTGACATGGTCAGGTTTTTTAACAATTGAGAGGATCCA CTCTCAGGTTGAGTTTTATGTAGTTTAACATTTCAAAATGCTATGTTATTTGATGATGGATCCAATAAAGCATGTCAAAC AACTTAACTGTTGCAATCAACTTGATGACTGCCCCTGCCGCCCAACTTGTCATTTCCCCCCTTATTCTTGTACTATTAGT TTGCTTTCTATTGAGAATGCTCCATGGTTTATGAACCTCTTGATCCAAAATTAAGTCGAGTCTTGCTGCTGTTCTCTGCT TTTTTTTTTGTAATTGTATTGTTGGAGTCTATTAAGTAGAAGGACAGGGTTATTTATTTCTGTCGTTGACTGACAGCTGT AATTGGTTAAAGTGTTTTTTTAATTGCAGCTATCAATTAAGAATAATACAGAAACATATATAAATTATCCTACTCGCTAT ACTCGATATACTCCAACATGTATTTTTTCTGTTACTTTATTCTGAAAATCTGGTGTGAGCTTTTGCAATGGATTTGATGC AGGAGAGATTGAAGAAAGAACAAGAAGAGAAAGAGCACAAAAAGAAAGAAAAGGCAGAGGCACATCTGTATACTATTATA AAGGTTCTTAGTTCCTGACCTTTGTTTTGGTATCAATTGAGCATTTCTACTTTACAAGGCACTGTGAGCTACGTCATCCA ATTATCTTTTATATTACTGATAGCATAATGCTTCTTAGGTTGCACGAAATGAAGACCTTGGAGAGCAGATTGGAAAAGAT ATATACTTTGATCTTGTAGACCATGACAAAGTGAGGAGTTTCCGTGTCCAAAAGCAAATGTCTTTAAACGTTTTCAAGGT ATCATCATCATTCTTCCTTTTCACCTAGTGGCCTGATCCTTAAAAGTATTTAGTTTCCGAAACAAAGTAGTTTTGGAAAA TTTAATTCCGGAAACAACAATAATCCCTTTTTCGGCTATATCCCTTATGCTCGATCAAAATCCAAAATTTGTGGAATATT GTTGACCATGAGGTTTCTTTTAGTAATATTGTCCAACGTTCCTTTTTGCCTCCTCCTATCCCTTTTCACAGGACACAAAT TCGGCGTGTACAATCCATATTAAAGATAAAGACCAGTTTTACGTTGGTGCTGGTGCCGCAAGCTAACACAACATTCCTCC TTTACCCGGAAACAAAATAAATGAAGTAAAGATAACCGGAAACAACATAAATGAAATGAAGTATTATATTAAAGATAATT GGGCTTAGGACCGGGTATGAAATAAGATATTTTGTAATTATTGCGGAAACAACTCTAATCTAAATGATAACAGGCAGTCT TATGTTGGTTGCGACATGCTAACACAACATTCCTCCTTTACCCGGAAACAAAACATATGAAGTAAAGATGACTGGAAACA ACATAAATGAAATGATTTTTTATATTAAAGATAACCGGGCTTAGGACCTGCTATGAAATAAGATATTTTATAATTATTGC GGAAACAACTCTAATCTAAATGGACGCCATGGGTGGTGACAGTAAGGGTAAAAAAGATATTTTATTATTGCTAGGTATTG TGGTTAGAAATAAAATGATATTTTATTTTGAAAATGGGAAAATATATTGAGTTGATGTGATCTGACATCTTTTGTGGTGA TAATTTACTAATTTAGAATGTTTGTGGATGGCTGTTGAGTTTATTAGAGATTTTGTTTAAATGCTCCATCTATTGTAACA TTGTTTCTTATGTCTGTTTGCATAATCTGTGATATACAGGAAGAGGTTGCAAAAGAGTTTGGTGTACCAGTTCAATTTCA GCGCTATTGGCTTTGGGCAAAACGGCAAAACCATACCTATCGTCCTAATAGACCATTGACACCTGCTGAGGAAGCACAAT CTGTAAACTTTCTTGCTTTCTGGAAGATTTTTCAAATTACTTTTCCTTCTTTGTTCCGCTTCATCCTTTTTTTAACTGAC TGTTGAATTTCATGATTAAAGGAGATATATTTTATTAACTTATAACATCCTCCTCTTATTCCTTCTGTCATTTATACTAT AGCTTCATATCATTTTGTGTCAGCCTATTTAATTATATGATTATGCTAGCTGGCTGCTTGTTTAGATTCCATTTATTGGG CTAGATATATGGTTAATTTTTTGTGGGTGGAGTTCTTTATTTCCATCCTTTGCTCACAGGTTTCTTTTCTTTTTCTTGAA ATGATACATGCAACCTTTTTAATTATTTTCCATATTTTGACTTGGATAATGTGGTTTGTTTTCCCTGTTCTTGGTGTGCT TCCGTTTGAGGTTCTTCTTTGATTTGTTCTCAGTTCTGGCAGTGTTCAGATTTGTAAGTTTTCCTAACTCACCATATTGC