Transcript — View — Lotus Base

Field	Value
Gene ID	LotjaGi3g1v0380300
Transcript ID	LotjaGi3g1v0380300.1
Lotus japonicus genome version	Gifu v1.2
Description	Glutathione-regulated potassium-efflux system protein; TAIR: AT4G00630.1 K+ efflux antiporter 2; Swiss-Prot: sp\|O65272\|KEA2_ARATH K(+) efflux antiporter 2, chloroplastic; TrEMBL-Plants: tr\|K7L085\|K7L085_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0380300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:77284669..77302656) extracted from Lotus japonicus Gifu genome v1.2.

CCCGTTGATGTAACAGTCACTCAGGGTGACTCGTTTAGAGAGCACCATCGCGTACGATTGGAGTTTGTTTTCCACGCGCT GAACCTGCGAATGGAAAAGATAAAACTCGTGAAGAATATCCACCTCTCTCACTCTCATCTTCAGTCACTGACCGTTTACA CCAAAACACGCAACTCGCTCATTTTCTCACCCGAGAAAATTTCATTTTCCCTCTTCCCAAACACGCAAATTGAAAACGGT TACAGTTTCTTCTAGCTTCGGTAATTTCATTCATCAACGATTCCAGTTCCGTGTTGCAGAAAACGGTTATCTTATCTGTT TCTTCTGTTTTGATTTCTGAATGTGAAAATCGAAAATGCTTCTACTATGCTGAGCTTTCTAATTTTGTTTCAGGTTTTGT CTACGGAAATTGCTTGTGACATGCATTGAAGTTGAGTACTGGTTTTGGAAGGTCACACAACATGGATATAGCTTTTAGCT TACCACGGTCAAAAGTGGTATTCGATGGCTTTGATTCTTGCATTGCATTTGGCGGGAGAGGGTTTGGTTGTGCTTTTGTT GGAAACTCGAGAACGATTTTGAAAGCTCGTTCAAGAATGGTTTGTGTGGGAGAGTTTCGAGTTTCGAATGTGAAGAGGGG TTTGTCTTGTAAGGTTAATAACCTTTTTAGGGGGAATAGGGGGATTTGGTTGAAGTGTCAGGGTGATGATTCTTTAGGGT ATGTCAATGGTAATGGCAGGAATGTTAATTATGTCAAAGGTAATAAGGATGAGGGCTCGGTTTCCGGTGCTGAATTGAGT GAGTCTTTGGGAGGAGAAGAAGGGAAAGGAGAGAAGAAAGAAGTTGGGGTTGAAGTAGAAGTGGAGGTACAAAGTGTGGA TGAATTGAAAGAGCTGTTGCAGAAGGCCTTGAAAGAATTAGAAGCTTCTCGAGTAAATAGCTTAATGTTTGAGGAAAAGG TTAAGAAGATAGCGGAAACTGCGATTTCTTTCCAGGATGAAGCCGCGCGTGCGTGGAATGATGTTAATTCTACCCTTGAT ATCATCCAAGAAATTGTGAGTGAAGAATTTGATGCCAAAGAAGCTGTTCATAATGCTACGATGGCGCTTTCTTTAGCTGA GGCGAGGCTTCAAGTAGCCGCTGAATCTTTGAAGGTTGCGAAAGATGTTTTCAGTTCCACGCAAGGCTCTAACGGGGGTG ATGGCGATAAAGATGAAATGCAAGAGGAGAAAGATCTCGTGGTTGCTCGGGAAGATGTCAAGGAATGTCAGACAAGTTTA GCGAATTGTGAGGCAGAACTGAGGCGCGTCCAAAGTAGAAAGGAGGAGTTGCAGAATGAAGTGAGCAACTTGCATGAAAT GGCTGAAAAGGCACAGCTGAATGCAGCGAAAGCGGAGAAGGATGTCACAGACATAATGCATTTGGCTGAGCAAACTGTTG CTATGGAACTTGAGGCTGCACAGCGTGTGAATGATGCGGAGATTGCATTACTGAAAGCAGACAAGTTGGTCTCTAGTTTC AATGCTGATAATACCGCAGATACTGTACAATTACAAGATGTTGTGGCTGCTTCTGAGGAGGCGAAAGTGGTTCAACATTT TTCTGTAGATGATGCTGTTAAAAGAGACCTTGGTTCCACAAGTGATGAGGAGTCTTTGCTTGCCATACAATCACCAGAGA CACTATCTAATAAAACCAGCCAAATTTTGGAAGATGTAACACAGTCTGATTTATTGAGTGATAATGAGAATGGACAGCTA AGCTTGGACTCTTCTAAAGAAGCTGAAGTCGAAGTAGAGAAGTCAACGAATGTAGTTCAAATGAAAAAGCAGGAAACACA GAAAGATTCTACTAGAGATAACTCACCAATTGCCCCCAAGACATCATTGAAGAAGTCCTCCCGATTTTTTCCTGCATCAT TCTTCTCTTGTACTGCAGATGAGACTGATTACACACCAGCATCAATTTTCCATGGTCTTGTAGAGTCAGCACAGAAGCAG TTACCCAAGTTGGTTGTTGGGGTATTGTTAATTGGAGCAGGGTGTGTACGATCTTTCTTTAGCTCGCTCCTTTTCTTGCT GTAGTTTTTATTTTGATTTTAAACCTTTATAGAACCAATTTACCTGGAAGTGTCTATTAGTCATATAGCTGGCTTACATT ATGTATGGTATTGAAGTAATTAGGATGGTAATTTTTGCTCTCTGTGTAACATTATTGAAAAATACAAGGCTGAATTATTC ACTGGACTGTTTAAAAACTGATGCTGAAATTAAATTCCTACCCTGGGCAAGGGACTTATGCCTGTCTATGTGTCAACTTT ATGAAGTTGTTCTATCCATTTTAAGGATGGCTATATATCATGCTTTGTTGTTATGTTAATTAGATGATAAGATCACTACG AAGGTTTTATCCTGTTCTTTAAACACTGGTGGAATTTTATTCCAGGATTTCCTTTTATGCCAATAGAGCAGAGAGGAGCA CACAGTTGCTACAGCAGCCAGAAGTCATTGCAACCACTGTCGAAGAAGTTTCCTCAACTACAAAACCTCTGGTTAGACAA CTTCAGAAAATCCCCAAGAGAATTCAGGAAATTATTGCGTCATTACCTAATCAAGAGGTTTGTTTTTCTTGGTTTTGCCC CTTTATTCTCATGCTCAATTTGGTAAGTTTTATCTGACTCCGAATGGAATTTATTATAGGTGAATGACGAGGAAGCCTCC CTCTTTGACATGCTCTGGTTATTACTTGCAAGTGTTATATTTGTGCCCATATTTCAAAAAATTCCTGGAGGTAACTTGGT TGTCATGTTTTCTTGATGATTGAACATTGTCTGTCAAAGTATAACAGAGTTGTTTGACTAGATTATTTATTGTTTGACAT GATGATTGCATATTGTCTGCCACCAAACTCTATACATTTATTATACGATGAAGCTTTAGTGTATCGATTATCTCTGCCTT TCTCGCTCATGTTTCTCTACCTATGTCACCGTTTGTTCGTTGTTTGATAATAACCATAAAAGAACTCGTAATGTAAAAAA AAAATTGGTTACTTGAACAGAAAAGTTTCAATCTATTCATATGCATCTAACCATTATCTGATTTATGCTTTGGTATACGT GTTTTTGTTGTAAATGTCGTATTTGATAAAACCGAATGTGTCTGTGACATTCATATATTGTTTAGCTGATGCTGTGCCCC