Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0196100
Transcript ID	LotjaGi2g1v0196100.8
Related isoforms 7	LotjaGi2g1v0196100.1 LotjaGi2g1v0196100.2 LotjaGi2g1v0196100.3 LotjaGi2g1v0196100.4 LotjaGi2g1v0196100.5 LotjaGi2g1v0196100.6 LotjaGi2g1v0196100.7
Lotus japonicus genome version	Gifu v1.2
Description	Fructose-bisphosphate aldolase; TAIR: AT1G18270.1 ketose-bisphosphate aldolase class-II family protein; Swiss-Prot: sp\|Q46888\|YGBJ_ECOLI Uncharacterized oxidoreductase YgbJ; TrEMBL-Plants: tr\|K7L0V1\|K7L0V1_SOYBN Uncharacterized protein; Found in the gene: LotjaGi2g1v0196100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:63031418..63048432) extracted from Lotus japonicus Gifu genome v1.2.

AAGTTGGTGGCGGCAGGTTCACTTCCGTTTGGCTCTTGCTAAACCTAATTTTATCTTCATATAAAATTCTTTAAATGCAA CAGTTCTATTTGACCATGCCTTGTAGGTTACATTTCCCCCTCCATGAATTGCAAAATTACACACTTCATGATTCACTTAG ATAATAATCCTAAGCTTCTTTATATTGTCTATCTCAACAGAGAAAAGTTACTATTATAGGCTGCTGTGTTTTATTGGTGT ATTAAATTTATTCATTTTATCACCTTTTTTATTGCAGCAAGGTTAAAATGGTTGCTGAGATGCTGGAAGGAATTCATTTC ATTGCTTCAGTGGAGGCAGTCTCTCTTGGTGCAAAAGCTGGAATTCATCCATGGATAATCTATGATATAATTTCCAATGC TGCTGGAAATTCGTGGTACGTTCTTAATTAGTATGAAACCGCTAACTGTACAATAAAAAAAATCCTTTCACACATACATA CTCTTCAGAAAGCAGGGAGGCAGACTTAAATATAACAAAAAATATTGAAAAAGGAGGCCTGCTTTGATCCCAAATGATCT TTGTCATCTATAAACCCAAATGTTCTGGTTTTTGCACCTACTGAATGCTGACTATTAAAATGTGCTGTCTTCAATTTAGT ATAGATATTTTCTTATTGATCCTGACTCATTCTTTTTGGAAGGTGCTGACCGTTTCATTCATTTTGCAGGATATTCAAGA ACAATATTCCTCTGTTGTTAAAGGGAGAGGTTAAACATCAAATTCTAAACAGTTTTGCTAAGGAGTTGGTAAGATCAATA TAGAACAGAAGCAATTAAATATTCATATATTATCACTGTATTTTTGCTTGTCCAATGGTTATATCAACATTGAAATAGTA AGCTATTATTTGATTTGACAACCCTTTTGCACTACTTTTGGAGACTTCAGATGTAGACTTAATTTCTCTTTTGCTGACCT CACAAGGACAAAAATTTTCAAATGGAAACTCTGTTAGATATGAAACAATTCTTATGCTTTCACCTAATAGCTTAAGTGAT ACCAAATCTCTATCGTAGTAACAAAAAGTATTGTCAATAGGGATTGGATTGTTAAGTACGAGCTCATTAGTTCAAATTTT GCTTGAGCAATTGAAAGTTTGACTGGATTGAGATTGTTCAAGATTCAAATTGTAAGAACTTCAAATTAAACTTAAAACCA AAATTGGCACCAAAATTAGAAGATCCCAAAATTAACAGGGCACTAAAACGTGAACGATTTCCTTATTCTTTTTACTTGTT GAACTCTTAAATATGATAAGAACCTTGGGAGAACCATACCACAAAAGTTAGTTGTTGTAGTTTGAGAGCCCAAGACCTTA TAAACCGCCCCACATTAGAATTCCATACTTCCAAGTCGCACCGAAGGTGACAAAAATTCGTAGGCTGCAGTGAAAGCAGC TGACAGTCAACGTCAGTGAGCTGGCCTGGACACTCGATAGGTCACAATGCAAGTGACAAAAGTTCCAAGACCTTAATGAA GGCAGCCCTCGATAGGTCGCAATGAAGGTGACAAAAGTTCCAGGTCCACAATGAAGGTGACTAGGGATAAGTCGCAGAAG CAATTCCCCCTGAGATTGGGAGCTCTGATACCAAGTTAAAAGTAATATAGCTGAAAAGAATATTAGTTTCTGATTGATAT GTATTACACATGACTAAGAAGTACAATATATTGATAAGTGTCTAGTCCATCTCAAGTCTCAAAATAGGTTTCCTAGTCTA TCTCAAACATTATCTACAAAGTTAATCCTATCTAGTATACGATAACATGATAATACCTTCCATAACTAATCTTTTCATTG CATAACATGTCCCACAATTATCCTTATCTTCTCATAATGTCTCAACAAACTATATCCTATGTTCCTAACAAATATCTCAA CAATAAACAATCTTTAAGCATAGTTTAACGTACACAAAGGGTTTTGGAGTTGAATTACTGATTTTTACTGTTAGAGATGT TTACCATTCTTGAGCCTCCACCTTACAGCTTAATCTTTTGAGATGACTGATTGAGATGGAATTAGAGCCTTAATGACCAA GTGGCAAGGAGTTCAATCCTTTCCTAACTGTGTCCATTCTTCTAATTCAATTATAGTTTTAACACAAAGTTTCAGTAATT GTCTGTGCTTTATACATGCTTTTAATGTATGGAGGATGTGCTAATGATGTAATGTGTGAACAATTCCTAGGCCTCCATGT AATAGTTTAACTCTTGGGTAGATTGTTGACAATTACTGTGAAATTTATTTTATTTTTTAATATAAACTTAGTGCCTCAAA ATTCTCTTCTATGTTGGTCTAATCACGGATTACTTTTTAGTTGGAAGAGAATCACAACACTGTATCAATCTGACTCTTAT TTTCAAAATTGACGTTTTGTTTGCCTTACAGCAACTTTGAATGTGTACAAAGCGCTGCTTTCAGTTCTTGTTGCTGTTGC TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTCATTTCCAAACATTTCACGATGGAAACAGAATTT GCTTTATTGTAGGAAATCATTTTGGATATGGCCAAGTCACTAACTTTTCCACTTCCACTGTTGGCTGCTACTCATCAACA ACTTATTCACGGTACAGAATTCAGTTTACTATATAGCACATTTTCTGTCAAGTTAAAAAAAAAAACCATTTGCAGCTCAT GCAGTTAAGAAAATTCATTTTCAGGGGTTTCACATGTTTGTTATAATGATGATGATGATCCAGCATTAATTAAGGTTTAT TTCATATACATCTATTTGAGCAGATTCAATTAGAAGTTGTTTTCAGAAGCTGTACTGTCTTTTTCTTAACATTCGTTTTT TTCTTCATCATTTTCATATCAGGTTTGGGAAAAGGTTTATGGGGTGAAAATTTCAGATGCTGCAACTGCAGATGCATATA ACCCTGAACAACTGGCATCTGAATTCACTACTGATTCTAAGACTGTGAGACGCATTGGTTTTATTGGCCTTGGAGCTATG GGATTTGGCATGGCAACTCATTTGGTGAAATCAAATTTCTGTGTTGTTGGTTATGATGTAATTTCTTCCCTTTAAATCTT