Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi1g1v0472600 |
Transcript ID | LotjaGi1g1v0472600.1 |
Related isoforms 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|I1L6M4|I1L6M4_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0472600 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:98313383..98327157) extracted from Lotus japonicus Gifu genome v1.2.
CGCTTTATTGCACACTTTCTCTTCTGGCTTCATCTTCCCTCTCCCCAAACAGCGAACACGAAGCAAGTAGTAGTTGGTGC CAAAAAAACAAAAACAAAAACAAAAACAAAAACAAAAAACAAAAACAATGTCCTAAATTTCGCTGTCTCACTTCTCTGAG CTCTCAACTTCGCTGAATCGTTCGTCTCTTCCGCCATTTCTCTCCATTTCATGATCAACCCTCGTCACACTGCAAGCTAT CGAGCTCTTCGATGCATAGGTACGTCGTGACTTTTGCATCGTTCCTATCAATCTCGCTGTCTGTGTTGGATTCAACAGTT TTCGATTTCATCTTTTGAATTTTTTCACTCAGGTTTTTTATGAATAGCTGATTATCGCTCGTGAAATGTGTAATTGGAAT TTTCCAATTTTTTTTGTTTATTAATTAATTTTTTTCTTCAGGGTTTTGATGAATTGCTGATTGCTACTACTTGTGAAGTG TTAGCTTTGTGACTGTTGAGCTGTGGACGGCGTAGCGATTTCGATATGGATATGACTTGTAGCTTGCCGCAGTCAAGAAT GATACAAGGAGGTGTTGGGAGACACATATCAGCTGGCCGTTTCGATTCGAGAGGGAGGGGTTTTGGTTGTGCATTTCTCG GCAACTGGAGAAGTGGTTCGAGATTGCATTTTAGTAGGATGAATAAAGTTAGTGGTGTTTCTGCTTGTGTTTCTGGTGGT GAAGGTTTGAATGTGAAGAGAGGTTTATCTTGTAAGAATAATAGTCTTTTTACGGGGTCGAGAGTGATTTGGTCTAAGTG CCAGGGCAGTGATTCTTTAGCTTATGTTGATGGCAACGGCCGCAATGTTGATCATGTGGAAGGTTCTGGTGAGGGTTTAG GACCGGGACCCGTTTCTAGTGCTGAACTTGAAGCAACTTTGGAAGAGGAAGGGCAAGCTGGGAGCGAAGGTGGAGAGTTT GAAATAGGAGTAGAGGAACTAAGTGTGGATGAACTGAAAGAGCTATTGCAAAGAGCATTGAAGGAGCTAGAAGTTGCTCA AATAAATAGTACCATGTTTGAAGAGAAGGTTAAAAAGATATCAGAGACTGCTATATTTTTACATGATGAAGCAGCTCGTT CTTGGAGCGAGGTTAATTCCACTCTAGACACCATTCAAGAAATTGCAAATGAAGAACATACAGCTAAAGAAGCTGTCCAA AATGCAACAATGGCTCTTTCTGTAGCCGAGGCCAGGCTTCAAGTAGCCTTAGATTCTTTGGAGGTCGCAAAAGAAGTGCC GGATTCAGAAAAAGGTTCTGATGAGGGTACTGGGGACAAGGACATGGCGGAGAAGGGGAAATCACTTTTCAATGCTCAAG AAGATATCAAGCAATGCCAGACACATTTAGCCAATTGTGAGGCAGAGTTGCGACGTTTGCAAAGTAGGAAGGAGGAGCTG CAGACGGAAGTGAGCAAATTGCAAGAAATTGCTGAAAAGGCACAGCTGAATGCAGTAAAAGCCGAGGAGGATGTTACAAA CATAATGCTTTTAGCAGAGCAAGCTGTTGCCTTTGAACTTGAGGCTACACAACGTGTAAATGATGCAGAGATTGCCTTAG AGCGAGCTGATAAGTCTGTCTCTAATTTGAATGCTGATACCACAGAATCTATACAAGTTCAGGATGTCGAGTCTGTTTCA GAGGATGAGAAAGTGGATCAAGGTTTTTCTAGTGATGCCACTGTTGAAAGAAACGGAGATTTGGCAACTGATGATGAATC TCTTCTTCCCAAGTTATCACCTGAAACACTGTCTGAAAAAACCAGCCATTTGGAAGATATAACACAGTCTGATAATTTAA GTGATAATGAGAATGGTGTTCAAACAAAAAAACAGGAAACACAAAAAGATTTGACTAGAGACAGTTCACCCTTTGCCCCC AAGGCATTATTGAAGAAGTCTTCTCGATTCTTTTCTGCATCGTTCTTCTCTTCTACTGAAGATGGGGCCGAGTTCACACC