TATCTGCAACAATGTGTAGGCAGTCCTGTTCTTGGTTACTTGGCTGCTGGTATCTTGATTGGACCTTATGGTCTCTCCAT CATTCGCAATGTTCACGGGACAAAAGCAATAGCTGAATTTGGAGTTGTTTTCCTGTTATTCAATATTGGCCTGGAGGTGG AGCTTCCTAAAAGATCCCATTCTACCCAAACTTTGATTATCTCCAAAATAAAAAACAAACTGAAGCTCTGAACTATTTTT TATAGCTCTCTGTTGAAAGACTTAGTTCAATGAAGAAATATGTCTTTGGATTAGGCTCTGCTCAGGTGATTTATCCTTCT TAATGTTTTTTATCCTCAAGCTATTCTGTTTATATGCTAGTAATGTGCGGGCTAACAAAAATGCAGGTTCTGTTGACTGC TGTAACTATTGGCGTGCTGGCTCATTATGTTTGTGGCCAAGCTGGCCCCGCTGCTATTGTCATTGGGAATGGCTTGGCAC TATCGTCGACTGCTGTTGTTCTGCAGGTAATAATTTGATTACTGTTTGTTTTTAAATTTTTACTCTGGTTTACATTCACA TGTTCTAGTCAGTTTTACTACTCCAGCTTTATGCTTCTATTTAATGTACATTCCGAAAATGTCATATCTACATTTTCTAA AAGCATTAACTGTAAAGGGATTTTTTAAAATTGTATGTTGCATCTTTTAGTAAATATATTTATGGTTGTCATTACTTATT AATGCTTGAATTCTATAGCTGTAACAGATACCCGTCTTCGAAGATTCCCATGAGTCTAAATATTTAGCATAGTAGTCAAG GCTGTATTCTTTCTATTTTATAATTCTATTTTCATGTTCGCGGAGTCTGCTATGTTGCAATATTTCAACGAAACTTGTTT TGCAGGTGTTGCAAGAGAGAGGTGAAAGCACATCACGTCATGGACGGGCTGCATTTTCAGTTTTACTTTTCCAGGTTATT TTGTTTCATACCCATCTATCTAGAAACTGAAGAATATTCTTCTGAGATGCATTACTAGATAATATAATGCTTGTGAATTG TGAATTTGTGATACATAGTTGGCTAAACTGTGTCTTACGTGACGCATCTTGCTTTAACATTCCATGCAGCCTTTACCTTC TGGATAACTTGAATTCCATGTCCAAAAGTGGCAAAATATGTTAATATGAGATAATATAAGTAGAACTATGTATGCACCCC AGTACAATCAAGCATTATACTTGGATACTGTGGAAAATAGGAAGAATCGTGGTGTTTTCCACTCTTATTTCAATTTTCAT CAAAGAACAGTGTTGAAATTGTAGGATTTACTCTTTTAGTGTATGAAGAGAGAAATTTTAAGTATTCTAAACAGCTGTTG ATACTTGATTAATTACTGAATCAGAAGTACAATATTTATAGACTAGATTTCTATAGGTTTCCTAGTCAACTACTAACTCT AAACAATAAAATCTAAATAATAAATCTCATCTTATCTTATCCTAATCTATCATAACAAAATAAAGTCCAGTGTTGTTATC ACGAATAGCAGAAAATAGCGGAAAGCCAAAAATCCGCTATTTCAAGCCCTGAAAATGGCAAATAACGGAGTAGTGGTGAG CCCTCAGAGAGCTGCACTATAGCGATATAGCGCCGCTATAACAGCTATTTGTCAACACTGATAAAATCTAATCCTAATAA ACCATATCCTAACAAATCGTCTCAACAAGATATATCCTAATAGATATCTCTTAATAGATATCTTAACGCTCCCTACTTAC TTAGCTTTAAGCTTGTTGCAAATATATCCTTTAGATAAAGGAAACCTAATGAGAGTCTTGACGAATATCTGGATTGAATA GGCCCCCTTCTAAATCCATGGGCAAACAAGAGACAACTTTCCATACTTGATCAAGCTAAGATTGATGCAAGTCAAAACTA ATTCTTCTGGATTATTGCAGGATCAACTGAGTTAGCAAGCAAAAGTTGACAAGGAACTAGGGAGAAAAACTAGCAACAAT ACGCCCCAAAACAAAACAAGACCGAAAACAACAGCAAACCAGAAGCAACCACACAGAAAAAAAAAAAAATCTTGGGGTCG ATTGATTGATGGCTTCTGAGATGGACAATGGTGTCAACTTTGACACCAATAACTCTTGAAAACTATAGAGTGGGCCAGCG CTAACAGACACATAAATAACAAAACAGACACATAATGATAAATAGAAATACAGACACATAACTCCTCAAATAATCGGGGA AACATGTGAACATAAATAGCAGAACAGACACATAATGATAGAATACTAACTTCTCCTATATAAACTGAATAATCCCTGTC ATTTGAGCATTGTCCTCAAATAATCGGGGAAACATGTGAACATAAATAGCAGAACAGACACATAATGATAGAATACTAAC TTCTCCTATATGAACTGAATAATCCCTGTCATTTGAGCATTGTCCTAATGAACAAGGATGAAATCGTGAAAATAAAATCT TCATAGTTGGCTGTCTGGGAACATTAATATATTTGCCACTGAAATCACCTTATTTGTTATGCTTTTCTGCATAGATCCTC AACTAGCATCCTCTTTGCCTTTGCTGTATCTTGTTAATTGGTATATCAATTTATTGTTCCGACATTTATTATTTATTTTA GCTCTTAACTGTCTTCGGTGTTGCAATATGCCAAAATTAACTATTTCCTCTCTGTTTCTAAACAGGATTTGGCTGTTGTT GTCCTGCTAATACTCATACCTCTTATTTCACCTAATTCTTCCAAAGGAGGGGTAATACTTTCTAGCTCTCCTTGTCTTAA AATACATTTATTAGTTAGATTACAATATTGTGTTCATTAGGAATAGAACAGGACTACTTAAAATTGTGTGGACTCCTTGT GGAAAGACAAAGTTTATGACTAGGATGTTCTGAGTCAATCATCCACCCCCCCTCCCAAAAAAAATGAGGTTATCCTCTAT TGTTTAGAGAACTTGCATTTATTTGGATAATTTAGTTTAAATTTTATGATATATGCACTAAAGTAATCAAGACACAGTTT CACTCTTCTAGTCTTCTAACTAAATTTGGTTCATATTAAATGCTTGATTAGAAATTGTTGACTTTACCTTACTTCTGTCA TCACCATTATAAAAAGTATAATGTAAAACCACTCATGCTTACAGGTTGGATTTCAAGCCATTGCAGAAGCTCTTGGTCTG GCTGCTGTTAAGGCAGCAGTTGCCATCACTGCCATAATTGCAGGAGGACGATTGGTAAGTGGTATTCAGAAGAATCAGAA CTGAGGTGTGGGACTGGGATGTGTGATATCAATTATTAAAATATAGTTTGTATCTATCTAGATTTTGTATTTTCTGCTTG GAGTGTTGGGAGCAATAATAGAAAGGAGAGAAGAGAGAAAGAAATATCACACAGGAATTTTAACGTGGTTCGGAACACAA TGTGTGTATCTACGTCCACGGCTACACTAGGTAGTAATATTTCTCTTTGGTGTGTATAATGCTTACAATGAGGTGCTTAT ATATAGTAGGAGTAAGTCAACCTCCTCCTTATTCTAAGCGATGTGGGACTTACAAATAGACTACATAAGCGATGTGGGAC TACAAATAGACTACATAACATAACATGGAGGACTTACATTGTCTTGTCAGTATGTTTTTTTTTCTTCCAATAATCTAAGT TTACATGGAGCATAACATTAAGTCATCAATTCTGTCAACAGACTGTGAAATAGAGCATTTAATGCTCTTAATTAGCAGTT