AGGTCGGACAATTGAGAGAAGTGTCCAACAAGGTTCACAATGGAGAATTGAAGTTGTTTCTGGAAGTTGAGTGTGGAATG GTAACATTTGAATTATGGAATTTGTATACTATTTAAATAGCATGAAACATCAATACCCAAACAGTCCCGTTGAACATCTG TATTGTTGTTTAGGATTCCCATCCTATTGCACCACCTGACAAGACAAAGGATGATATATTACTTTTCTTCAAGCTATACG ATCCTGAAAAGGAGGAGCTGCGGTACTGAGTAATTTTCTTTATTTTGTCATGTTTTGTATGATACCTTGGTTGACACAAG ATTTGTTTCCTTATAATGGCAGTTATGTTGGACGGCTCTTTGTTAAGTGTACTGGCAAGCCCTCTGAAATCTTAACGAAG CTAAATGAAATGGCTGGTTATGATCCCGAGGAAGATATTGCACTTTATGAGGTTGGTTTGTATTTTTTCCTTTAATTCAG TTGTAACTTAGTGAATTTAGGCTACCAGCAATTCATTAATTTTGCTTGAAAATTCAAAATTGGAAAATCCCTTTTGAATG ATCAATTCTTAGTTAGAGAAACTACTAGATTTGTAGCTGGGATGATAATCATGAGTGCTATAACAGATTTTTTAAGTAAC TATGAACTTCTGGTATCACCGCATCAGAGCCTCATATTACCTAAATTACTGTTTCTGTATTATGTTATTAAGTTTTGGGA ATCATCAAATCTTAGAACTTTACTTATTATTTTCCTAATTTAGTTATAAATCTTATAGATATATTCTCTGTTTATATAAT TGAGTTTTCTGTTGGAAGGTGACTGGTGTTAGCTATGACCTGTTTAACCTTTGGCCACATGATAGGAGCTAGTATCTTTA TTACTGAGAATAAGGAAAACTTCCTTTATTGCAGATTAGAACTAGCAGGAACTTTAGGGTCTGCCAAGCCTCCCAATGTC CAAGGGCCTTAAACTATCTCAAATGAATAGACACCCCTCCCTCTCAACCCCTCTTCCTATTTATCGGCAACATGCCTTAC TCACTATCCCTCTAACAAACTATTATTCTGTTAACTAATTAACTAACTCATACTACTAACTTACTGTACACAGAAGTGTA GTATTTTCTTTATTTATTGTATATTCAATGTTTTAGTCTCTAAATTTACTTGGCATGGCATTAATGTATTATTGCATCAT GTTCCATAGAAAATTCTTTCCTGCATAAGTTCTTCCAAAGAGGGAAGGATCCTTAGCTGCAATCTCATCTTCTGTTTCTG ATCTGGATGAAACATTCTTCTTCCTAGTTGTTACTTGTTAATTAATGAATTGTCTGAACCTTGATTTGTGCAGGAAATTA AGTTTGAACCAAATGTCATGTGTGAACCTATTGACAAGAAAGCAACATTTCGAGCAAGCCAGGTGAGTTATATCCACAAT TGATGCACAAATTAGTTGTTTGGTTCAGGTTTTGAAAAAATATTCTTGGGAATCTCAAGAAGGGCATTAATGGGAAATGG GAATGCGGATTTTATTGTATGTTTGACCAAAATGTTCGGGGGGACTGATTCTGACTGTTGGTAGTGGCAAGGAGTGGCTG GATTCCAGTGACCGGCTGTGATCTAGCACTGGCTGTCGTCAACACCTTACAATGGCAGAGGCCAGATGGTTTATAATTTT AGTGACAGTTGACAGTGACCATGTTTGGCCAGCGTCAAATGACAATAATAGCCAAGATTTGTATATTCTGGTGATTGGTA ATGGTAGCTGAAGTTGTGATAGAATTCTAGGGTTTATAGTAGAGTGAGAAAAGGAAGAGAGAGTGAAGGAGAAACTGAAT ATGACTGTACTTTCATCCTCGGCGATCAGTGTACAATGCACATCACTATCATTTATATGAAGAAGTGAGCTCCTCTAACT GTCTAATGGTTAGTAACTAACTGGACAGTGATGTAACTAACTGTCTAACAGGTAGTAACTAACTGTAACACACTGTAACT AACTACAACTAACTAAACTAGCTTAGGTAAACAGTACAACAAAAAGAATACTCTCTTCCAAGTTGCCAGTCACTTTTGGT GGTAATAGCAGAGGGTGGATTGCTTCTGACAACTGGAGACTGGGATGTGGCAGTTGTGGTCAATGGCTGCATCTTGTGGT GGTGGTAGGCTGATGACATGTTGGTACAACTTACAAGGCCCAGTTTGTGGCGACTCACGAAGCTTGTTTGCCCCTATGCC TTGGGAATAGAGCAAATCCCTACCCCTATCTCCTCCAGATGAAAGTGTGAGAATGGTTAGCAAAATTATTCTCAGGAATC AGTTTTGATTGGGAATACTTTTTGAGATGGTTTAGCAAAAATGGAAATATAATATTCCCTTGTAAAGATTCTCAGGACTC