AAGTTATTGCATTAAACAAACGGAAAATTTTCTTTGATTTTGTATAATAGTATCATCATAATAGTGAGTTGGAAACTGTC AAATTTGTCCTTATTATCAATAGCATTGGTTTCCACTGGAAAATTCTGTTTTCTATCAGGAACTAGAAAATTAAAAGTCA GATCCAATTATAAGTATGCACTTAGAAGCTTATGCATGAGTTATATTTGCAGTTTATTTCATTTTTATATGCTTGTTAGG GATTTGAATTAAAATAACGAACTAGTATTTTATCTTGATTCTTAATTGCAGAAAGAGAAATGGCTCTGTGTGTGTGTGTG TGTGTGTGTGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAATAGAGGGATACTGTAATGGGATACACACCTAGGTGC AGTCTCCCCATAAATTAAGATGATACAACATGAATTAAGGTTAATTTCATATACATCAGGTTTGAACAAGTGTATCTGCA TCCGCTCTTTGTCTATTTACTTTTGTTTTCTATTTCGTTTATGTTGATATTTCTGATATTCTTTTATGCATGCAAATGGT TCGCCATCTACGTATGGTCTGGAATCTGGATGTACAGTTCAGATCAAACTATTTATTGAATATCATGGTTGAAATTTGAA ATGACCGCTATGAGAATCTTTATAAATCCTTAATTTTTTTTTACATCTAGGTGTATGAACCAACTCTAGTTCGATTTGCA AATGCTGGTGGCTTGGTTGGAAATTCTCCTGCAGAAGTGAGTAAAGGTAAATTGATACTACTATATACTATATGCCCAAA AAGATTATACATACCTATTAGAGAGAGAGAGAGAGACTTCTGGAAATGTTGCTGGTGCTGTTGAGAATTGGGACATCGGT TCCTGTAATGACCCAATTCTCCAAAACTCTAGCATTGTATGGCCGGAATGTCCACCACGACCTCTAGCACCACCACGACT TCCTCAGCCTCCACCATTTTCGCCACGAAAGCCTTAATGGGCCGCTAAAGCAGTGCGATCGAAAGTATCAACATCTGGAG CAGGTTTGGGTTTCTCAGAAGAGGACGACTGCATGACCCAGGAGAAAACATCGGTGAGAGTATCCACCGGCGTGCTCGAC AAAATCTGAGACCTGACCACCTCATGCTCCTAATCAAGGCTAGATAACGAGCTCAATGCTATCAATTTCTTCTGCTGGGC TCCTCTTTTCTCTTGCAAGTCCGAAGAGAAGTCATCTCCTCAATATATTTCTTGAATTCCAAGAAATAATCCATCAACTT ACGCTTATCCTGTTTCGGGCGAAATATCTGCTACAACAAAGCATAGATGCGATTCAAATTATCAGTCTTCCAAAAATAAA TTGTAGTAACTTTTCACAGTTTGACAATTAAAACCTTGGTCGGCCCTTTCTCAAGTGGTTGGAAGAAAATATTTCTGTTT CACTTTTTTTTTAGAGAGACGGCAGACCTAGGCATGTTTCGAACCTAGGCTCTCAATACCATGTAAAAAAGACAAAAACT AAGAGAGAGACATGGAGGATAGAGAGAGAGAATGAGATATTGTAATGGGATATACTGCTAGGGGCAGTTTCCTTCATATA TATAATATTAGGTTTATAGTAGAACAACTTGTAATACAAAGTACGTACTTAAAGTACATATGGGTTTGACCCATTGACTC TACTTCTAACCCTAACTCTTAACATAATCCGTATCGCTAACACTATTCACATATTATTGCTTCCAGATGTTGATGTTCTG ATAATCATGGTTGCCAACGAAGCTCAAGCAGAGAACGCTTTATATGGAGAACATGGTGCAGTTTCAGGTGTGCATTAGTA TCTTAATTACCCATGTTATTATATATATTTTAACTGCACTGATCCTTCTTTCGGCATTATGTAGTTCTTCCTCCTGGAGC ATCAATTGTTCTTTCTTCTACTGTTTCTCCAGCATATGTGAGTCAGCTAGAGCGCAGATTGCATAGTATGTTACCACTCC AGTGATATGGTTATTTAATCTGTATTACATTTCAGAATTTCTTTCTTCCTTTCCTCTTTTATGCAAGTGCAAACTGAATT TCAGGATTGTGAATTTGCTACTGTCATACTGTGTTTAGAATTTTAATGTGTTATTCGTTTCTCATGCAAGTAGTGGAAAA CTAGTTGAGAAGGTTGATTAGCCTATTTGAAAACTAGCATAATTCATTGGGTAAAAGTTTCTGGCTAAGTAACATGACAG GATGTGGCGTTTTAGAAAATCTATTTGAGATGAAAGTTATCTTATGTGTTAGTAGTGTCATACAAAGTAGATAAGTAAAT GCAATTTGATAGTCATCAAAGTATATTTTTCCTTCAAAATCTTAAGCAAATATGTTATGCTTGAAAAAATTATGGATGTA CGTTAGAATATAATATAAAACCATTCATGTGGCCCTTACCCAAAAGCTCAAGCTTTTGGGATAATTGGTTGTTTGACAAT ATACTTTCTTTGTTATGATTTTAGTCTGAATACTTCCAGTAGGCTTGAATTTCCAATAACCAAAATATGTCAACTTCCAC TTATGCCTACTGTGAAGAGCCATGTGAGTTAAAAATGAATGGAAATAGGCTGCTTTCATCATCCCTCTATGGGTATGACA ACATACAGAAGTTTGTTTTATTACTACTCAGATTTAAACTCTGGCTGGACATTAGACACTTCTCATCTCTTTTACTGCAG TTGTATGTAGTGTCTATATCTTAACACGGTCTTTGAAACTGGAACTATTTTGAATAATTGTCTGATAACTGGTTGATGAT GATTGACTCTGAAGTACAATATTTATAGACTAGATTATCGATAGATGTTTCCTAGTCAACTATTAAGTCTAAAGAAAAAA TTCTATACAATAAAATCTTATCGTATCCTAATTTATCATCAAAAAATAACATCTTAGAAAATCTAATCCTATTGAACTAT ATCCTAATAGAATTATCTTAACAAACTATATCCTAATAGATATCTCAACACACGGTTTTACGTACTTGGCTAGGATTTTA ACTGTAATGCTTAAGGCAGTTTGTGTGTGTTTCCCCATCAATTATCTCCAATTCATAAGAACAAGTGTTATAATATTAGT TTAAATGTGCATAATCCACTTTAATTTTAGAATTTTTCGATGACTAGGATTTGAACATGTTATAGTTGATATATTAAAGC TATCTATGGATTCCCTTATTTGAACCTGGATCATATTTACATTGATGATGTTTGTAAGGAATATTATTTATTCATCTTGA ATGCTTTTTCAGAACTTATTCTACACCATGCTTTTATGCCTTTAGTGAAGGATGCAGTTGTGTAACCATTGACATAAAAA TAACGCAGATGAAGGAAAGAATTTAAAGTTTGTGGATGCCCCTGTTTCTGGAGGTGTTATGAGGGCCTCAATGGGAGATC TTACGGTGTGAAATACATCTTTGGCTTTTATTTAAACGGTTCTTTAAATTTTGTAAACTGAACAACTTAAGTCATGTATG TTTCTCAGATAATGGCTTCAGGAACTGATGATGCTCTTAAGAGTGCTGGTTTAGTGTTATCAGGTAAATTACCTTTGCAT AGAAGTGAATCATATTATTTTTAATTCTGTGTTTACAGAGATTTCAGAAATAACTTTCTAGTTGTTTCATGTTAAATTCT TTATTTATAATCAGCCTTGAGCGAAAAGCTTTATGTTATCAAAGGTGGCTGTGGTTCTGGGAGGTATTGTTTAATTTATA AGTCAACAATTATTTATCCATGTTTATCCTTTCACTAATAGTACTAATACTTCTTTCCATATGTATGAAACAAGTAATGC