AACATCAGTTTTCGAGGCCCTTGTGTTATTGGCAAAGAAGCAGTTGCCCAAGCTGGTTCTTGGGTTATTGTTAATGGGAG CAGGGTGTGTAAGATCATGCCATATCTTATTCCTTTATTGCTGTCATTTTTATTTAAATCTTTCTAAAAGGGTCTTGTCT GAAAGAATATATACATCATTTATTTGGCAATCGGCATATAATATGCATGGTATACGAGTAGTTTTTAAGAAATATTATGA TGGCATTTTTGAGCTTCCTATGCAATGCAATATGATTGAGAATGTCAAGGCACAATATTCACTGGCTTGTTTGGAAACTG ATTTTGAAGATAAATTGCTATCATTTGGAAATTAGAATGGGATCTATGCCTTGATATGGGCCACCTTTATTTGAGTTGTG CAATATGTTTTAAAGGAGACTATATTTTGCCTTTTCGCCATGTTGTTTTACATGCAAAGGTGTAATATAAAGATTTTACC CAGTATTTAAAAAATAGTAGATTTTTATTCCAGGGTTGCCTTCTATGCCAATAAGGCAGAGAGGAATGGTCTGCTGCTTC AACAGGCAGATGTTATTATGACCAGTGCTGAAGAAGTTTCCTCTAGTGCAAAGCCTCTGGTTAGACAACTTCAGAAACTC CCCAAGAAAATTAAGAAACTCATTGCGTCATTACCTCATCAAGAGGTTTGCTTGTCTTTGTTCTTGCTCTTTAGTCTTGC GCTCAATTCTTATAAATTTTAGCTGACTGTTTGCAATATATATATATACATATATATATATATATATATTCCAGGTGAAT GAGGAAGAAGCCTCCCTCTTTGACATGCTTTGGTTACTACTCGCAAGTGTTATATTTGTCCCAATTTTTCAAAAACTCCC TGGAGGTAACTCAGTTAGCTCTGTGTTGAATCAAATATTGTCTGTCAAAGTATCACTATTTTGCTTGTCTAGGACTCTAG AGGTAATGTGAGTAGGCACCAAACTCCCTATTCCTTAAATGAAAATTTGATTCATGGATTAAGCTGTCTAATATTAAAAT AACAGTTTACGACAATATCAAACTGTTACTTTTAAGGCAAATTTTGTTATTTAAATAGAAATATTGTGCTTTTGCTAGAA GCATCTAACCATTATCTGGATATGTTAAATTTCTCTCGAAGGTATGCACGATAAATTGGTTGTTTGTCTTACCTTCACAA TTTCTCATGTTCTGCTGATGCTTGTCCTCTTTCTTGCCACAATGTCCAGGTAGTCCTGTTCTTGGATACTTGGCTGCTGG TATCTTGATTGGGCCTTATGGTCTCTCCATCATTCGTCACGTTCATGCAACAAAAGCAATAGCTGAATTTGGAGTTGTTT TCCTTCTATTCAATATCGGCCTGGAGGTGTGGTTCCTTATAAGTTATTGTTCTACCTTAACTTGTTCATCACCACAATCA AAAGAGTGAAACTGAAGCTCTGAACTGCTTTGTTATTTTAGCTCTCTGTTGAAAGACTAAGTTCGATGAAGAAATATGTT TTTGGATTAGGCTCCGCACAGGTAATTGGGGAAATCTGTCTTCCATCCTTGTTATTATTGTTCACCTCTAGCTATTTTTG TTATACTGTAGTAATGTATAAGCTGATAATTTTTAGCATGTATGAACAAATGCAGGTTTTAGCCACTGCTGTAGCTGTTG GCTTGGTGGCTCATTATATTTGCGGCACACCTGGCCCTGCTGCTATTGTCATTGGGAATGGCCTGGCGTTATCATCTACT GCTGTTGTTCTTCAGGTAAATAACCCGATTGCTGTTAATATTATTTTAAAAAGTAAAAACCGTTTAAGGGGTTTAATTGC TGATCATGTGGTATACGTTCTCACACTAATCAATTTAACAACTCAGCTTTAAGCTTTTCTTTTTTATGACTGTCTTGAGT GGTGCCCAGTGTGCGGGCTAATACTAATTTCACCCTTATTTAGTTTTGTGAGCCTAAAAGTTGAATTATACTAATAACAT GTTACAACTTAAGATATTAGGTTAGTGAAAATCCGATAAAATCTCTACTAAAAGTTAAGCGGACCACATTTCAATTTAAC ATGTTCAACAATATGCATACGTTCGTACTTACGCACATACTATTAAGATATCACATGGACTAGAGAATAGAGATGTGACC AAAGTAGTTCTTAATACTAATAAAGACTTGGGTAATCCTTACCTCTTGAGCTAGAGAGTAAGGCCTAGTTCACACACACA CACACCCCATCAACTAAAATAAATATCCTCTTTCTATACAAATCAGTCATACGACCTGAAAAGGCAGTGATAAAATAGAA