ATAAAAGATTGCTTGAACCAAGTACCTCAATTGAGTTACTAAATCTTCTGTTGGCATATTGATGTGTATTCTATACTTGC AGCTGGAGGATGGTGATATTGTATGCTTTCAGAAAGCTCCACCTGTGGATGGTGAAGAGCATTTCCGCTATCCAGATGTG CCCTCATATTTAGAATATGTGCACAATCGCCAGGTACTTTTGTATTTTTCATTACTTAATGCAGCAGTTTGTTTGATTTT AGATTATGTGGAAATGAAATCTTCCAGAACTTCTATTCTGTCATATTTATACCTTAAATATCATAATTTACTTCTGTACA CTATGGGCACTGGCATTTACATATATGTGTGTATAAACAGTCAAGCTTGCAAGTTCATTATGTTTATATTAAAATTTAAC AGCTAAGTTGCTTTGTCTATTTGCTGTACTATTAGGTGGTTCACTTTCGATCTCTGGATAGACCTAAGGAAGATGACTTT TTCTTAGAGATGTAAGCTGCTTGGTACTTATTGGAGTAAATGAAATGAACTATTTTACCAATGGGAAGATGAAAATATTT GTATGTTATTATGCTTAACATTCTATCCTTATTCTTATACTCTTATTTATATTGATTTCTAGGTCAAGGCTTTATACATA TGATGATGTGGTGGAGAAAGTAGCGCAACAACTTGGTTTGGATGATCCATCTAAAATACGGCTTACCCCACATAACTGCT ACTCTCAGCAACCAAAACCCCAGCCAATTAAGTACCGAGGGGTGGAACATTTGTCTGATATGCTAGTTCACTACAATCAG GTAGTTATGGTTAGTTAACTCCTTAATGGTTGTTCTTTGAAGTGCTATACATCTGATTCCTTTCTTCAATGTCAGACCTC AGATATACTATACTATGAAGTACTTGATATCCCTCTACCAGAATTACAAGGTTTGAAGACTCTGAAAGTTGCATTTCATT ATGCCACGAAGGATGAAGTGAGTATGGTGACCTGCTTCTCTTCCATTTTCGGCTTGATTTCTCTCTTAACCCGTTGCTAT ATTTCTTTAATTTGTTCAATCAGGTGGTTAGTCATACCATCAGACTTCCAAAGCAGAGTACTGTGGGGGATGTCCTTGAT GATCTTAAAACAAAGGTGAAGTTGTTAAACTTTTTTCCTTAAACTTGCATGCATTGCATTTGCAGATAAAAGAGTTATGG TGTTTGCACAACTTTATGGTAACAGGTCACCACTGCACAGATAGAGCACACATGGCTTCATTTGAATTGTGAATTCTAAA GGGAAAAAAGTTGTACCACTTAGATGAAACCATCTTTGCCTGTTTTCAGTAGTTGTGACCGCATTATTGTGTAATTTGAA AAAATATTGCCAACTCTTTCCCCAATTAATAAATTTTCACTTGGTAGTATATTATAAATCTGTATCTTGCTTACCTTTTA CTGTTGGTGCTCAGGTAGAGTTGTCCCATCCTAATGCCGAGCTTCGGTTGCTTGAAGTTTTCTATCACAAGATATACAAG GTATGAACTGAATTAAGTGTATTTATAATGATAGAAATGTATATAAAAGGGAGATAAATCTTAAACTGAATTAAGTGTAT TTATAATGATAGAAATGTATATAAAAGGGAGAGAAATCTGAAACTGAATTAAGTGTATCTTGTAAAACTAGTTGGTACTG TGTGATCAACTCTATTTGTAGAGTTGCAAAGCTACCAGCAGCTTCTAACAGAAGGTTAACAGTTCGTTAACAAACTTGTA CAATCTTAAACTAACTGACAGCTATATGCAACTAACTGCTAAACTAAAAGTTATGCACTGAACAGAATTAGATATTACAG AACACATGTAACATAGATGAGTGACAGAGGCATATATCTCGAACATTCCCTCTGTAGATTCAAGGGGTAGCTGAAGGAGA GAACACCCTGAGTTTAGACGGCCTTAGTAAGGATGTCTGCAACTTGTTCATGGGTTAGAATGTGTGGGATGCTGAGTGAC TTAGCCAAAACCTTTTCCCTGACAAAGATCACATCTAGTTCTATATGTTTTGTCCTGGAATGCATTACTGGATTATGGTT CCGCAGTAAGGAAAACAAAGTAGGGTGTATTTTGGGCATAAAACTTCCTGACATAGACCGGGTCTGCATAGGATGAATAA CATGGATCCTGGAGAAATAGGTACAGAGAGGAATTGAATATAGAGGGTTGAGATGACTGGCCAGAATTGTCTGGGTTGAG ACTGCAGGTGACACAATATAAAATTTGACTTGACTTCATTTTTTAATATTTAATGTTAGTTTTTTATTAAGTATATTGTA