AATATAAATTCTGATTGAAGGTGAAAGTCAAGTTGATTGAATGTGATAACAATATTTCAAATTAATGGACAAGTACAATA ACATATTTTGGTCTATTTTGTTCTCTAGTGGTGTAAAGATGGTTAACCAACTGCTTGCCGGAGTTCATATTGCATCAGCT GCTGAGGCAATGGCATTTGCAGCACGATTGGGTTTGAATACTAGACTGCTGTTTGATTTTATTACAGTTAGTGGTGGAAC ATCCTGGTATGTCTCTTCCATGAAGTTATCACTTACTCCTCTCCCCTTCCCCTGGCCAAATAAGGAAAATAAGAAGCAGG AAAAATCACTTACGAGTTTCTTCTTGGTAGTTTTTTTTTCAGTAGGTGTTTACATTCCTAATAATCAATTTTTGAAGTTA TGAATATGTTTATGGCTTTGTTTTAGAGCTCTCCTCTTGGCTATTTCAAAGGACATTCAGTCACCGATTGCTGTTCATTT CCTTCTCTTTCTCTAGTTGTCCTTTGTCTTTTTTCTCTCTTCATTACATTCTTCTTTTATGCAGAAACACAATCATAGGT TTTAATAGAATAGGTACTTCTTAATTCTTATGTTAAGAGATGTCTTATATTGCAGGATGTTTGAAAATCGTGTCCCACAC ATGCTAAACAATGATTACACACCTTATTCAGCACTTGATATCTTTGTTAAGGACCTGGTCAGAATGAATCTATTCTTTTC CTCTTTATGTTTAGCAAGGGCATCAGGGGACACTTCAGTTGAGTAACATCTTAATTTTATTTTTTAATGTCTATTTTCAT ATATAGGGAATTGTTACTCGTGAATCATCTTCTTTGAAAGTTCCACTGCACCTATCGACTATTGCTCACCAACTGTATCT GTCAGGTGCTGTGTATTACTTTTATTTTTTATGCAATATACATTCTTATGTTCTTCACTCAACTTGGTCATTCCTATTGG AATTTAATTGATGGGGGGGGGGGGGATAAAGCTACGGTTCTATTTTGGGGTGGGGGCAAGGGATAGGAGTAAGTCTTATT TCTAATCACATTAATAAGTTACAGGGAAGAAGGAAAAGAGGATTAAAAATGGGCTCGTCCATCTGATAGACGAAGGGTGG TGCATGCATTATTCATGGTCTTATTTTGAAATGACCCTCATGTTACTAAAAATTAGATCTGGTATCTCAAACGGTTAGAC ACCATGTGGAGGCCTTTCTGCATATGATGCATGATGCATCTCAATATGCTGAAGGATACCTCTACTCTGATGTGTAATTA CTAAGCCACTAGGAATGAGCTATTGGTAATTAGTTTGTCTTGAATTTGGGCAGACTTGCTTATCCTTACTCCAAAATCTA GCTCATGAAGTGAGGATTTCTAAGCCTTTATAACTCTACTCTTGCCATATTTTTTATTGATATGGGATCTTAAAACATCC ATATCACGCTGACATCTGGAGAATGGAAATTATAGGACTACTATACAACGCATAATTTCCCTATTTAAGTTCATGTCTAA CATCTTGAATAGCTTGCTGGAGACCTCAAGTTAAATGCTCATGTAGTTGTAGTGACCAAAAAGGAAAACATGTAACTGAT AGAAGTTAGCTATATCGTTTTCAGCAACTATCAAAGTTTTTTTCAATTTGTTGAAGGTCGCTACATGAATCAAACAAAGG CATATTGCCCTATCATAAATGATGTAAATATGGACTTTCTTAAAATTGCAAGGAGAAATGCTTGTTCAAACCTGTAATAT TGTTGTACAGGTTCAGCTGCTGGTTGGGGACGGAAAGATGATGCTGGTGTGGTAAAGGTATGAGCAACTAATGTTGGTTG ACAGAACCTCTAGAATATTATATTTTGTTATTTTTGATATCATGGAATCAAATGAGAATGCCATTTAGGTTTTTAAAATA TCAATTTTATGCACTGCCATCCTCAGCAATTCATTGAAGTATGACTCTTTGGTCGATCTGTTCACCATATTCTGGTTTGT CAAAAGAATAAGAAACATCCTAATGTTATCTACTACCCCCCCCCCCTATCTTAAGACTCTGCAAATCTATTTACATATGA TCTAAATTTGTGTAATAGTATGGTAGAAATCTTGACTGAAGTAGTTCAGAAGGATCTGGAAACTTTTTTACAGGTTTATG AGACACTAACTGGTGTTAGAGTTGAAGGAAAACTGCGGGCTCTTAAGAAAGATGTTGTGTTGCATTCTCTTCCACCTGAG TGGCCCCAAGATCACGTTCTTGATATACAAAGGGAAATAGAAAGCAATTCAAAAACTTTGGTTGTTCTAGATGATGATCC AACAGGAACACAAACTGTTCATGATATTGAAGTTTTAACTGAATGGTAAGTGTAAATAATTTTCTTGCCATTTGTGAGTG CTTGGCAGAATTAATGCTACTGTCAATAATATCTCATAAAATACTGGCAAACCAAATTCCGTTTTGGAATTATTATTATT TCACACCTATAGTACCTCATTTAATTTAGGAAAGTAGCTAACGGATTCGTGTATATTATGTCAATACCTTTGTACACTTG AGTAAAAGATTTTTCAGTTTTTCACCTATTTTTCAAATCTACCAAACCTCTGGTATTTCTATTTGAGCTATTTTATAGTC ACTTTCTCTATTAACTTTAAGATCTTCTGGAAGAAAAATCTGAATTTGTTATCAATTGGACATGTTCTTCTGCAGGACTA TTGATTCACTGGTAGAGCAATTTAGAAAAAGTCCAAAATGCTTTTTCATTTTGACAAACTCCAGGTCACTGAGTTCTGAG AAGGTAAAGATCTTATAACCCACATGCACCAATAATGAAATTTTTATTTAGTTTAAAAAGGAAAAAATATTGCTAATATG ATCTATTTTTTCTAGGAAATCCATTTACGATCATGGGTAAAAAATATAGAATTTTATTCTAAGATAAAATAGGGCATGCA TATGGTTTACAAAGCGCCACACTGGGTCCTATTATTGCTCTGTAAATGGAAAAGCATGCTACTAATGTAGAAAGAAAATG TGTCTTAATTATTGACATGCAAGATTTGAGCTGAATAACGTCTTGAGCTGTAATAGTTGCAGCTCGATATCTATGTGCCA TCCCATAAAGTACTTCAAAAGCAACCAGATGGATATAACCTTTCTCCCAACCAGATTTCAAGCAATTGGATATTTCAAAG ATCAGTAATATTGAGTTCAATGAAGTTAATTATTTACATTTGGTATCTGACAGGCTAGTATATTGATAAAAGAGATTTGC AAAAATCTAGACAGTGCAGCAAAATCTGTTGACAGCATTGATTACACAGTAGTTTTGAGGGGAGATTCAACTTTGCGTGG TCATTTTCCAGAGGCAAGGATGACATGTTTAATATAATAAGTATATTTTACTCAATGATATTGAGACTCATGTTTCAATT GCAAAATGACATGACTGTTGTGCACAGGAACCAGATGCTGTCATTTCAGTATTGGGTGAAATGGATGCATGGATAATTTG TCCCTTTTTTCTTCAAGGAGGCCGTTACACTATTGAAGATATACATTTTGTTTCTGATTCTGATACGTATGTTTTCCATT CATGATCTAGCTATAAGGAATTATGAATGTACAAAGTTATAATCCTGCTTCTTCAACTTTTTGTCTGCAGGCTTGTTCCT GCTGGGGACACAGAGTTTGCCAAAGATGCTGCCTTTGGCTATAAATCTTCAAATCTACGTGATGTAATTTTTTTTATCCC CTTTTTTACTTTATCAATGTAATTTATATTTACATATTACTCATAAGACTAATTATTTTCTGAGATGCTCTTCACAAAAT