CATATAATCACTCTGATTGTTCATATATAAAAAAAGTGGGAAACGAACATTATCCCTTATAGTTGCATTAGATTGTTCTC AAACATAACGTTAACCACATCTAGCAATGGAGGCCTGCCCTGGGCACACCCTAAGAACATACTACATTGCGGCTTGCGAA CCTGAAGGGTAGAAATGGGGTGAATCACAGAAACTTAACAAAAAGGAGAAGCATGTGATTACACAAGTATTTAAAACCTA ACATAACTCAGGACATAAAGTAATTGAAGGAATAAAAATTTATAACCAGAACCAATTAATGAACTAATATTTTTCTTTTT TAGAGACAAATATAAATATAAAAATATTCGTAATCAAGAGTAGTGGAGGAAAAATAAATACGGAAATGACAGGAGAGGTT CTTAGAAAAATGAAGACGATCAAACCTCTGTTGGAAGGAGAGTTAGTATAAGCATTTTTAATATGAGTGAAATAGAACGT TTCATTTCTATTTATTCCACAAACAATATCAACCTTTCTTGAAGAGAATCAACTGAAAAACTTTATTTTGGGCAAATAAT TGCTAAAATATTTGTTGTAGTTTGCATCTGTTAATAAATTTATCAATGCATTTTACCACTTGCTTAATATTTGTAGTTGT ATCAAATGCTCCTTGTTGAGAAGTTCTTGTTTGAGTACATATATACAGTCCAGGTTATCTTGTCATCAGATGGAAAATGA CAGTTTGTTCTGTCCATATTTTTTCTTTTATTTCTGGGAGTCTAATATTTTCAATGAACTTGTTTCCCAGGTGTTGCAGG AGCGAGGTGAGAGCACATCACGGCATGGACGAGCTACATTTTCTGTTTTACTTTTTCAGGTTACTTCATACCTTTCCCAT CCATCTAGATACTGAAGGATTTTCATATCAAATAACATGCTAGATTTTAGAGAGAATGTATTTCTTGTGACATATTGGTG GCTTAACTTTTTTATGAGTGGCATCTGTATCTTGCTTCCATATCATACTGTTTTCCTGTAACGTTTGAGTAAGTTAAACA CGGTTTCCTTAGTTGCAAGGTATGTTATTGAGTGAGCATAATAATATCTTTGCACTTTACAGTCGGCAAAGTCCAGCATT TTACATGCATACTGAACTGAAGATATGCTAGTACAATGTTTTGCTAGTTGGTTCATGAAACATGCTAACAAGTATCTTTC CAATGAGCAAGGATTCATTAAATTTGAAACTTTGAATGTTGAACAAGATGGTTGACTAGTTGTACACATCAACTTATATT CCCCCTGAGAACTTCATTTAGTATGTTATTCTATGTAGATCCTCTGCAAGAATCCTCTACTTTGTTGCTCTATCTGGTCT ATTGTTATGTGAATTTTCCATTTCTAACGCTGGTTGTTTATTATTAACAAGTCTGTTTTGATTGGTGTTACAATATTTTG AACCAAGTTGACTTTTTATTCTTTTTTGTTTCTGTTCAGGATTTGGCTGTTGTGGTCTTGCTAATACTCATACCTCTTAT TTCACCTAATTCTTCCAAAGGAGGGGTAAATTTTTCTAAGCACTCCTTGTCATAAAATACCATACTTTATGATAGGCATT GTAGTCATGAGGTTTAGCTGTTTAAATATGATTAAGCTGCATGGACTCCGGTGAAGATATACAGCTTATGACACAGAACA CTTAATGATGTAGTTTGACATGCAGAAAGAATTGTGAAAGTTACTGAGTCTCTCGAACACTCAGTGTCCTTGTACCTTCT CTAGTTCCCTAATTGGGGAATTAGGGTTCATAATCAGTAATAATTCCTCTTCTTCCTGGCTGGTTTCTATCAGAGACACA GATCAATCTTTCTATAATTAATTGAATAATGTTTTTATTTTATAATATATTTATTGAAAGGGTCGAGATACCAATCTATC TTTCTAATTAAAGTTGGTTCATGCAAGAGCGAGATTGGTAGTTGTTGACATGACCTTGCTGCTGCACTGTCATCATTATT TTTTCCACATGTATACTCTGGTGTTTCTCCTCATGGAGATACCAATCTCCTGTTTTCAGGTTGGCTTTCAAGCCATTGCT GAAGCTCTTGGAATGGCTGGTGTAAAGGCAGCAGTTGCTATCACTGCCATAATTGCAGGTGGACGATTGGTAAGTGGTAT TCAGACTGAGATGTGAGATCTCTCATCAGGATAATTTCGATGTACTACTTTGTAGCTCTAATCTGGTAGCTGATTTATAT GCTTTACAAATAATATGCATTTATATGGAGCATAACCCTAGGCCATCAATTCTATGGTTTTAATTGATACATATGATCTC TTTGAAGCACGCTCAGATATTTGACTGATCATGATGGATGGATTTTACCAACCAGTTGAGCTCAATAGTAAAATTCTTTA