ATATTTTTGTTTGTATATAATTATGTTGTTTCCTGTTTGTACTTAGTTTATTTTAGGTAGTTTCTTATTTTCATTCATTC TCCCTAATTCTCTCTTTAGTCAAGGATTTCCTTCTTTGACTTTGATCAATCACATTATGTAATTCCCTCTATAAGAAGAG GAATCCCTGTACAGTTTTTCATATCAATAATATTACCAAATATTTCAACTTGGCATCAGAGCAAAGATCTCTGCGCATCT GATTTGCATCCATGGCTGACAGTTCCTCAGCCAGCGATGATCAGAATACGGAGGAGATTGTGGTTCCCAAAGTCTCGCAG CCTCCAAGGCAGGAGCAGCGAGTCCTGTTCGGCGAATCTCATTCTGTGCCTCCAAGGCAGGAGCAGCGAGTCCTGTTCGG TGAATCTCATTCTGTCCAAATCACCACTTTTCGACTCAATGGGTCGAACTATTTCCGGTGGTCCCAATCTGTCCAGTTGT ATATTCGTGGCAGAGGAAAACTTGGGTATCTCACTGGTGAGAAACCCATGCCAGATATTGCTGATCCACAATATGCTGTT TGGGACGCTGAAAACTCCATGGTGATGACATGGCTGGTAAACTCCATGGAGGAGGACATTAGCAGCAATTACATGTGTTA TTCCACAGCCAAAGAGCTATGGGATAGTGTCACGGAAATGTATTCAGATCTTGAGAACAAATCTCAGATCTATGAACTCA CCTTGAAAGTCAGAGAAATTCGGCAGGGAGGTAATAACGTGACAAAATACTTCCACTCTTTGAAGCGAGTTTGGCATGAT CTAGATCTCTTCAACACTTACAAGTGGAACTCTGCAGAGGATGCCAAACACCATCGACAAACCGTGGAAGAAGGTAGAAT ATTTCAGTTTCTTGCTGGTCTGAATGAAGAGCTAGATGAAGTTCGTGGCAGAATCATTGGGAGAGCAACCTTACCTTCAT TGGGTGAGGTCTTTGCTGAAGTTAGAAGAGAGGAAACTCGCAGAAGTGTGATGATGGGAAAGTCCAAAACGGATGCACCT CCTTCTGAGACCAATGCTCTTGCTGTAGAAACTGTTGCCCTTAAGACTTCTACTAACCAGAAGAACTTCTCAAACCGCTG GTGTGATCACTGCAACAGACCCGGTCATACTCGGGAAAGTTGCTGGAAAATTATTGGGAGGCCAGCACATCTAAAGGGTG GCAAGTCAGGTCCTAAAAATCAAAAATCTTTCCCTACAGCTCATGAGGCAGAAAAGACTTCCTTGAAAAAGGAACAAGTT GAGGAACTCATAAGGTTGTTAAATTCTAATTTTTTATCTGGTACTCCTAGTGGTTCTGTGGCACAAACAGGTAATTTTTC TACCCCTAGCTCCCTTAATTGCACCTCAAATATTCATGCACCATGGATCATTGATTCAGGTGCTTCAGATCATATGACTA GCCTTTCTCCTTTATTTAAAACCTATTCTCCTTGTTCTGGAAATGGAAAAATTAGAATTGCAGATGGTTCTTTTTCCGCA ATTGCAGGGAAGGGGAAGATTACCTTATCCAATAACATTGACTTAGGAAAAGTTTTACATGTGCCCAAACTATCTTGCAA CCTTCTTTCTATTAGCAAAATCTGCAAAGATTCCAATTGCAGTGTGACATTCTTTGACACTCATTGTGTTTTTCAGGACC GGATTTCGGGGAAGATGATTGGCAGTGCTAAGATGAAGGATGGACTTTACTACTTTGAGGATACTTTCAGAAATAAAGCA GCTCAGGGTCTTTGTGGTATGAGTTGCACCTCTGTTAGGGACCAAATAATGCTCTGGCATAACAGACTAGGGCACCCGAA TTTTCAATATCTTAGGCATTTGTTTCCAGATTTATTCAAAAATGTTAATTGTTCTTCTCTTGAATGTGAAAGTTGTGTTC TTGCAAAAAATCAAAGAGCTCCTTATTATTCTCAACCTTATCATGCATCTAGACCTTTTTACTTAATCCATAGTGATGTT TGGGGGCCTTCAAAAATTACAACTCAATTTGGAAAAAGGTGGTTTGTAACCTTCATAGATGATCACACCCGGTTGTGTTG GGTCTACCTTATGCATGAAAAATCTGAAGTTCCTAATATATTTAAAAGTTTTTCACAAATGGTAGAAACTCAATTTGATA CAAAGATCTCCATTTTGAGGAGTGATAATGGAACTGAGTACTTCAATCAAAATCTCAATGAGTTTCTGAAAAATAAAGGC ATTCAGCATCAATCGACATGTCCAAATACTCCTCAACAAAATGGCACCGCTGAAAGAAAAAATAAACATCTCCTTGAAGT AGCTCGTGCCATTATGTTTGAGAGTAATGTTCCAAAGTATTTGTGGGGAGATGCTGTCCTAACAGCAGCCTATCTTATAA ATAGAATGCCCACTCGTGTATTGAATTATCGCACACCTTTGGAAAATTTCAAAACCATTTTTCCAGCATGTCGATTACAT ACTGATATGCCTTTAAAGGTGTTTGGTTGTACAGTTTTTATGCATAAACCTTCCACATCTCGGTCCAAACTAGACCCAAG GGCAGAAAAATGCATTTTTGTTGGTTATTCTCCAAACCAAAAAGGATATAGAGTCTTTAATCCTATCACAAAGAAGCTTT GTGTTAGCATGGATGTTACCTTTCTTGAACATCAACCTTTTTTTCAAAAAAATTCCCTTCAGGGGGAGAATAATAATGTG AGTGAAGACAATTTTTTGCATGAACCGCTGCCCATTCCTATTGTAGACACAGGGAATACAAATTTTATTGATGAATGCAA CAAGGAAGAACATGTGGAAACAAGTTCTGAAATTTCTAAAGAAAATCTTATGCCAGACTTAGGTGGAGCCCAAACAGAGA AAGAAATACCACAGTCAAAAAAGGAGTTCCATGTTTATACTCGGAAGTATCCTAAAAGGACCAAAGACCAATCCATCATC TCTGCACCAAGCCAACCAGAAATCCCGGAAGAAGGCCAAGTAAGAATACCACAAGAAATTCGAGGTAACACTGACATTTT CACTTCTACTATTGAATTACCCATAGCTATTAGAAAAGGAACCAGAACCTGCACCCAAAAATCAGAAAAATCTAGCACAA ACCATCCCATTTCCCAATATGTTTCCTACCAAAATCTTTCACCGAATCACAAAGCTTTTACCTCTAAAATAACAGATCTG TTTGTGCCTAGAAACATTGAGGAAGCACTAGATGATCCCAATTGGAATTTAGCAGTCTTAGAAGAGTTGAGTGCACTGAA AAAGAATGAAACTTGGGAAATAACAGACCTACCACGTGACAAAAAACAGGTGGGTTGTAAGTGGGTATTTACCATTAAGT GCAAGGCCGATGGAAGTGTAGAGAGGTACAAGGCGAGATTGGTGGCAAAAGGGTTCACTCAAACTTATGGAGTAGACTAT CAAGAGACGTTTGCTCCAGTTGCTAAACTTAACTCTGTTCGGATTCTTATATCCCTTGCTGCAAGTTACAACTGGCCTTT ACATCAATTGGATGTAAAGAATGCTTTCCTGAATGGGGAGTTAGAGGAAGAAGTGTTTATGAGTCTTCCCCCCGGATTTG AAGAAGAACTTGGAAGAAATAAGGTGTGTAGACTAAAGAAGTCATTATATGGGCTGAAGCAATCTCCAAGAGCATGGTTT