TATTATTCATAATATTTATATAATTGTGCCAGTTCGATCACAGTTAAACTAATTCAGTGTCGCTTTTTAAAGCACTGTGG ATGATGTTATGTCAGTATTGATGATTCACATAGAAAGAGTAAATTTGTTATTATTGTTGCAAACAAGTTTATTTGGGGTC AGAGATTAAATTTACTATATTTGGTATGCAATTATGATTCTTCAGTTGCATGTTTGATTATGCTATCTCACAATTAGACA AAAAAGAATTTTTAATATTGAAATCTTTTTATCACTTTCTGATACTCTGCCTGTGCAGGTCTTCCCTCCAAATGAAAAGA TCGAAAACATCAATGACCAATACTGGACATTACGAGCAGAGGAGGTAGGAATCTCTTTCTGTGAGTTTGGGTAGAAAGTG TGAATATCCTATAGTGTATGAATTATTCCTGCTTTGATGTGCTTAAAAAATAACTTCCAGAATATATTATTCAATACTAT TTTTAATTGTTACATTTGTCTCACCAAAATATATTGAATTCTTTCATGCTTATATTTAAATTTTACAGATTCCGGAAGAA GAGAAAAATGTAGGTCCGCATGATCGTCTAATTCATGTGTACCATTTTACTAAAGACACTGCTCAAAACCAAATGGTAAA TAGTTTTGAATTTTGATGGATTGTTTCGATGTCTTAGATATTTCAGGCTGACAATAATTGTATGACTCTGTATTGTTTGT TTTTCCTCCAAAATATACAGCAAATTCAAAACTTCGGGGAACCTTTTTTCTTGGTTATACACGAAGGTGAAACTCTATCT GAAATTAAAGAGCGAATACAGAAGAAACTTCAAGTTCCTGAGGAAGAGTTTGGCAAGGTATTTCCTCTTTTACCAATGTT TCCGATAGTTAGATTTCCAGTTTTTTAGTTATATTTTTTACTTAGACAGTTTCATTGGTCAAATATTGAATTAGTAAATG CTCGAGTTGAGTTTTCTAACTGCTTTACTGTATTTCTTGCTTGGCCAGTGGAAGTTTGCTTTTGTATCACTAGGGCGCCC TGAGTACCTTAGTGATTCTGACATTGTATCCAGTCGTTTTCAGGTGCACCCATTGAAAGTTGATTATAATTATGTTTCTT TCCTTATAAAGATGTCTTCCACTATTTTCATATGCTTGCATTTGTGCTTACACTGCACTTTTTAAATCTTCTAATAGAGG AGAGATGTTTATGGTGCTTGGGAGCAATATTTCGGCTTAGAGCATACTGATAATGCTCCAAAAAGATCATATGCTGTCAA CCAGGTTAATACATTTTCTAACGAGAGCAAGATTTCTGAAGTCATTTCAGTGATTCAGTCTTTTTTGTATATTTTTGTCC ACTATTACTTGGGACTTAATTACATTACAAATTTGTGGCTTTTGTTTTCAGAATCGCCACACCTTTGAGAAGCCAGTAAA GATTTATAATTAG

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CDS sequence (LotjaGi6g1v0196100.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTATTTGGATGTTGCAGATTCAGCAAGTTTGCCCTATGGTTGGAGTAGATATGCACAGTTCAGCTTGGCAGTTGTTAA TCAAATCCAGAATAAGTATACAGTGAGAAAAGACACACAACACCAATTTAATGCTCGAGAAAGTGATTGGGGTTTCACGT CCTTCATGCCTCTTGGTGAATTGTACGACCCTAGTAGAGGGTATCTGGTGAATGATACTCTCTTAATTGAAGCTGAGGTT CTTGTTCGTAGGATTGTTGATTACTGGAATTATGATTCAAAGAAGGAGACTGGCTATGTTGGGCTTAAGAACCAAGGAGC TACCTGTTATATGAATTCTCTACTCCAGACTCTATATCACATTCCATATTTTAGAAAGGCTGTATACCATATGCCAACAA CTGAGAATGATATGCCCTCCGGAAGCATCCCTTTGGCTCTCCAAAGTTTATTTTACAAGCTCCAATATAGTGACACTAGT GTTGCAACAAAGGAGCTGACAAAGTCTTTTGGATGGGATACATATGATTCTTTCATGCAGCATGATGTTCAAGAACTAAA TCGAGTCCTCTGTGAAAAGCTTGAAGACAAAATGAAGGGAACCGTTGTTGAGGGAACTATACAGAAGTTATTTGAAGGAC ACCATATGAACTACATAGAGTGCATCAATGTGGACTATAAATCAACTCGAAAAGAGTCATTTTATGACCTTCAGCTTGAT GTTAAAGGTTGTCGTGATGTTTATGCTTCCTTTGATAAGTATGTGGAAGTTGAGCGTCTTGAGGGAGATAACAAATATCA