ATAGTGGGTAGAGGAGAAGACAAATGGCCGAATTCTTGCAAGTAGTGTTGTATCTATTTCAATCCACCTTTTGAGGAAAG GGGGGCCAGATGCAGTTTGTCAACATCTATGCAGTTTGCAGAAGGTATATAATTAGATATAGTTAATGCTCTTTCGTGTC TAAGAACACGTGGCATTACTTTTTATAGGTAAGATATCATGAATGAATAAGTAGTTCTATTCGATCCACTTACTTCGATC TTGCCTATTGTATTAAACAGGGATCAATATGTGTAGTTAACGCAGCTAGTGAAAGAGACATGGCTGTATTTGCACTTGGA ATGATCAGGGTAAACTTCTTTCTTCTCTTTTGTGCCCTTTTTTTTGCCCATTTTGCTTGTTATGTTACTGACGTAAATGT TCTCCTTGCACTGTTTTATCTTGTTAACAGGCAGAATTGATGGGAAAACGTTTCTTGTGTCGCGCTGCTGCTAGTTTTGT TTCTGCCCGGATTGGAATCATCTCCAAGCCTCCAGTATTGCCAAAGGATATAGGAATAGTTAGAGAAAGAAATGGTGGTT TGATAGTTGTGGGATCATATGTTCCAAAAACAACAAAGCAGGTAAAGAATGAAATTAAGTGATTGAAATCAAATCTCCCA AGCATACTCATTTTCTCATCTTGTCTCATGCTTATAAACCCAGGTTGAAGAGCTTAAACTACAATGTGGTCAGTTCTTAA GAAGCATTGAGGTGATCACCATCCAAAATTTCTCTTCATCATTTTCTTTGTTAATTTTTTATCCTAGCCTTATGTAGGTT GTGAAGCTTCTATCAGAATTCAGAATCCGTTACAGATTATAACTGTCTTACATCAACTAACTAACAACTGTTTACCAAAA TAATCACTCTAGCTATCTTTAACTAAACATATGCCTAATGCAATATAGTAATTTTTCTTTCAAATTTCATCTGCTGGTCT GATTAGGATTTCATTGTTATAGGTATCTGTTGAAAAAGTTGCAATGAGATCTATTGAGGAGCAGGAGGAGGAAATCAGTA GAACAGCTGAATTGGCAGATGTATATCTTAAAGCTCATAAAGACACTCTTATAGTGACTAGTCGAAATCTCATAACTGGA AAAAGTTTGTTTTTCTCTCTTTTGTTCATTCTCTCTCTACATCTTGCTTGGTTAGACTTTGATATTAGAATTGTTTTAGC TTTCAAGGTCAGCTCTAACCAATGTCCTTCTTATGACCATTCAAAATACAGTAGTGCATTTAAATGGGGAGATAATTTTA TGTTCTTCATTCTTATCTTCTGGTTTATTTTCAACTTTGCAGCTGCCTCTGAGAGTTTGGATATTAACTTTAAAGTGAGT TCTGCGCTGGTGGAAATAATGAAAAGAATAACAACAAAACCTCGCTATATAATTGCAAAGGTACTCTAAATGACTCAGTG AACTTGCATTATGATATGGAAAATATGATACCTCCTTTGTCCTATTGACCTTACATTTTTTTGAAAAATTGCCACTAGTT TATATGGGCACTATTTTATTTACAAATACCAGCATAGTCACAATATTTACACCTTTTTGGGTCGATCACCAAGGCGCTCT TCAAATCAAGATCGTGTTGTTAGCTATGCACCATCAAGTGAGAAATATGTTGTTGATCAATAAATTCATGAAGTTTTTTA TGGGGACACAAGAACAAGTTGACCTGAGTGTTCACTGTTCGTGCATAAGAATGCAAGAAACTTATTCAAAACACTTTACA GTTTAATTTGTTACTCCTCATGTATAAAACACTTTCTCATCCATCTTGCCTCCTTTTAATAAGTTTAAACGTATATAAAA TAATTTCATGCATGTTTATCTTAATCAGATTCATAGTTTGGGGCCATAAAACCCGACTACATACAATTCCTTTTTGGCTA TGTCCCAAGATTTAGTCAAACACTGACAAATAGTACCTTTTCTAGGGTGGTATTACATCATCAGACCTTGCTACTAAAGC CCTTGGTGCAAGATGCGCCAAGATTGTCGGACAAGCACTTGCTGGTATTCCCTTGTGGCAATTAGGCCCTGAAAGTAGAC ATCCTGGAGTTCCTTACATTGTCTTCCCTGGTAAAAGTTTCTGACTAAATCTGAGTGTCTTCTGCCTTGAAGTCTGTATC TTTCTTCATTCTTCAATATATTTCATCTTTACCTATAAAAGATAATCTGCCTTTGGTAGGTAATGTTGGCGACAGCAAAG CATTGGCAGAAGTGGTGAAGTCTTGGACTTGTCCTATCAGACTTTCATCAACAAAAGATATTCTTAAAGTAAGTTTAGTC AAGTTCAATGTTTTGCAGCTGAATTTCCTTGAATACATTTTTTGTTTTGCATAAAGAATGCAGAAAAGGGTGGATATGCT GTTGGAGCATTTAATGTCTATAATTTGGAAGGGGTTGAGGCTGTTGTTTCTGCTGCAGAGGAAGAGCAGAGTCCTGCCAT ACTACAGGTGAGAAGCAATCAGTTGAATCTACTGATATGTATGTATTCCTTTTCATTATTAAGAACACAAGTAAAATAAC GTGATAGCACTAAAAAGTTGGGGGAAAGTGAGAAAAGGCAGAGAAAACTAATTGTAAATCAAGAGTTCTAAGCCTGTTAA TAAGGATAATGTAGAACATAATAACTACAGAGCTTCTTTTACCAGAACAGTTAACCTTGAGTACTCTTCTGACTAGGGTT TCAGTGTTTCACTTACTCTTTTGAGGAAAAGAATATATCAATGTTGTATAATTATCTAAAAAAAGGCTGAATAATGTAAG GCTCATAATGAGCTATAGCGTATTTATAACCTAAGGATAATAAAATCATATGGAAATCACAAAATCCTAATCAAATATTA ATTTCCTGAAGTTTGTGCTTAATGTTATATGTTTCTTATTAACATGATAATACTTTCCTGAGAAACATATAACATTAAGC ACAAACTCTATTAGGTATAAAACTAGTTTTAGCTAACAGCTTAAACAGTCGAGATACTGGACAATATAAAATGGTGTCAG AGCATCTATAAATGGGCTACAGTTTAATCCTTGATACCCACAGGGAATTTCTATTTCAAGGGTATTTTTGGAGTTGTTTA AAAAAAAGAAACGGGTTGTGTATATAATATTTTAGGGGTGTGCAAAAAGCAACACCCATAGATATATGGGGTTTTTATCT CTTTGTATGATCTTCATTTAGCCCATTTCTAACCAACCAAGGACTTCAAACTTACAGTGCAATGGAACATGGGGGGATCT CTATAAAAAGCCAAAAGGTCCCAGTGTCCCACAACATGGCTCCATATGTATGGTTTGGGGGAGCCCAAATGCGAGGGGTT AAAAAGATCATAAGAGCGAACATGACATAATATATTCACTTAGAACCTTAAGATATTAAGCATATGCGTCTGTTCTCTTT ATTTTATTTTTTTGTTTTGCCCAGTTTTAAGCTGAGACTTAAAACTTGCACTTGAATTTCTAACATGTTCATCATGTTAA ATATGGCTTATTTAGATGAGTCAAAATTCATTTTCGATTATTAAAACTCGGTTCCTCTAAACTACTTCTGAATTACCTGC ATTCTTTCAGATCCATCCCGCCGCCTTGAAGCAAGGAGGAGTTCCCTTGGTTGCTTGTTGCATTTCTGCTGCAGAGCAAG CCAGTGTAAGTGGAATTTCTTTTTGAAGTAAACGGAAATCAGAATAAAAGTATGAATGCAAAGTATTGTCATGATCGGGA AAGGGTATGCTTGATAGAACAGAAAAAAAAGTTTATCTCTGAAATTCAATATTGAACTTTTTATCTTGAAAATATCAAAA