TATTTCAATTATTATCCATTTTTATTTGAATTCTTCTATATTTAGTTGTTAATATATATTCTATATATATATATATATAT GTGTCTATATAATGTGTAGAATATATCTTCTAGATTACTTTTTATGTTTTTCTATTCAATTTTTAGTTGGTTGTATTCAC CAGTTTTTACAATAATAGCTTGTTCCACGACAGGAGTAACTGTATTTCTTAAATGCTTCGGATCTTTTGCCTGTTTATGA AGGATACTTTACTTTAATGTTCATTTTCAAAATTCAATGGAAAGAAAAATACTTCATTGTATTCAATATCTTTAAGGGGT GAAGAATGAAAGAAATAAAAAAATTAAGTTCCATAATATTGATTGCGTCAAGATCCTGATGCTATAAACATATAATCATG TAAAATCCATTTTATCAAAGGGAAAGTGATATCCTTTCGGGGTTCATTAGGAAGGCATTGGGTTGGGTGGAGGTACTTAA ATTGCAGATTATGCTTTAAACTAAGTTTCCTGTTCTTCTTTGCAGCTCCTCCGACCAATATACAAGCAAGTTGCAGAAAA TCAAAATGCAGAAATATTTTCAGCCAATACGCTCCTTGTTATTCTTGGGACTAGTCTTCTTACAGCCAGGGTATGTGATT GTCCAGTTGCTTTTCCTTGCATCCTTTCTTTGGGTTTTTGACATGTTGAAGAGTTTCTTCTAGGGTTTTTGTTTACTATA GAAACACTCCTATATTTCAATAAGATTAATTAGAATAAATTAGAAAATGAAAAGACCTACCAAGGTTAGATTGTTTTGTC TTAGTATTGTTCTGAAAACTGAACCAACCAGTTGGATCAGTTTAATTGTGAACTGTTCTGTTAGCTTGTCTGTTCAAGTC TCTATAATTGGAACTAGAGAACTGGTCTCTTAACTGGGGAACTTGCTAATGACAGCGTAACTGGATACAGTTAGAGAGGT TGAACTAGTACAACGTTAATGCCAGAAAATGCAACAATCTGGGACATAGGAAACAAACACAGATGTGTAGTACAAGAGGG CAACATTCAACCAGTGTCACTAGTGTTTCTTGTGTAATGTTCTCAGATAGATTGCTCTTATTTAAATTTATTTGATTGCT TCACATAGAAGGAGTAATTGAACCTGGGTGTGTACTGTGTAGCTTAGATTTAGAAGGTCACATTCAACCATTGTGCCACT AGTACTTCTATGTCATGTTATTAGTTCAATTATTCTTATATCAATTTCAAGTTATTGCTGCATATAGAATCCAAATCATT TATGTTATGCACTAGTTATTAAGCATTAGAAGTAAATAGCTCATTTGGAAAAATTCCCTACTAGATCTTAACCTTTTTTT TTTCCTTTGCTTAAATAGGCAGGACTTTCCATGGCATTGGGAGCATTTTTGGCTGGTTTACTACTGGCAGAAACTGAATT TTCCTTGCAAGTTGAATCTGATATTGCTCCATATCGTGGTCTTCTTTTGGGGCTGTTCTTTATGACGGTAGGTGCTGAAT ATCGAATTTCACAAATTTATTAATTGTTTTTATTTTATTTGTTCACATGACCTCTTTTCGTTTAAAACTGAGGTTACAAT TGTTTCTCACTTTCAAAAGTGGTGGACTATCGCGATTGATATGAGCAGAATAGTGGTTCCAAAGTCCTGCAAAACTACAG CATTGTGGTTGCATACTTCTATTATACAGCATTTAAACTGTCTAGAAAAAAAAGGGTATAAAAGAAACACCTTCTGAACT TTTTCTGATCTTGAATCTAAATGTAATCATTATGCTGCATCGATCAGAAAATCTTGATTGCTTAACTGCAAAGTTGTCAT AGGCTTCTATTCTTACAAATGTTATTTCCAATGTTATAATAATCAAGCCATCTTTGATCTGTGTATTAAGTACCAATTAT ATTTTGTGATTATTTCAGGTTGGAATGTCTATTGATCCAAAACTTCTTGTTTCAAACTTCCCAGTCGTCACTGGGACATT GGGACTCTTGATATTTGGCAAGACTCTCTTGGTTTGTTTGATGGGTAAAATCTTTGGGATTTCCCTCATTTCTGCCATAA GAGCTGGTCTTCTTCTTGCTCCTGGTGGAGAATTTGCTTTTGTGGCTTTCGGTGAAGCTGTTAATCAGGTTTTGGTCCTT GAATACTGTTCTTTATATGGTACTCTGGATAGGCTCTATATTCATGTTAAACAAGTCATTTTGCTGTAGTCTAGTTAGTT TAATAAATGGATAAATAATAGGGGCTTGCCAGACAATGATGATTTAAGTTTGTGTGTCTTGCTGTTTTTTGAATGGTGGT GTTAGTGTTTACTCATTGTGTCACCTATTCTTGCATTTCCCAGTGGCTTAGAATTTAAAGTAAACATTGTTGTTTTAAGA GGGAAACTTGAATGCACTATGTATATGTTGCCTCAATGATTTCCGCTTATGGCCTTTGAATTTTCTGGAGAGTATATGAT TCTATCTATCGAGGTGTGTTGTATTTCTTTTACTTGGCAGTATAAGGATGGAGAGGAGCTCCAGGATTTACTGAAATCAG ATGAACATTCTATCAATTTTGGGCAGAACTATGCATCTATTTTTTGGGTGTTCGGCTCATGCCAACATTTATGGGAATTT CAGTAGTCGATATCCAGAGATTGTGGGTCTCTTTGCTAGCATGATTCTTATTTATATGAACTTATCATTCTTTTTAATTT TTTTTATATTTTGATACTTATCTCACCTTTAGCTTTTGATGATTGGTCATCCTTGTAAGTTGAATAATCTGAAATATATT GGTGCATTAGTGTCTGCTAAGAATTTTGGTTTTCTTTGATAATCTGCAAAAAAAAAAAAAAAAACTATTTTCACTAATTG GCACTTCCACAGGGCATAATGTCTAGTCAGCTGTCATCTTTGCTGTTTCTTGTCGTGGGCATTTCAATGGCCATCACACC ATGGCTAGCTGCAGGAGGCCAGCTGATTGCTTCCCGTTTTGAGCAGCATGATGTTAGAAGTTTATTACCTGTAGAAAGTG AGGTAAATTCTCTTGCATGAGTTGCTGACCAGTAATTTTGTTAATTGCAAATGGTCAATTTTTAGCTTTACCAGTATCCA TGATGGGGGCTCTCTGCTGGTGAACTGAACACCATCTTTCTTACTGCTAAGTAGATTGTATCCTATGTTTCATGGGGATG AGAAGTCCTGTGCAGTGGGCACAATGCAGCTGCATAGTCTGCCTCCAGCGTTCATTGGTTTAGGCATCTGAAATGTATTA AGGGACAGAAGCAGAATCTATGCCAGCATCCTTGTTTAAACTATTTACTGATACTGATAGTGTTTTCAAATAGAACTCAT AGTCAGAGAAATGATAAAAATATCTATTGTTTTGAAGGGAAACCTTGATATTCTTCAATCTTCATGTCTTGGAAATATCA AAAACTCGTATTTCTTGCATTTGAAATGTTTTGGCTTGTGTTCGTTTAATCGCATTATTAACATGCTTTTTTCAGATCCC TTTTACTGTAGTTAGTTTGTTGTATGTAGTTTAGTTTCAGGATTCTAGCTAATAAGTATATAGTTAGGTTTAGGAGATTG TCTGTAGTGCTTACTACAGCAGTGGTAGACAGTGGATGCAGTTAACCGTATGAGCTTACTTTTTTTTTTAATTTGGAGTT GACATGAGAATTTAACAGTTGACTTCTTTTTGGATGACACCTTTCACAGACCGATGATCTGCAAGATCATATCATTATTT GTGGATTTGGACGAGTTGGCCAGGTAAACTCCCTCTTTTTTGGTTTGATTAATGAGATTAATAAGTATAACAGTTTACCT TTGTGTTGTTTCAGATCATTGCACAACTTCTTTCCGAGCGACTTATTCCATTCGTTGCACTGGATGTGAGAGGGTAACAT AACATTGCTAATTGAAACTATTATCTTTTTCTTGCAATTGTTTCTTGTGGTTAAATGAATGATTTGATGTCTGTTATGAA GTTTTTAAGCTTAGTTAATCATATCTCTATGGAAAAAGAAAACAAAATTACAAGCTTATTTCTGAATTCTGCCTCCCAAG GGGAAACTAGAACAAAACAATTACAATACTCTTTCACTATGTACAAGTGAAAACTAGTTGGGTTTATGTGTGTAGCTTTT TATAGTTGAATGGAGCACCTATTTCAATGATTCTGGTAATGTTGGAATGTGTTATGATAATAAATTGACAGACCATGAAA AAACTGTGATCTATATTTAGATAATTATAGGATACCCAAAAGCCTAGATTACCCTAATGTAATTTATTGCATGTTATTAT GCTCTTAACAGAATGTTTATTGAGATTCTTTCCTACAATTTTCCCCAAAGATGTGTTATATTTTATGTGTGCAATTTAAG ATAGGAAGTTGAACTAACCTAATTTCCATATTTGCTAATGCCTTCAGTGATAGAGTGGCAGTTGGGCGAGCCCTGGATCT CCCTGTGTACTTTGGAGATGCCGGTAGTCGAGAGGTAGTGCACATTATTTCAGTTCATAAATCACATGCATGTTCTTTCC TGACATTCTTTTTATGCATGACTAGGTACTACACAAGATTGGGGCTGAAAGGGCATGTGCTGCAGCAATAACTCTAGATA CGCCGGGAGCAAATTATAGAACAGTTTGGGCTCTTAGCAAGTACTTCCCTAATGTGAAGACTTTTGTTCGTGCCCATGAC