TGCTGAACAGTATGGTTTGCAGGATGCTAAGAAGGGTGTCTTATTTATTGATTTTCCTCCTGTCCTTCAGCTTCAGCTGA AAAGATTTGAATATGATTTTATGAGAGATACTATGGTTAAGATTAACGACCGTTATGAGTTTCCATCAGAACTTGATCTT GACCGTGAGGATGGAAAATATCTATCACCTGACGCAGATAGGAGTGTCCGCAATCTTTACACACTTCACAGTGTTTTGGT TCACAGTGGAGGAGTGCATGGTGGACATTACTATGCTTTTATCAGGCCAACTCTCTCTGAACAGTGGTACAAGTTTGATG ATGAGAGGGTGACTAAAGAAGACAACAAACGGGCATTAGAGGAACAATATGGTGGTGAGGAGGAGTTACCACAGACAAAT CCTGGATTCAATAACGCACCATTTAAATTCACCAAATATTCAAATGCTTATATGCTGGTGTATATTCGTGAAAGTGACAA GGACAAAATCATTTGCAATGTGGACGAGAAAGACATTGCTGAACATTTAAGGGAGAGATTGAAGAAAGAACAAGAAGAGA AAGAGCACAAAAAGAAAGAAAAGGCAGAGGCACATCTGTATACTATTATAAAGGTTGCACGAAATGAAGACCTTGGAGAG CAGATTGGAAAAGATATATACTTTGATCTTGTAGACCATGACAAAGTGAGGAGTTTCCGTGTCCAAAAGCAAATGTCTTT AAACGTTTTCAAGGAAGAGGTTGCAAAAGAGTTTGGTGTACCAGTTCAATTTCAGCGCTATTGGCTTTGGGCAAAACGGC AAAACCATACCTATCGTCCTAATAGACCATTGACACCTGCTGAGGAAGCACAATCTGTCGGACAATTGAGAGAAGTGTCC AACAAGGTTCACAATGGAGAATTGAAGTTGTTTCTGGAAGTTGAGTGTGGAATGGATTCCCATCCTATTGCACCACCTGA CAAGACAAAGGATGATATATTACTTTTCTTCAAGCTATACGATCCTGAAAAGGAGGAGCTGCGTTATGTTGGACGGCTCT TTGTTAAGTGTACTGGCAAGCCCTCTGAAATCTTAACGAAGCTAAATGAAATGGCTGGTTATGATCCCGAGGAAGATATT GCACTTTATGAGGAAATTAAGTTTGAACCAAATGTCATGTGTGAACCTATTGACAAGAAAGCAACATTTCGAGCAAGCCA GCTGGAGGATGGTGATATTGTATGCTTTCAGAAAGCTCCACCTGTGGATGGTGAAGAGCATTTCCGCTATCCAGATGTGC CCTCATATTTAGAATATGTGCACAATCGCCAGGTGGTTCACTTTCGATCTCTGGATAGACCTAAGGAAGATGACTTTTTC TTAGAGATGTCAAGGCTTTATACATATGATGATGTGGTGGAGAAAGTAGCGCAACAACTTGGTTTGGATGATCCATCTAA AATACGGCTTACCCCACATAACTGCTACTCTCAGCAACCAAAACCCCAGCCAATTAAGTACCGAGGGGTGGAACATTTGT CTGATATGCTAGTTCACTACAATCAGACCTCAGATATACTATACTATGAAGTACTTGATATCCCTCTACCAGAATTACAA GGTTTGAAGACTCTGAAAGTTGCATTTCATTATGCCACGAAGGATGAAGTGGTTAGTCATACCATCAGACTTCCAAAGCA GAGTACTGTGGGGGATGTCCTTGATGATCTTAAAACAAAGGTAGAGTTGTCCCATCCTAATGCCGAGCTTCGGTTGCTTG AAGTTTTCTATCACAAGATATACAAGGTCTTCCCTCCAAATGAAAAGATCGAAAACATCAATGACCAATACTGGACATTA CGAGCAGAGGAGATTCCGGAAGAAGAGAAAAATGTAGGTCCGCATGATCGTCTAATTCATGTGTACCATTTTACTAAAGA CACTGCTCAAAACCAAATGCAAATTCAAAACTTCGGGGAACCTTTTTTCTTGGTTATACACGAAGGTGAAACTCTATCTG AAATTAAAGAGCGAATACAGAAGAAACTTCAAGTTCCTGAGGAAGAGTTTGGCAAGTGGAAGTTTGCTTTTGTATCACTA GGGCGCCCTGAGTACCTTAGTGATTCTGACATTGTATCCAGTCGTTTTCAGAGGAGAGATGTTTATGGTGCTTGGGAGCA ATATTTCGGCTTAGAGCATACTGATAATGCTCCAAAAAGATCATATGCTGTCAACCAGAATCGCCACACCTTTGAGAAGC CAGTAAAGATTTATAATTAG

Download CDS Sequence