TTGACTTTGTATTTTTTATATAATTTTTATTTGGATTTTGATGATGGGTCAAAAAAACTAGTTTCAGAAAACCATACCTT TTATCATTAAATTAATTCCGTGTTTAAATTAAAGGGAAGAGTCATTTCTGAAAACCACTAGAATCTTTAGTTAGAATGGG ATTCCAACTCAGCACCTTTTGAGATTTTAAGAAGAGTTCCTTTATGGATCCCTAGAGCTGAAAGTTTTCATCCACGTCTA TTTAATTTTTTTGGAGAAGGTATAAACAAGCATGATAAAAACATCTCTAATGCAGAACATATTCAAATTCCTGTGTTTAT TTTTAGGCTAATACAGCAGGTATATTTCTAAGTATCTGGTAAATAGTACATGTGTTTGAAAGTAGAAACACATGTCTTTA TTTAGGCTTAGGTAAACACTAGTTTGAGTATCGTTAAATTTTACTGCTTATACATGCAAATATGTAGCAGGTTCCCATTA CTGTTCACTTTGATCATGGAACTTCAAAGCAAGATCTTGTGGAAGCTCTTGAGCTGGTAATTTTTTGTATCTACTTGCAT AGTAATTATACTTTAGAAAAATTTCTATCTCCGTTCCAAAGATGATGCAATTTGCATTTGTGGTTAGTTTTTTATTTATT ATCTCCATACTTTAAATTAAAACTGTATATGTAAATGCTACGATTTCAGGGATTCAGTTCGGTGATGGTCGATGGTTCAA ATCTTTCTTTCAATGAAAATGCTGCATATACAAAGTTTATATCATTATTGGCTCACTCAAAAGATATGTTGGTAGAAGCC GAGCTAGGAAGATTGTCAGGGACAGAAGATGATTTGACAGTCGAAGAATATGAAGCCAAGCTAACAGATGTTAATATGGT TGCTATCCCATCTATAATAAAAACTCAAACATGCCTGCTATACTTGTCATTGCTAATTTTATTAATGTTGGTCTCATTAA TTTCCAGGCACAAAAATTCATTGATGAAACTGGCATAGATGCTTTGGCAGTGTGTATCGGTAATGTGCATGGAAAGTACC CAGCAAGTGGTCCAAAACTCAGACTTGATTTGCTTAAGGTGATATTAAATCACTACTTATATTCTTTAATCATTTATTCA TATAGTTATATAAAAAAAGTTCAAGATCTGAAGATCTAGCTGAAATTTTATGCTAAAATTGTTGGGAAATCGCAAAAACC ATGCTAGCATGATGAAATTTTGGACACCTTATTTGCATTTTTCAGCCTCTTCGGCTCTTCTTTATTTTAGTTCTTACATT TGGGAGGAATCTTTCCTGTTCCTCCCTAGATGTGTTTCTCTTTTTTATGTAATAAAATTCCTTCCTTGCTAAAAGAAGAA AATGCCTATAGTTCCTTATTTAACCCTTAAGCAGAAGTGCCCCTAGTTAAACAAAGAAAATGACAGATATAACAAATTGT GTTTCCCATTTCTGAAGTGTGTATGAGATGAACTTGATTACTCATATGTTCTATAAATTGATCTTCTCTTCAATATGGGT AGTCCAATGTGCATTTGAATCTGTATTTGTGGAATAACATCCTTACAGGTTTCGTGATACTGAATTGCCTTTCAATATAA TTGGTTTTTGTTGAAGCAGCTTTATTATCTAGGTCAAGTCTTCCTTATTTTTTTCTTAAAATAAGTTGGGGAAGGGCGGG TACCTAATGTTTCCAAATGGATAGTCATTTTACCCATTTCTGGGGAAGAAGCTCATCTAATGTAAACACATTTGTAAAAT GACAAAGTAAAGGGTGTTTTTACATTAAATCAAGAGATAGATATAATCTCACTTGCTCATTTCAGAGACAAGCTAACTTT ATAGGAGCCTTATCCATATCCTTAGTGTGATTTTGACATTCTACAATGTTTAGGAGCTGCATGATTTGAGCCAGAAGAAA GGAGTTTTTCTAGTGCTACATGGCGCATCAGGTTTGGGCGAAGAACTTGTTAAGGTACAGTTTTACACAGGTTTTGGAAG TTAATTTTATGTTTGTCAAAGTAATTTTACATGTTATGAGCATCAAGCTCAGGATGCAGTTGCAATACATCACAGATTTT GGAGGTTACACTTAATAACATTTATTTGTGAATGACAATGAAATGAACTCTGGTAGTTTTTCCAGTTTATAGTGCTATAT AACCTATTTTGAGCTTCTTGATTCATTTCTGACAGGAATGCATAAATCTTGGTGTTAGAAAGTTCAATGTCAACACTGAA GTAAGGAAGGCATACATGGACTCCCTCATTACTCCCAAGAAAGATCTAGTTCAAGTTATGGCTTCTGCAAAGGAAGCCAT GCAAGCTGTGGCTGCAGAAAAGATGCGTCTCTTTGGTTCATCCGGAAGGGCATGA

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0196100.8) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGTTGCTGAGATGCTGGAAGGAATTCATTTCATTGCTTCAGTGGAGGCAGTCTCTCTTGGTGCAAAAGCTGGAATTCA TCCATGGATAATCTATGATATAATTTCCAATGCTGCTGGAAATTCGTGGATATTCAAGAACAATATTCCTCTGTTGTTAA AGGGAGAGGTTAAACATCAAATTCTAAACAGTTTTGCTAAGGAGTTGGAAATCATTTTGGATATGGCCAAGTCACTAACT TTTCCACTTCCACTGTTGGCTGCTACTCATCAACAACTTATTCACGGGGTTTCACATGTTTGTTATAATGATGATGATGA TCCAGCATTAATTAAGGTTTGGGAAAAGGTTTATGGGGTGAAAATTTCAGATGCTGCAACTGCAGATGCATATAACCCTG AACAACTGGCATCTGAATTCACTACTGATTCTAAGACTGTGAGACGCATTGGTTTTATTGGCCTTGGAGCTATGGGATTT GGCATGGCAACTCATTTGGTGAAATCAAATTTCTGTGTTGTTGGTTATGATGTGTATGAACCAACTCTAGTTCGATTTGC AAATGCTGGTGGCTTGGTTGGAAATTCTCCTGCAGAAGTGAGTAAAGATGTTGATGTTCTGATAATCATGGTTGCCAACG AAGCTCAAGCAGAGAACGCTTTATATGGAGAACATGGTGCAGTTTCAGTTCTTCCTCCTGGAGCATCAATTGTTCTTTCT TCTACTGTTTCTCCAGCATATGTGAGTCAGCTAGAGCGCAGATTGCATAATGAAGGAAAGAATTTAAAGTTTGTGGATGC CCCTGTTTCTGGAGGTGTTATGAGGGCCTCAATGGGAGATCTTACGATAATGGCTTCAGGAACTGATGATGCTCTTAAGA GTGCTGGTTTAGTGTTATCAGCCTTGAGCGAAAAGCTTTATGTTATCAAAGGTGGCTGTGGTTCTGGGAGTGGTGTAAAG ATGGTTAACCAACTGCTTGCCGGAGTTCATATTGCATCAGCTGCTGAGGCAATGGCATTTGCAGCACGATTGGGTTTGAA TACTAGACTGCTGTTTGATTTTATTACAGTTAGTGGTGGAACATCCTGGATGTTTGAAAATCGTGTCCCACACATGCTAA ACAATGATTACACACCTTATTCAGCACTTGATATCTTTGTTAAGGACCTGGGAATTGTTACTCGTGAATCATCTTCTTTG AAAGTTCCACTGCACCTATCGACTATTGCTCACCAACTGTATCTGTCAGGTTCAGCTGCTGGTTGGGGACGGAAAGATGA