GTTGATCATGGATTGAATTTAGAAAAGGCTGGAGCTACTGCTGTAATATTCTCATATCTATTCTAGTATTCCATTTTAAT TATCTTATGGTGAATTCCAAAATAGTGGGAGAAGAGTCTTGTTTTTAGTGGAATGCCTATTCTAGAATTTTCTATCTCTT GCAGGTTGTCCCAGAGACATTGGAACCCAGTCTTCAACTAGCAGCTGCCGTGCTTGCTCAGGTAAATCAATTTTCATTTA GTATCCTATTTTTTATTGGAATAGAAGTAGTAGTGGAAGATATTTTTATGTCCTCAGTGTATCTTACAATATCAATATTG AGATTTGAGAGACTCATATTTGACTATGGGTTATGACAGACACAATAAAGATATAAATGATTATGGTCATTTCTTGTTTT GATGGGGTCTTGGTCACATTAGCTGAACTATTGTTTAAATCTACTTGTCCATTGGTCAACTTCTATTAGTTGTTTTTTGA GCATATTTTTGTTCGTTACAGTATATTTAGATTAGCTTCATATCTTGTTGACAGTACTAGCTGTCCTGTTCATTAAATTG AATAGATGAAAAAAGATTATGAAAATGCCAGATGTTGTTTAACTTTAGGTCTTAGAATCAAAACATACAAAGAAAATGTT TTCTTATTGTATTTTTATCTAGCGTATGAAATTATCATGCAATGCTATAACATGAAGTTGGATGATCTTTAGTTTTCTAC TAAGCGTTTCTTTCTTCAGGCTAAACTCCCCACATCAGAGATTGCAGCAACTATAAATGAATTTAGATGCCGCCATCTAG CTGAGCTCACTGAGGTACGCGTTCCTTTTAAACTAATGCAAAATCATGCACTGCTCGTATCAGTCATTAGTAATTGATGT CTTCACATGGATGATTTTATGTTGTATTTCTAACGCACCTCCTCAGGAAAGAGCCTTTTGGGCTTGAATTGAACTCTAAA CCAGTTAGTGAGAGACTTTCATACCATGTCACAAACTATGTGAAAAGCTTAAGCTGTAGGATGAGAATATACATGAACGA TTTTATACTACATTTCTAACTGTTGATGTCTGAAAGAATGTTTGTTATTGTATTGCTGCAGTTGTGTGAAGCAAGTGGAA GTTCTCTTGGTTATGGATATAATAGAATAATGAGCAAACCCAAATCCCAATCCCCAGATTCATTAGATGAGGCTCAAGTC TCTGAAGGGACATTGGCAATATGAAGATTACCCACATAGACAAAGTAGAAGGCAGAAGATAACAAGAGTTAGGTAAAAAG AAAATACTAGTGAAGAAATGTATAGCAGATTGTAATAATTTCATTATTATGTACAGAAATACAGAGGGATAATACGAGAT GCAGTAGTTTTTCATTGTCATCTTTTTCCTCTTATGCGAGAAAATTTTGGTTCCCAGACCTTCATCTAATGTTAATTGAA GATCCACAAGCTCATCTAGATAAACGGTATGCTGGAAACTTGTTGATTGGATATTTTTTAAATTTTATGTCCCTTAATGT GATCTCCTCGAAGAGATTAGTCTACTGGCTGCGGGCTATGAGGATGCCTTGGTGTGACCAACAAATTTTCTGCCAACTCC AAACTTGTTTTCCTTTTTTTATTTCCTTTCTATATTTTCTAGGTTATCTAGAGCACTCTGCCATCAACACTCTGATCCAG TCACTACGAGTTGGTCTCCAGGAAATCAATTTCTCCTGACTGTCGAGAGAAAATCTTGCTCTAATACTAAATGTCTGAGA GATACTTGTGGTCTACACATTCAATGTCTCTTTGACTCCAAATTTACCAAGGTGTGGATGGGAAGAGTGTCAAGTTGGCT ACAAAAAGTTGAGTTTGAAGATAAGATCTCCTTTATTTTCTCATTCTTCTCCAAGTTCTCTGTCAGCTAATGAACTTATG GGAGGAGGAAGCAATATCCGTGGTTCCTTGTCCAGGGATGAAGATTCTTTGGAGGGATTCAGTTCACCAAGACTATTTTT TTTTTTTTATGGACACCAAGGCTTTGTTAATCGCCTTATAAATGGTGTTATAAAGGTTAATCGAACGAAATTCCTTAGTT TACAAGCCTCTTTAACTTTTTGGGATAAGCACAATAAGGGTCCAGAGGATTGGATATAATAAGTGGGTTGATTTTTTTTT ACCCTCCAAAGGTTGAAATTAGTCCATTGACGGAGTAAAATTGCATAATGGTCTCTAAAACTTCTAAATTTTCTGGCTTT AGTCCTCACTGTAGCCAGAGTTGATTGCGTGGCTGGTAAAGGGTGATGTGGTCTCGTACACATCATTTAATGAGATTGAC GTGGCAAACACCTGG