Protein sequence (LotjaGi6g1v0196100.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MYLDVADSASLPYGWSRYAQFSLAVVNQIQNKYTVRKDTQHQFNARESDWGFTSFMPLGELYDPSRGYLVNDTLLIEAEV LVRRIVDYWNYDSKKETGYVGLKNQGATCYMNSLLQTLYHIPYFRKAVYHMPTTENDMPSGSIPLALQSLFYKLQYSDTS VATKELTKSFGWDTYDSFMQHDVQELNRVLCEKLEDKMKGTVVEGTIQKLFEGHHMNYIECINVDYKSTRKESFYDLQLD VKGCRDVYASFDKYVEVERLEGDNKYHAEQYGLQDAKKGVLFIDFPPVLQLQLKRFEYDFMRDTMVKINDRYEFPSELDL DREDGKYLSPDADRSVRNLYTLHSVLVHSGGVHGGHYYAFIRPTLSEQWYKFDDERVTKEDNKRALEEQYGGEEELPQTN PGFNNAPFKFTKYSNAYMLVYIRESDKDKIICNVDEKDIAEHLRERLKKEQEEKEHKKKEKAEAHLYTIIKVARNEDLGE QIGKDIYFDLVDHDKVRSFRVQKQMSLNVFKEEVAKEFGVPVQFQRYWLWAKRQNHTYRPNRPLTPAEEAQSVGQLREVS NKVHNGELKLFLEVECGMDSHPIAPPDKTKDDILLFFKLYDPEKEELRYVGRLFVKCTGKPSEILTKLNEMAGYDPEEDI ALYEEIKFEPNVMCEPIDKKATFRASQLEDGDIVCFQKAPPVDGEEHFRYPDVPSYLEYVHNRQVVHFRSLDRPKEDDFF LEMSRLYTYDDVVEKVAQQLGLDDPSKIRLTPHNCYSQQPKPQPIKYRGVEHLSDMLVHYNQTSDILYYEVLDIPLPELQ GLKTLKVAFHYATKDEVVSHTIRLPKQSTVGDVLDDLKTKVELSHPNAELRLLEVFYHKIYKVFPPNEKIENINDQYWTL RAEEIPEEEKNVGPHDRLIHVYHFTKDTAQNQMQIQNFGEPFFLVIHEGETLSEIKERIQKKLQVPEEEFGKWKFAFVSL GRPEYLSDSDIVSSRFQRRDVYGAWEQYFGLEHTDNAPKRSYAVNQNRHTFEKPVKIYN

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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
CDD	cd00121 View details on cd00121 Search for proteins/transripts with this domain View external data on cd00121	1	80	80	2.88308E-18	IPR002083 Show description in modal box View details on IPR002083 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF49599 View details on SSF49599 Search for proteins/transripts with this domain View external data on SSF49599	1	86	86	8.83E-21	IPR008974 Show description in modal box View details on IPR008974 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.60.210.10 View details on G3DSA:2.60.210.10 Search for proteins/transripts with this domain View external data on G3DSA:2.60.210.10	1	96	96	8.1E-29	IPR008974 Show description in modal box View details on IPR008974 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR24006:SF770 View details on PTHR24006:SF770 Search for proteins/transripts with this domain View external data on PTHR24006:SF770	1	924	924	0.0	–
ProSiteProfiles	PS50144 View details on PS50144 Search for proteins/transripts with this domain View external data on PS50144	1	80	80	21.49	IPR002083 Show description in modal box View details on IPR002083 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR24006 View details on PTHR24006 Search for proteins/transripts with this domain View external data on PTHR24006	1	924	924	0.0	–