GAGAGGTTTGGAACAGTGGTAAAAGGGCTTGGATATATCCAAAGCCAAGCTGATCACACATTGTTCTATAAACATTCAGC AGATAATAAGGTTGCTATCTTGATTGTATATGTTGATGATATTATTCTGACAGGTGATGATAGCTTGGAACTCAAAAATC TGAGGGAGAAACTTGCTAAAGTTTTTGAAATCAAGGAACTTGGCCCATTGAAATACTTCCTTGGAATTGAGTTTGCAAGA TCAAAGGAAGGTATCTTTATGAACCAGCGAAAGTATATTCTGGATCTTTTAAAAGAAACAAGATTACTTGGATGCAAAGC TGTAGAAACACCCATGGAGCCCAACTTAAAGCTGCAACCAGCTGAAACAGAAAATATGGTGGACAAAGGAAGGTATCAGC GACTAGTGGGAAGGCTAATATACTTATCTCACACCCGTCCAGACATTGCCTTTGCTGTAAGCATGGTAAGCCAGTTTATG CATGCACCAGGTCATGAACACTTGGAGGCAGTTTTTAGAATCTTAAGATACTTGAAGGGATCACCTGGGAAGGGGCTTCT TTATAAAAACCGTGGGCACCTTCAGGTAGAAGCCTACACTGATGCAGACTGGGCAGGGAGTGTGACAGACCGAAGATCAA CATCAGGCTATTGCACCTTTGTTGGAGGAAACTTGGTTAGTTGGAGAAGTAAAAAACAAACCGTTGTAGCAAGGAGTAGT GCAGAAGCTGAATTTAGAGCAGTTGCTCATGGAATTTGTGAGGCATTATGGGTGGAAAAGCTTCTACAGGAATTAAAGGT TTTCAATTCTCCTCCAATAAAGCTTTATTGTGACAACAAGTCTGCAATATCTATTGCACACAACCCGGTCCTACATGATA GGACCAAGCATGTCGAAGTTGATAAACACTTCATCAGAGAGAAGATAGAAAGTGGGCAGATTTGTATTACATATGTTCCC ACTGCAGAGCAATCGGCAGACATCCTAACCAAAGGATTACCCAAGAAATCCTTTGACAACATAACTAGCAAGCTGTCTAT GGAGGATATCTTTAGGCCAGCTTGAGGGGGAGTGTCAACAGACTGTGAAATAGAGCATTTAATGCTCTTAATTAGCAGTT ATATTTTTGTTTGTATATAATTATGTTGTTTCCTGTTTGTACTTAGTTTATTTTAGGTAGTTTCTTATTTTCATTCATTC TCCCTAATTCTCTCTTTAGTCAAGGATTTCCTTCTTTGACTTTGATCAATCACATTATGTAATTCCCTCTATAAGAAGAG GAATCCCTGTACAGTTTTTCATATCAATAATATTACCAAATATTTCAACTAATTCTACAGTCGAGAATGATCCTTTAGAG CAGTTAGTATGTTGACATCTAAAGATTGATAATTATAGAGAAGTTTTGCTACAAATTACTGACTAGGTGCAGCAGATTGC TTTTCATGTTCTGTAATGATCTATAACAAATGGTTTGGTGAACATTCAGATATTCTTATCGTGGTGGATGGAAGCTACCA ACTGGAAACTACTTATCATCTATGCAATGCTTAAATTTAGTTTCTTATTATTGTTAAGATGAGTTTTATCCTGTAGTGGT TAAACACATGAGGTCTTGATGGAAGTTCATAGGCTTAGTGGGATTAAATGGAGTAGACATTTAGCTTATTTATTATTAAG TTTATCAAGAACCTGATTCTGAAACATTAAAAAAAAAATTTGAAGGGTAAGCTCTATACTTTTGGCCTTGGGTTCATATT TCTGAAAGCATCGTATGTTTTTCTTTATTTGTATTTGGTCTGTAATTTTCCCCACTTTTCTTTTGTACAGCTCCTTCGAC CTATATATAAACAGATTGCAGAAAATCGAAATGCAGAAATATTTTCTGCCAATACACTATTTGTTATTCTCGGGACCAGC CTTTTCACAGCCAGGGTGGGTGATTGTACAACTGTTTTTTTCTTTTTTCCTTCAGTTTGTGTTTTTGAACCAAGCAAAGG TTTGGCAGTTTACTTTAAGTTATTCTTTTGTCCATTAAGTAATAATTTTTTGCCAGTGTTTGCTAACCTTACTTTTTTTT AACTTAACTTTTCTTCACCTAAAACAGGCAGGACTTTCCATGGCATTGGGAGCATTTTTGGCTGGTTTACTACTTGCGGA AACTGAATTTTCCTTACAGGTCGAGTCTGATATTGCTCCATACCGTGGCCTTCTATTGGGCCTGTTCTTTATGACGGTGG GTGTTTAATATTTGAATTCAAAAGTTAATTAAATGTATTGTTCATTTATTCATGCATCATTTACTGTATACTTTTTAATC CTGTAGTCAATTACTTATTTTGGAATAATTCTTATAAGAGTCTTCAAAGGAATGGCTGCTTGAAGTTTGTGATCTTTTGA GCAAGCCAGCATCAATGTATGTAATTAATGGAAAGTAATTTTGTGACTTTTCAGGTTGGAATGTCAATTGATCCAAAACT TCTTCTCTCAAACTTTCCAGTCATTTCAGGGACACTGGGACTCTTGATATTTGGAAAAACTATCTTGGTTGCTTTGATTG GCAGAATATTTGGCATTTCACTAATTTCTGCCGTTAGAGTTGGTCTTCTTCTTGCTCCTGGGGGAGAATTTGCCTTTGTG GCTTTTGGTGAAGCTGTTAATCAGGTTTTTGTCCTTGAAAGCTGTTTTGCTACGACCTCTGTGGTTAATAAATAATTATT TGTAACTAAATCTCTATGTTCATTTAAAGTAAGTTATTCTGCTTGTGTTACTTTTTAACAATATGCCTTCTTGATGTTTG TAACATCAAATTATTTTGGAGGCTTATAATCCTGGTCGTCTTTCTTATGAAATAAACTACGTAGAAAATATGTTCTGACT AGGTAAGTGTCGTCAAAATAAGGTCTCTAGCTGTTATTCTGATGTTTTATGACCTAATAAGAGTCTTGAGATGCAATGCC ATCTGTTCTTGCATTGCACAGTGACTAGGATTATCTGAATTAGGGCGTTTATTTCAAGATCAAGAGGGCTTGAGTACATA CATCATGCTTGGATAATTTGCCTTTATTGCTTTGTAGTGTTTATAGAAGAAATATAGGATTCTATGGAAGTGTCCCTAAT TTAATTATTACTCTTAAGTTTTTAATTAGATTCTTTGATTTAAGAGGGCACGGTAGATACTTTATGCTTAAAATTTACTA TTGTTGCTTGGTAGTGATTTTAGAAGGGAAGGAGTATATAGGGTTCTATCAAGGTGTCCTATGTTTTGATTACATGGAGT GCTTGGATGGAGGGAACTCAAGGATTTTCTGGAATCATAGAACCATCATTATCTCATTTAATGAGCATAATCTTAAATCT TGTTTTTCTTCGGTCTTTGGCTCAATGGGATATTTATGTGATTTCCATGTATGTATATTCAAGGAGATTGGTAGGCTTTT CCTGTGCGGTTCTTTTTTTCTTCCATATTCTCTTGGATACTAATATTTTTAATCGTGTTACTGTTGCCTGATAGTTTTTC AATTCTCTTGGATCCTTTCCTTTCTATTTATGAATTCCTTTTTATCTTAAAAAAGGGGAAGTAAAAAAGTTCAAAAATAT CGATTAATGTACTGATAGCTATTAAGAAGTTTTACCCTTTGAAATTTAATCTGCATTTAATTTTTCTAATTGACACTTTT GTAGGGCATAATGTCTTCTCAGTTGTCCTCTTTGCTGTTTCTTGTTGTCGGAATTTCAATGGCCCTCACGCCATGGCTAG