CDS sequence (LotjaGi1g1v0472600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGATATGACTTGTAGCTTGCCGCAGTCAAGAATGATACAAGGAGGTGTTGGGAGACACATATCAGCTGGCCGTTTCGA TTCGAGAGGGAGGGGTTTTGGTTGTGCATTTCTCGGCAACTGGAGAAGTGGTTCGAGATTGCATTTTAGTAGGATGAATA AAGTTAGTGGTGTTTCTGCTTGTGTTTCTGGTGGTGAAGGTTTGAATGTGAAGAGAGGTTTATCTTGTAAGAATAATAGT CTTTTTACGGGGTCGAGAGTGATTTGGTCTAAGTGCCAGGGCAGTGATTCTTTAGCTTATGTTGATGGCAACGGCCGCAA TGTTGATCATGTGGAAGGTTCTGGTGAGGGTTTAGGACCGGGACCCGTTTCTAGTGCTGAACTTGAAGCAACTTTGGAAG AGGAAGGGCAAGCTGGGAGCGAAGGTGGAGAGTTTGAAATAGGAGTAGAGGAACTAAGTGTGGATGAACTGAAAGAGCTA TTGCAAAGAGCATTGAAGGAGCTAGAAGTTGCTCAAATAAATAGTACCATGTTTGAAGAGAAGGTTAAAAAGATATCAGA GACTGCTATATTTTTACATGATGAAGCAGCTCGTTCTTGGAGCGAGGTTAATTCCACTCTAGACACCATTCAAGAAATTG CAAATGAAGAACATACAGCTAAAGAAGCTGTCCAAAATGCAACAATGGCTCTTTCTGTAGCCGAGGCCAGGCTTCAAGTA GCCTTAGATTCTTTGGAGGTCGCAAAAGAAGTGCCGGATTCAGAAAAAGGTTCTGATGAGGGTACTGGGGACAAGGACAT GGCGGAGAAGGGGAAATCACTTTTCAATGCTCAAGAAGATATCAAGCAATGCCAGACACATTTAGCCAATTGTGAGGCAG AGTTGCGACGTTTGCAAAGTAGGAAGGAGGAGCTGCAGACGGAAGTGAGCAAATTGCAAGAAATTGCTGAAAAGGCACAG CTGAATGCAGTAAAAGCCGAGGAGGATGTTACAAACATAATGCTTTTAGCAGAGCAAGCTGTTGCCTTTGAACTTGAGGC TACACAACGTGTAAATGATGCAGAGATTGCCTTAGAGCGAGCTGATAAGTCTGTCTCTAATTTGAATGCTGATACCACAG AATCTATACAAGTTCAGGATGTCGAGTCTGTTTCAGAGGATGAGAAAGTGGATCAAGGTTTTTCTAGTGATGCCACTGTT GAAAGAAACGGAGATTTGGCAACTGATGATGAATCTCTTCTTCCCAAGTTATCACCTGAAACACTGTCTGAAAAAACCAG CCATTTGGAAGATATAACACAGTCTGATAATTTAAGTGATAATGAGAATGGTGTTCAAACAAAAAAACAGGAAACACAAA AAGATTTGACTAGAGACAGTTCACCCTTTGCCCCCAAGGCATTATTGAAGAAGTCTTCTCGATTCTTTTCTGCATCGTTC TTCTCTTCTACTGAAGATGGGGCCGAGTTCACACCAACATCAGTTTTCGAGGCCCTTGTGTTATTGGCAAAGAAGCAGTT GCCCAAGCTGGTTCTTGGGTTATTGTTAATGGGAGCAGGGGTTGCCTTCTATGCCAATAAGGCAGAGAGGAATGGTCTGC TGCTTCAACAGGCAGATGTTATTATGACCAGTGCTGAAGAAGTTTCCTCTAGTGCAAAGCCTCTGGTTAGACAACTTCAG AAACTCCCCAAGAAAATTAAGAAACTCATTGCGTCATTACCTCATCAAGAGGTGAATGAGGAAGAAGCCTCCCTCTTTGA CATGCTTTGGTTACTACTCGCAAGTGTTATATTTGTCCCAATTTTTCAAAAACTCCCTGGAGGTAGTCCTGTTCTTGGAT ACTTGGCTGCTGGTATCTTGATTGGGCCTTATGGTCTCTCCATCATTCGTCACGTTCATGCAACAAAAGCAATAGCTGAA TTTGGAGTTGTTTTCCTTCTATTCAATATCGGCCTGGAGCTCTCTGTTGAAAGACTAAGTTCGATGAAGAAATATGTTTT TGGATTAGGCTCCGCACAGGTTTTAGCCACTGCTGTAGCTGTTGGCTTGGTGGCTCATTATATTTGCGGCACACCTGGCC CTGCTGCTATTGTCATTGGGAATGGCCTGGCGTTATCATCTACTGCTGTTGTTCTTCAGGTGTTGCAGGAGCGAGGTGAG AGCACATCACGGCATGGACGAGCTACATTTTCTGTTTTACTTTTTCAGGATTTGGCTGTTGTGGTCTTGCTAATACTCAT