TGCTGGTGTGGTAAAGGTTTATGAGACACTAACTGGTGTTAGAGTTGAAGGAAAACTGCGGGCTCTTAAGAAAGATGTTG TGTTGCATTCTCTTCCACCTGAGTGGCCCCAAGATCACGTTCTTGATATACAAAGGGAAATAGAAAGCAATTCAAAAACT TTGGTTGTTCTAGATGATGATCCAACAGGAACACAAACTGTTCATGATATTGAAGTTTTAACTGAATGGACTATTGATTC ACTGGTAGAGCAATTTAGAAAAAGTCCAAAATGCTTTTTCATTTTGACAAACTCCAGGTCACTGAGTTCTGAGAAGGCTA GTATATTGATAAAAGAGATTTGCAAAAATCTAGACAGTGCAGCAAAATCTGTTGACAGCATTGATTACACAGTAGTTTTG AGGGGAGATTCAACTTTGCGTGGTCATTTTCCAGAGGAACCAGATGCTGTCATTTCAGTATTGGGTGAAATGGATGCATG GATAATTTGTCCCTTTTTTCTTCAAGGAGGCCGTTACACTATTGAAGATATACATTTTGTTTCTGATTCTGATACGCTTG TTCCTGCTGGGGACACAGAGTTTGCCAAAGATGCTGCCTTTGGCTATAAATCTTCAAATCTACGTGATTGGGTAGAGGAG AAGACAAATGGCCGAATTCTTGCAAGTAGTGTTGTATCTATTTCAATCCACCTTTTGAGGAAAGGGGGGCCAGATGCAGT TTGTCAACATCTATGCAGTTTGCAGAAGGGATCAATATGTGTAGTTAACGCAGCTAGTGAAAGAGACATGGCTGTATTTG CACTTGGAATGATCAGGGCAGAATTGATGGGAAAACGTTTCTTGTGTCGCGCTGCTGCTAGTTTTGTTTCTGCCCGGATT GGAATCATCTCCAAGCCTCCAGTATTGCCAAAGGATATAGGAATAGTTAGAGAAAGAAATGGTGGTTTGATAGTTGTGGG ATCATATGTTCCAAAAACAACAAAGCAGGTTGAAGAGCTTAAACTACAATGTGGTCAGTTCTTAAGAAGCATTGAGGTAT CTGTTGAAAAAGTTGCAATGAGATCTATTGAGGAGCAGGAGGAGGAAATCAGTAGAACAGCTGAATTGGCAGATGTATAT CTTAAAGCTCATAAAGACACTCTTATAGTGACTAGTCGAAATCTCATAACTGGAAAAACTGCCTCTGAGAGTTTGGATAT TAACTTTAAAGTGAGTTCTGCGCTGGTGGAAATAATGAAAAGAATAACAACAAAACCTCGCTATATAATTGCAAAGGGTG GTATTACATCATCAGACCTTGCTACTAAAGCCCTTGGTGCAAGATGCGCCAAGATTGTCGGACAAGCACTTGCTGGTATT CCCTTGTGGCAATTAGGCCCTGAAAGTAGACATCCTGGAGTTCCTTACATTGTCTTCCCTGGTAATGTTGGCGACAGCAA AGCATTGGCAGAAGTGGTGAAGTCTTGGACTTGTCCTATCAGACTTTCATCAACAAAAGATATTCTTAAAAATGCAGAAA AGGGTGGATATGCTGTTGGAGCATTTAATGTCTATAATTTGGAAGGGGTTGAGGCTGTTGTTTCTGCTGCAGAGGAAGAG CAGAGTCCTGCCATACTACAGATCCATCCCGCCGCCTTGAAGCAAGGAGGAGTTCCCTTGGTTGCTTGTTGCATTTCTGC TGCAGAGCAAGCCAGTGTTCCCATTACTGTTCACTTTGATCATGGAACTTCAAAGCAAGATCTTGTGGAAGCTCTTGAGC TGGGATTCAGTTCGGTGATGGTCGATGGTTCAAATCTTTCTTTCAATGAAAATGCTGCATATACAAAGTTTATATCATTA TTGGCTCACTCAAAAGATATGTTGGTAGAAGCCGAGCTAGGAAGATTGTCAGGGACAGAAGATGATTTGACAGTCGAAGA ATATGAAGCCAAGCTAACAGATGTTAATATGGCACAAAAATTCATTGATGAAACTGGCATAGATGCTTTGGCAGTGTGTA TCGGTAATGTGCATGGAAAGTACCCAGCAAGTGGTCCAAAACTCAGACTTGATTTGCTTAAGGAGCTGCATGATTTGAGC CAGAAGAAAGGAGTTTTTCTAGTGCTACATGGCGCATCAGGTTTGGGCGAAGAACTTGTTAAGGAATGCATAAATCTTGG TGTTAGAAAGTTCAATGTCAACACTGAAGTAAGGAAGGCATACATGGACTCCCTCATTACTCCCAAGAAAGATCTAGTTC AAGTTATGGCTTCTGCAAAGGAAGCCATGCAAGCTGTGGCTGCAGAAAAGATGCGTCTCTTTGGTTCATCCGGAAGGGCA TGA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0196100.8) extracted from Lotus japonicus Gifu v1.2 Proteins.

MVAEMLEGIHFIASVEAVSLGAKAGIHPWIIYDIISNAAGNSWIFKNNIPLLLKGEVKHQILNSFAKELEIILDMAKSLT FPLPLLAATHQQLIHGVSHVCYNDDDDPALIKVWEKVYGVKISDAATADAYNPEQLASEFTTDSKTVRRIGFIGLGAMGF GMATHLVKSNFCVVGYDVYEPTLVRFANAGGLVGNSPAEVSKDVDVLIIMVANEAQAENALYGEHGAVSVLPPGASIVLS STVSPAYVSQLERRLHNEGKNLKFVDAPVSGGVMRASMGDLTIMASGTDDALKSAGLVLSALSEKLYVIKGGCGSGSGVK MVNQLLAGVHIASAAEAMAFAARLGLNTRLLFDFITVSGGTSWMFENRVPHMLNNDYTPYSALDIFVKDLGIVTRESSSL KVPLHLSTIAHQLYLSGSAAGWGRKDDAGVVKVYETLTGVRVEGKLRALKKDVVLHSLPPEWPQDHVLDIQREIESNSKT LVVLDDDPTGTQTVHDIEVLTEWTIDSLVEQFRKSPKCFFILTNSRSLSSEKASILIKEICKNLDSAAKSVDSIDYTVVL RGDSTLRGHFPEEPDAVISVLGEMDAWIICPFFLQGGRYTIEDIHFVSDSDTLVPAGDTEFAKDAAFGYKSSNLRDWVEE KTNGRILASSVVSISIHLLRKGGPDAVCQHLCSLQKGSICVVNAASERDMAVFALGMIRAELMGKRFLCRAAASFVSARI GIISKPPVLPKDIGIVRERNGGLIVVGSYVPKTTKQVEELKLQCGQFLRSIEVSVEKVAMRSIEEQEEEISRTAELADVY LKAHKDTLIVTSRNLITGKTASESLDINFKVSSALVEIMKRITTKPRYIIAKGGITSSDLATKALGARCAKIVGQALAGI PLWQLGPESRHPGVPYIVFPGNVGDSKALAEVVKSWTCPIRLSSTKDILKNAEKGGYAVGAFNVYNLEGVEAVVSAAEEE QSPAILQIHPAALKQGGVPLVACCISAAEQASVPITVHFDHGTSKQDLVEALELGFSSVMVDGSNLSFNENAAYTKFISL LAHSKDMLVEAELGRLSGTEDDLTVEEYEAKLTDVNMAQKFIDETGIDALAVCIGNVHGKYPASGPKLRLDLLKELHDLS QKKGVFLVLHGASGLGEELVKECINLGVRKFNVNTEVRKAYMDSLITPKKDLVQVMASAKEAMQAVAAEKMRLFGSSGRA

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