CTGCAGGCGGCCAGTTGATTGCTTCCCGTTTTGAGCTGCATGACGTTCGAAGTTTATTACCCGTAGAAAGTGAGGTAAAA TTTCTTTCATGATTGGCTGGCAGGGACATCTACTAATTGCAAATGGCTGTTAAATTTTAAGTTTTTGCATTATCCATTAT TAGGCTTTCTTGCTGGTAGACTGAATGTTGTCTTTTTTATCTTACAACGCAACAGCGTTGTATGGGATAGGGGAAGTCTT GCTAGGAGGGTAGAATGTAGCTGTAAGTATTTAGACAGCAGTGAAAACAATAGGGAAGTTCTTGCTTACACCTGGTGTAG GATTTTTCTTCCCTGGTTTAAATCACCATAAGACAAAAATAATCACCATAAAATTTATGTATGCTTTTTTAATCCCAGGA TTATCTTTTTTTCCAATTAGTTAACTGTATTTATTATCTCGAATCTAATTTAGTTCAGTAAGTTTAAGAGATTCTGTAGT GAATCCTTCTTACACTTGTGGTGGTAGACACTTGATGCAGTGAGAACATATTGATTTAGCAATTGTTATTGTTTATTTAG CCTTGACATGAAAAATTAGTAGTTGACTTATTATCAGAGGGCATCTCTTACAGACAGATGACTTGCAAGATCATATCATT ATTTGTGGATTTGGACGAGTTGGCCAGGTGAGTTCTTTCTCTTTTGGTGTATTTAATTAGTTTTGATAATTGATCTAAGT AAAACAGTATTTTTGGTTGTTGTTATTTTCAGATCATTGCACAACTTCTTTCTGAGCGACTTATTCCTTTTGTCGCACTA GATGTGAGAAGGTAACTCAATGCTAACTGAAACTATTTGCTTTTCTTGTCATTTGATTTAGATCTTATTTATATTGAAAA AGAAAACATCACTGCACACTGCATAGATGAGCCTAGCTCTGTTTTCTCATGCATCAGTTTCTGACTTTCATGGAGGCATC AAAGGCTTTATTTATTCTACTCTGAATAATTGATTTGTCGTGTAATTTTCAACACTTCAATAGAGATAGATTAGAGATAG ATCCCCCCATGTTGGTTGGTTGCTTGTTTGATGATGCAGGTATTTAGTAACCAGTATGGGACAATATTTTGATGTTAATC AAGATTCTTTAGTTTTCTCTAAAGATGTGTGAACCATATAGTGTGTGCAATTTTGGATGGGGAATGCCTGGTGATGTTCT AACTTCATATTTGCTTATGTCTTCAGTGAAAGGGTAACAATCGGTCGTTCCTTAGGTCTCCCTGTGTACTTCGGAGACGC TGGTAGTCGAGAGGTAGTGCATGTGACTTAGTTCTTGAATTCGCATACATGTTCATTTCTTGACACACTTTGTACTGCAT GATAAGGTCCTACATAAAATTGGGGCTTCAAGAGCAAGTGCTGCAGCAGTTACTCTAGATTCCCCTGGCGCAAATTATAG AACAGTTTGGGCTTTGAGCAAGCACTTCCCAAAAGTGAAGACTTTTGTTCGTGCTCATGATGTTGACCACGGATTGAATT TAGAAAAGGCTGGAGCTACAGCTGTAATATTCCAATACCTTTTCTATTATCTCTGTTACGATTTCCTAATGGTGTAATTT TGGAACAGTCAGAAAATTAGCGTTTTCTTAACTATTGCATATTTTTAGCAAAATTGGTTTTTCTTGGAATCCTTACCTCA GTCTTGTCTTTCTTGTCTATATTATCTCAATGCTACTTGCATTTGCAGGTGGTCCCTGAGACCTTGGAACCAAGTCTTCA ACTAGCAGCTGCAGTGCTTGCTCAGGTAACTAGATTATGGGAGCAAAAAACTTCTTATGTCCTAGTATTTTGTTAATACT CTTATCTGATGGCAAACAACGTTACATTGTTATGGTCATTCTTTTTGTGCTTGAATCTTTATTTCACATTAACTAAACTT TTTTTTTCTCTATATACAAATGAAGTTTCTTGTCTGATTTTCTCAACAATTTTATGAGCAAATTTTTGCTCTTCATTGCA TGGTAAAATTGGCTGTACATCTCATTGAAGACACTACCTGTTCTGAAAACTAAAAAGAGGGGGGGAAATGAAACTGAAGT AATTTGATTTTTAATTTGGGCCTTTTGAGAATAAAAACATACAAATAAAGGGTTCTTATCATATGATTTTGTTAGTTGAT GAAACTCTGACACAAAGCTATCGTGACATGGTGATGGAGGATCTGTAATCTAAGCATTTCTATATTCAGGTTAAACTTCC TACATCTGAGATTGCAGCAACGATAAATGAATTCAGATCCCGCCATCTGTCTGAACTCACAGAGGTATGTGTTCCTTTTA AACCTATGCACACGCAGCACGCTGCGGAAATTGCATGATCACATACTACTATTTCACTTGTATATAGTTATATCTGAATG GACGCATGTTACTTTTGGTCTATTTGTTCAGCTATCTGAATCAAGTGGAGGTTCTCTTGGATATGGATATAGCAGTATGA AGAAACCCAAATCTCAATCCCCAGATTCATTAGATGAGACCCAAGTCTCTGAGGGAACAACATGAAGATCACCCCATTTA TACAGAGAGGACGGCAAAAGAAATCATTGAAGTTAAGAAAAACAATAATTGTGAAAATTTGTATAGCAGATAAGATGTTC CATAATTGTGGACATTGTTTCATATCAGAAATTTTGATTCATCATCCTTTCTCATATTCCTGATCAAGAAGATATCCCTG TAACCCTGTTGTATGTAACCCTGTTGTATGTAGCATTGATATTGTTTCATATTCTTTGGCTTTCAAAAAGCAATTAAAGC ATGTATAAGATGGCTTCCTGATTAATTGATCCCCCATCTCTAAAGATTGTTTGGTTTACTTATTTAATTATTTATTTGGT TAAGTTATACTTTTTTTATTTGAAGATTTCTTCAAAATAGCAGTAAGTTCGGTAGATTTCAAAATCGGTGAAAATTAGAC AAAATTGGTGATTGAAACAGTCCGAGTCATAAGTATTTATGTAAGATTTATTGCTGGCCTCTGCGGTGTGTGGAAGTGGC GTAACAACATGATCGTTGACCTCATCCTTGGACCATTCAGGTAGCATGGCATAAGCTTCGACATGATTAGGATGAACTGG TTCAGTTTGCTGGTACAGAGACATTGGATGATAGCTTGTTTTTTATATCTCTTTGGAAATCACCTCCCCTAGATTTGAAA AGCTTAACACCGACGGAAGCTTTCGCGATGGAGATAACTGTATGGGTGGAGGAGGGTTGCTGCGGGATGGCTCGGGGAAT TGGATTCTTGGTTTGGTGTATTGAGTCATGGTAATGCTGGTAATCTGTTCCTCACGGAAGCTTTAGCCTTGAGGGATGGG ATGCAATTAGCTTGGAATCATGACCACCGGAGAGTTCTTTGCGAGGTGGATTGCACTGGAGGATGCTCGAGTGAGATTAC ACGAGCATGCAGGGGTCTTGCTAGCGTGAGTTGCAAAATAGGAACGAGAGGTGTAGCCTGGCTTGGATTAACTGGGAAGG TAATGCCCTGCGGATTGGGTTGCGCGTGATCTCTTGTTCCGAGTCTTAGAGAGCTGGTTGATTCCCCC