Pfam	PF00917 View details on PF00917 Search for proteins/transripts with this domain View external data on PF00917	2	81	80	4.9E-9	IPR002083 Show description in modal box View details on IPR002083 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF54001 View details on SSF54001 Search for proteins/transripts with this domain View external data on SSF54001	95	452	358	1.67E-97	IPR038765 Show description in modal box View details on IPR038765 Search for proteins/transripts with this domain View on EBI InterPro Service
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	97	426	330	8.4E-89	–
CDD	cd02659 View details on cd02659 Search for proteins/transripts with this domain View external data on cd02659	98	426	329	6.70972E-167	–
ProSiteProfiles	PS50235 View details on PS50235 Search for proteins/transripts with this domain View external data on PS50235	100	424	325	40.275	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	100	421	322	2.4E-46	IPR001394 Show description in modal box View details on IPR001394 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	101	116	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	340	357	18	-	IPR018200 Show description in modal box View details on IPR018200 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	433	464	32	-	–
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	440	574	135	4.4E-39	–
Pfam	PF12436 View details on PF12436 Search for proteins/transripts with this domain View external data on PF12436	525	777	253	3.9E-77	IPR024729 Show description in modal box View details on IPR024729 Search for proteins/transripts with this domain View on EBI InterPro Service
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	585	702	118	1.4E-37	–
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	703	800	98	9.9E-9	–
Pfam	PF14533 View details on PF14533 Search for proteins/transripts with this domain View external data on PF14533	787	997	211	3.9E-58	IPR029346 Show description in modal box View details on IPR029346 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:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	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).	Subterm of View details of GO:0005488
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 LotjaGi6g1v0196100.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi6g1v0196100.2