SUPERFAMILY	SSF48179 View details on SSF48179 Search for proteins/transripts with this domain View external data on SSF48179	1	121	121	3.29E-19	IPR008927 Show description in modal box View details on IPR008927 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.1040.10 View details on G3DSA:1.10.1040.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.1040.10	1	126	126	1.8E-19	IPR013328 Show description in modal box View details on IPR013328 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF14833 View details on PF14833 Search for proteins/transripts with this domain View external data on PF14833	1	113	113	3.4E-16	IPR029154 Show description in modal box View details on IPR029154 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR42851 View details on PTHR42851 Search for proteins/transripts with this domain View external data on PTHR42851	1	121	121	0.0	–
PANTHER	PTHR42851:SF9 View details on PTHR42851:SF9 Search for proteins/transripts with this domain View external data on PTHR42851:SF9	1	121	121	0.0	–
PANTHER	PTHR42851 View details on PTHR42851 Search for proteins/transripts with this domain View external data on PTHR42851	109	1060	952	0.0	–
PANTHER	PTHR42851:SF9 View details on PTHR42851:SF9 Search for proteins/transripts with this domain View external data on PTHR42851:SF9	109	1060	952	0.0	–
Gene3D	G3DSA:3.40.50.720 View details on G3DSA:3.40.50.720 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.720	143	310	168	1.3E-41	–
SUPERFAMILY	SSF51735 View details on SSF51735 Search for proteins/transripts with this domain View external data on SSF51735	148	307	160	7.88E-31	IPR036291 Show description in modal box View details on IPR036291 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF03446 View details on PF03446 Search for proteins/transripts with this domain View external data on PF03446	149	307	159	1.1E-32	IPR006115 Show description in modal box View details on IPR006115 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00895 View details on PS00895 Search for proteins/transripts with this domain View external data on PS00895	152	165	14	-	IPR002204 Show description in modal box View details on IPR002204 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.1040.10 View details on G3DSA:1.10.1040.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.1040.10	311	443	133	1.5E-45	IPR013328 Show description in modal box View details on IPR013328 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF14833 View details on PF14833 Search for proteins/transripts with this domain View external data on PF14833	314	434	121	1.9E-31	IPR029154 Show description in modal box View details on IPR029154 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48179 View details on SSF48179 Search for proteins/transripts with this domain View external data on SSF48179	314	441	128	6.57E-34	IPR008927 Show description in modal box View details on IPR008927 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF07005 View details on PF07005 Search for proteins/transripts with this domain View external data on PF07005	481	718	238	6.6E-63	IPR010737 Show description in modal box View details on IPR010737 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF142764 View details on SSF142764 Search for proteins/transripts with this domain View external data on SSF142764	481	913	433	8.5E-69	–
Gene3D	G3DSA:3.40.50.10840 View details on G3DSA:3.40.50.10840 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.10840	486	716	231	1.1E-16	IPR037051 Show description in modal box View details on IPR037051 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.980.20 View details on G3DSA:3.40.980.20 Search for proteins/transripts with this domain View external data on G3DSA:3.40.980.20	734	917	184	1.2E-8	IPR042213 Show description in modal box View details on IPR042213 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF17042 View details on PF17042 Search for proteins/transripts with this domain View external data on PF17042	743	909	167	1.9E-37	IPR031475 Show description in modal box View details