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0380300.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGATATAGCTTTTAGCTTACCACGGTCAAAAGTGGTATTCGATGGCTTTGATTCTTGCATTGCATTTGGCGGGAGAGG GTTTGGTTGTGCTTTTGTTGGAAACTCGAGAACGATTTTGAAAGCTCGTTCAAGAATGGTTTGTGTGGGAGAGTTTCGAG TTTCGAATGTGAAGAGGGGTTTGTCTTGTAAGGTTAATAACCTTTTTAGGGGGAATAGGGGGATTTGGTTGAAGTGTCAG GGTGATGATTCTTTAGGGTATGTCAATGGTAATGGCAGGAATGTTAATTATGTCAAAGGTAATAAGGATGAGGGCTCGGT TTCCGGTGCTGAATTGAGTGAGTCTTTGGGAGGAGAAGAAGGGAAAGGAGAGAAGAAAGAAGTTGGGGTTGAAGTAGAAG TGGAGGTACAAAGTGTGGATGAATTGAAAGAGCTGTTGCAGAAGGCCTTGAAAGAATTAGAAGCTTCTCGAGTAAATAGC TTAATGTTTGAGGAAAAGGTTAAGAAGATAGCGGAAACTGCGATTTCTTTCCAGGATGAAGCCGCGCGTGCGTGGAATGA TGTTAATTCTACCCTTGATATCATCCAAGAAATTGTGAGTGAAGAATTTGATGCCAAAGAAGCTGTTCATAATGCTACGA TGGCGCTTTCTTTAGCTGAGGCGAGGCTTCAAGTAGCCGCTGAATCTTTGAAGGTTGCGAAAGATGTTTTCAGTTCCACG CAAGGCTCTAACGGGGGTGATGGCGATAAAGATGAAATGCAAGAGGAGAAAGATCTCGTGGTTGCTCGGGAAGATGTCAA GGAATGTCAGACAAGTTTAGCGAATTGTGAGGCAGAACTGAGGCGCGTCCAAAGTAGAAAGGAGGAGTTGCAGAATGAAG TGAGCAACTTGCATGAAATGGCTGAAAAGGCACAGCTGAATGCAGCGAAAGCGGAGAAGGATGTCACAGACATAATGCAT TTGGCTGAGCAAACTGTTGCTATGGAACTTGAGGCTGCACAGCGTGTGAATGATGCGGAGATTGCATTACTGAAAGCAGA CAAGTTGGTCTCTAGTTTCAATGCTGATAATACCGCAGATACTGTACAATTACAAGATGTTGTGGCTGCTTCTGAGGAGG CGAAAGTGGTTCAACATTTTTCTGTAGATGATGCTGTTAAAAGAGACCTTGGTTCCACAAGTGATGAGGAGTCTTTGCTT GCCATACAATCACCAGAGACACTATCTAATAAAACCAGCCAAATTTTGGAAGATGTAACACAGTCTGATTTATTGAGTGA TAATGAGAATGGACAGCTAAGCTTGGACTCTTCTAAAGAAGCTGAAGTCGAAGTAGAGAAGTCAACGAATGTAGTTCAAA TGAAAAAGCAGGAAACACAGAAAGATTCTACTAGAGATAACTCACCAATTGCCCCCAAGACATCATTGAAGAAGTCCTCC CGATTTTTTCCTGCATCATTCTTCTCTTGTACTGCAGATGAGACTGATTACACACCAGCATCAATTTTCCATGGTCTTGT AGAGTCAGCACAGAAGCAGTTACCCAAGTTGGTTGTTGGGGTATTGTTAATTGGAGCAGGGATTTCCTTTTATGCCAATA GAGCAGAGAGGAGCACACAGTTGCTACAGCAGCCAGAAGTCATTGCAACCACTGTCGAAGAAGTTTCCTCAACTACAAAA CCTCTGGTTAGACAACTTCAGAAAATCCCCAAGAGAATTCAGGAAATTATTGCGTCATTACCTAATCAAGAGGTGAATGA CGAGGAAGCCTCCCTCTTTGACATGCTCTGGTTATTACTTGCAAGTGTTATATTTGTGCCCATATTTCAAAAAATTCCTG GAGGCAGTCCTGTTCTTGGTTACTTGGCTGCTGGTATCTTGATTGGACCTTATGGTCTCTCCATCATTCGCAATGTTCAC GGGACAAAAGCAATAGCTGAATTTGGAGTTGTTTTCCTGTTATTCAATATTGGCCTGGAGCTCTCTGTTGAAAGACTTAG TTCAATGAAGAAATATGTCTTTGGATTAGGCTCTGCTCAGGTTCTGTTGACTGCTGTAACTATTGGCGTGCTGGCTCATT ATGTTTGTGGCCAAGCTGGCCCCGCTGCTATTGTCATTGGGAATGGCTTGGCACTATCGTCGACTGCTGTTGTTCTGCAG GTGTTGCAAGAGAGAGGTGAAAGCACATCACGTCATGGACGGGCTGCATTTTCAGTTTTACTTTTCCAGGATTTGGCTGT TGTTGTCCTGCTAATACTCATACCTCTTATTTCACCTAATTCTTCCAAAGGAGGGGTTGGATTTCAAGCCATTGCAGAAG CTCTTGGTCTGGCTGCTGTTAAGGCAGCAGTTGCCATCACTGCCATAATTGCAGGAGGACGATTGCTCCTTCGACCTATA TATAAACAGATTGCAGAAAATCGAAATGCAGAAATATTTTCTGCCAATACACTATTTGTTATTCTCGGGACCAGCCTTTT CACAGCCAGGGCAGGACTTTCCATGGCATTGGGAGCATTTTTGGCTGGTTTACTACTTGCGGAAACTGAATTTTCCTTAC AGGTCGAGTCTGATATTGCTCCATACCGTGGCCTTCTATTGGGCCTGTTCTTTATGACGGTTGGAATGTCAATTGATCCA AAACTTCTTCTCTCAAACTTTCCAGTCATTTCAGGGACACTGGGACTCTTGATATTTGGAAAAACTATCTTGGTTGCTTT GATTGGCAGAATATTTGGCATTTCACTAATTTCTGCCGTTAGAGTTGGTCTTCTTCTTGCTCCTGGGGGAGAATTTGCCT TTGTGGCTTTTGGTGAAGCTGTTAATCAGGGCATAATGTCTTCTCAGTTGTCCTCTTTGCTGTTTCTTGTTGTCGGAATT TCAATGGCCCTCACGCCATGGCTAGCTGCAGGCGGCCAGTTGATTGCTTCCCGTTTTGAGCTGCATGACGTTCGAAGTTT ATTACCCGTAGAAAGTGAGACAGATGACTTGCAAGATCATATCATTATTTGTGGATTTGGACGAGTTGGCCAGATCATTG CACAACTTCTTTCTGAGCGACTTATTCCTTTTGTCGCACTAGATGTGAGAAGTGAAAGGGTAACAATCGGTCGTTCCTTA GGTCTCCCTGTGTACTTCGGAGACGCTGGTAGTCGAGAGGTCCTACATAAAATTGGGGCTTCAAGAGCAAGTGCTGCAGC AGTTACTCTAGATTCCCCTGGCGCAAATTATAGAACAGTTTGGGCTTTGAGCAAGCACTTCCCAAAAGTGAAGACTTTTG TTCGTGCTCATGATGTTGACCACGGATTGAATTTAGAAAAGGCTGGAGCTACAGCTGTGGTCCCTGAGACCTTGGAACCA AGTCTTCAACTAGCAGCTGCAGTGCTTGCTCAGGTTAAACTTCCTACATCTGAGATTGCAGCAACGATAAATGAATTCAG ATCCCGCCATCTGTCTGAACTCACAGAGCTATCTGAATCAAGTGGAGGTTCTCTTGGATATGGATATAGCAGTATGAAGA AACCCAAATCTCAATCCCCAGATTCATTAGATGAGACCCAAGTCTCTGAGGGAACAACATGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0380300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MDIAFSLPRSKVVFDGFDSCIAFGGRGFGCAFVGNSRTILKARSRMVCVGEFRVSNVKRGLSCKVNNLFRGNRGIWLKCQ GDDSLGYVNGNGRNVNYVKGNKDEGSVSGAELSESLGGEEGKGEKKEVGVEVEVEVQSVDELKELLQKALKELEASRVNS LMFEEKVKKIAETAISFQDEAARAWNDVNSTLDIIQEIVSEEFDAKEAVHNATMALSLAEARLQVAAESLKVAKDVFSST QGSNGGDGDKDEMQEEKDLVVAREDVKECQTSLANCEAELRRVQSRKEELQNEVSNLHEMAEKAQLNAAKAEKDVTDIMH LAEQTVAMELEAAQRVNDAEIALLKADKLVSSFNADNTADTVQLQDVVAASEEAKVVQHFSVDDAVKRDLGSTSDEESLL AIQSPETLSNKTSQILEDVTQSDLLSDNENGQLSLDSSKEAEVEVEKSTNVVQMKKQETQKDSTRDNSPIAPKTSLKKSS RFFPASFFSCTADETDYTPASIFHGLVESAQKQLPKLVVGVLLIGAGISFYANRAERSTQLLQQPEVIATTVEEVSSTTK PLVRQLQKIPKRIQEIIASLPNQEVNDEEASLFDMLWLLLASVIFVPIFQKIPGGSPVLGYLAAGILIGPYGLSIIRNVH GTKAIAEFGVVFLLFNIGLELSVERLSSMKKYVFGLGSAQVLLTAVTIGVLAHYVCGQAGPAAIVIGNGLALSSTAVVLQ VLQERGESTSRHGRAAFSVLLFQDLAVVVLLILIPLISPNSSKGGVGFQAIAEALGLAAVKAAVAITAIIAGGRLLLRPI YKQIAENRNAEIFSANTLFVILGTSLFTARAGLSMALGAFLAGLLLAETEFSLQVESDIAPYRGLLLGLFFMTVGMSIDP KLLLSNFPVISGTLGLLIFGKTILVALIGRIFGISLISAVRVGLLLAPGGEFAFVAFGEAVNQGIMSSQLSSLLFLVVGI SMALTPWLAAGGQLIASRFELHDVRSLLPVESETDDLQDHIIICGFGRVGQIIAQLLSERLIPFVALDVRSERVTIGRSL GLPVYFGDAGSREVLHKIGASRASAAAVTLDSPGANYRTVWALSKHFPKVKTFVRAHDVDHGLNLEKAGATAVVPETLEP SLQLAAAVLAQVKLPTSEIAATINEFRSRHLSELTELSESSGGSLGYGYSSMKKPKSQSPDSLDETQVSEGTT

Download Protein Sequence

Prediction algorithm	Identifier	Start	End	Length	E-value	InterPro ID
PANTHER	PTHR46157 View details on PTHR46157 Search for proteins/transripts with this domain View external data on PTHR46157	1	1192	1192	0.0	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	513	513	-	–
PANTHER	PTHR46157:SF5 View details on PTHR46157:SF5 Search for proteins/transripts with this domain View external data on PTHR46157:SF5	1	1192	1192	0.0	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	105	124	20	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	132	159	28	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	266	314	49	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	421	475	55	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	421	437	17	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	514	532	19	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	533	589	57	-	–
Gene3D	G3DSA:1.20.1530.20 View details on G3DSA:1.20.1530.20 Search for proteins/transripts with this domain View external data on G3DSA:1.20.1530.20	588	973	386	1.2E-77	IPR038770 Show description in modal box View details on IPR038770 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	590	609	20	-	–
Pfam	PF00999 View details on PF00999 Search for proteins/transripts with this domain View external data on PF00999	598	968	371	3.3E-60	IPR006153 Show description in modal box View details on IPR006153 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR00932 View details on TIGR00932 Search for proteins/transripts with this domain View external data on TIGR00932	599	879	281	6.2E-87	IPR004771 Show description in modal box View details on IPR004771 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	610	617	8	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	614	636	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	618	636	19	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	637	641	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	642	661	20	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	662	672	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	673	695	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	673	695	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	696	700	5	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	700	722	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	701	722	22	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	723	733	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	734	757	24	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	735	757	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	758	776	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	775	797	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	777	797	21	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	798	817	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	817	839	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	818	847	30	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	848	858	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	859	878	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	859	878	20	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	879	889	11	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	887	909	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	890	912	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	913	917	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	918	938	21	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	919	941	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	939	949	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	950	969	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	953	975	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	970	1193	224	-	–
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	996	1159	164	7.5E-38	–
SUPERFAMILY	SSF51735 View details on SSF51735 Search for proteins/transripts with this domain View external data on SSF51735	997	1138	142	1.77E-29	IPR036291 Show description in modal box View details on IPR036291 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51201 View details on PS51201 Search for proteins/transripts with this domain View external data on PS51201	1000	1122	123	16.555	IPR003148 Show description in modal box View details on IPR003148 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02254 View details on PF02254 Search for proteins/transripts with this domain View external data on PF02254	1001	1114	114	3.4E-21	IPR003148 Show description in modal box View details on IPR003148 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	1154	1193	40	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1155	1193	39	-	–

GO term	Namespace	Name	Definition	Relationships
GO:0006812 View details of GO:0006812 AmiGO InterPro QuickGO	Biological process	Cation transport	The directed movement of cations, atoms or small molecules with a net positive charge, into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore.	Subterm of View details of GO:0006811
GO:0006813 View details of GO:0006813 AmiGO InterPro QuickGO	Biological process	Potassium ion transport	The directed movement of potassium ions (K+) into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore.	Subterm of View details of GO:0015672 View details of GO:0030001
GO:0008324 View details of GO:0008324 AmiGO InterPro QuickGO	Molecular function	Cation transmembrane transporter activity	Enables the transfer of cation from one side of a membrane to the other.	Subterm of View details of GO:0015075
GO:0015299 View details of GO:0015299 AmiGO InterPro QuickGO	Molecular function	Solute:proton antiporter activity	Enables the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: solute(out) + H+(in) = solute(in) + H+(out).	Subterm of View details of GO:0015078 View details of GO:0015298
GO:0016021 View details of GO:0016021 AmiGO InterPro QuickGO	Cellular component	Integral component of membrane	The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane.	Subterm of View details of GO:0031224
GO:0055085 View details of GO:0055085 AmiGO InterPro QuickGO	Biological process	Transmembrane transport	The process in which a solute is transported across a lipid bilayer, from one side of a membrane to the other.	Subterm of View details of GO:0006810

LotjaGi3g1v0380300.1

Overview

Sequence information

Domain prediction

Gene function (GO predictions)

Genome browser

Expression data

Expression pattern