on IPR031475 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.20.20.70 View details on G3DSA:3.20.20.70 Search for proteins/transripts with this domain View external data on G3DSA:3.20.20.70	918	1200	283	7.6E-94	IPR013785 Show description in modal box View details on IPR013785 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR00167 View details on TIGR00167 Search for proteins/transripts with this domain View external data on TIGR00167	922	1200	279	6.4E-70	IPR000771 Show description in modal box View details on IPR000771 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51569 View details on SSF51569 Search for proteins/transripts with this domain View external data on SSF51569	923	1200	278	1.33E-82	–
Pfam	PF01116 View details on PF01116 Search for proteins/transripts with this domain View external data on PF01116	924	1199	276	1.3E-89	IPR000771 Show description in modal box View details on IPR000771 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00947 View details on cd00947 Search for proteins/transripts with this domain View external data on cd00947	925	1198	274	1.26134E-109	IPR000771 Show description in modal box View details on IPR000771 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:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	Molecular function	Catalytic activity	Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic.	Subterm of View details of GO:0003674
GO:0005975 View details of GO:0005975 AmiGO InterPro QuickGO	Biological process	Carbohydrate metabolic process	The chemical reactions and pathways involving carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y. Includes the formation of carbohydrate derivatives by the addition of a carbohydrate residue to another molecule.	Subterm of View details of GO:0044238 View details of GO:0071704
GO:0008270 View details of GO:0008270 AmiGO InterPro QuickGO	Molecular function	Zinc ion binding	Interacting selectively and non-covalently with zinc (Zn) ions.	Subterm of View details of GO:0046914
GO:0016491 View details of GO:0016491 AmiGO InterPro QuickGO	Molecular function	Oxidoreductase activity	Catalysis of an oxidation-reduction (redox) reaction, a reversible chemical reaction in which the oxidation state of an atom or atoms within a molecule is altered. One substrate acts as a hydrogen or electron donor and becomes oxidized, while the other acts as hydrogen or electron acceptor and becomes reduced.	Subterm of View details of GO:0003824
GO:0016832 View details of GO:0016832 AmiGO InterPro QuickGO	Molecular function	Aldehyde-lyase activity	Catalysis of the cleavage of a C-C bond in a molecule containing a hydroxyl group and a carbonyl group to form two smaller molecules, each being an aldehyde or a ketone.	Subterm of View details of GO:0016830
GO:0050661 View details of GO:0050661 AmiGO InterPro QuickGO	Molecular function	NADP binding	Interacting selectively and non-covalently with nicotinamide-adenine dinucleotide phosphate, a coenzyme involved in many redox and biosynthetic reactions; binding may be to either the oxidized form, NADP+, or the reduced form, NADPH.	Subterm of View details of GO:0000166 View details of GO:0050662
GO:0051287 View details of GO:0051287 AmiGO InterPro QuickGO	Molecular function	NAD binding	Interacting selectively and non-covalently with nicotinamide adenine dinucleotide, a coenzyme involved in many redox and biosynthetic reactions; binding may be to either the oxidized form, NAD+, or the reduced form, NADH.	Subterm of View details of GO:0000166 View details of GO:0050662
GO:0055114 View details of GO:0055114 AmiGO InterPro QuickGO	Biological process	Oxidation-reduction process	A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons.	Subterm of View details of GO:0008152

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0196100.8, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0196100.8