ACCTCTTATTTCACCTAATTCTTCCAAAGGAGGGGTTGGCTTTCAAGCCATTGCTGAAGCTCTTGGAATGGCTGGTGTAA AGGCAGCAGTTGCTATCACTGCCATAATTGCAGGTGGACGATTGCTCCTCCGACCAATATACAAGCAAGTTGCAGAAAAT CAAAATGCAGAAATATTTTCAGCCAATACGCTCCTTGTTATTCTTGGGACTAGTCTTCTTACAGCCAGGGCAGGACTTTC CATGGCATTGGGAGCATTTTTGGCTGGTTTACTACTGGCAGAAACTGAATTTTCCTTGCAAGTTGAATCTGATATTGCTC CATATCGTGGTCTTCTTTTGGGGCTGTTCTTTATGACGGTTGGAATGTCTATTGATCCAAAACTTCTTGTTTCAAACTTC CCAGTCGTCACTGGGACATTGGGACTCTTGATATTTGGCAAGACTCTCTTGGTTTGTTTGATGGGTAAAATCTTTGGGAT TTCCCTCATTTCTGCCATAAGAGCTGGTCTTCTTCTTGCTCCTGGTGGAGAATTTGCTTTTGTGGCTTTCGGTGAAGCTG TTAATCAGGGCATAATGTCTAGTCAGCTGTCATCTTTGCTGTTTCTTGTCGTGGGCATTTCAATGGCCATCACACCATGG CTAGCTGCAGGAGGCCAGCTGATTGCTTCCCGTTTTGAGCAGCATGATGTTAGAAGTTTATTACCTGTAGAAAGTGAGAC CGATGATCTGCAAGATCATATCATTATTTGTGGATTTGGACGAGTTGGCCAGATCATTGCACAACTTCTTTCCGAGCGAC TTATTCCATTCGTTGCACTGGATGTGAGAGGTGATAGAGTGGCAGTTGGGCGAGCCCTGGATCTCCCTGTGTACTTTGGA GATGCCGGTAGTCGAGAGGTACTACACAAGATTGGGGCTGAAAGGGCATGTGCTGCAGCAATAACTCTAGATACGCCGGG AGCAAATTATAGAACAGTTTGGGCTCTTAGCAAGTACTTCCCTAATGTGAAGACTTTTGTTCGTGCCCATGACGTTGATC ATGGATTGAATTTAGAAAAGGCTGGAGCTACTGCTGTTGTCCCAGAGACATTGGAACCCAGTCTTCAACTAGCAGCTGCC GTGCTTGCTCAGGCTAAACTCCCCACATCAGAGATTGCAGCAACTATAAATGAATTTAGATGCCGCCATCTAGCTGAGCT CACTGAGTTGTGTGAAGCAAGTGGAAGTTCTCTTGGTTATGGATATAATAGAATAATGAGCAAACCCAAATCCCAATCCC CAGATTCATTAGATGAGGCTCAAGTCTCTGAAGGGACATTGGCAATATGA
Protein sequence (LotjaGi1g1v0472600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MDMTCSLPQSRMIQGGVGRHISAGRFDSRGRGFGCAFLGNWRSGSRLHFSRMNKVSGVSACVSGGEGLNVKRGLSCKNNS LFTGSRVIWSKCQGSDSLAYVDGNGRNVDHVEGSGEGLGPGPVSSAELEATLEEEGQAGSEGGEFEIGVEELSVDELKEL LQRALKELEVAQINSTMFEEKVKKISETAIFLHDEAARSWSEVNSTLDTIQEIANEEHTAKEAVQNATMALSVAEARLQV ALDSLEVAKEVPDSEKGSDEGTGDKDMAEKGKSLFNAQEDIKQCQTHLANCEAELRRLQSRKEELQTEVSKLQEIAEKAQ LNAVKAEEDVTNIMLLAEQAVAFELEATQRVNDAEIALERADKSVSNLNADTTESIQVQDVESVSEDEKVDQGFSSDATV ERNGDLATDDESLLPKLSPETLSEKTSHLEDITQSDNLSDNENGVQTKKQETQKDLTRDSSPFAPKALLKKSSRFFSASF FSSTEDGAEFTPTSVFEALVLLAKKQLPKLVLGLLLMGAGVAFYANKAERNGLLLQQADVIMTSAEEVSSSAKPLVRQLQ KLPKKIKKLIASLPHQEVNEEEASLFDMLWLLLASVIFVPIFQKLPGGSPVLGYLAAGILIGPYGLSIIRHVHATKAIAE FGVVFLLFNIGLELSVERLSSMKKYVFGLGSAQVLATAVAVGLVAHYICGTPGPAAIVIGNGLALSSTAVVLQVLQERGE STSRHGRATFSVLLFQDLAVVVLLILIPLISPNSSKGGVGFQAIAEALGMAGVKAAVAITAIIAGGRLLLRPIYKQVAEN QNAEIFSANTLLVILGTSLLTARAGLSMALGAFLAGLLLAETEFSLQVESDIAPYRGLLLGLFFMTVGMSIDPKLLVSNF PVVTGTLGLLIFGKTLLVCLMGKIFGISLISAIRAGLLLAPGGEFAFVAFGEAVNQGIMSSQLSSLLFLVVGISMAITPW LAAGGQLIASRFEQHDVRSLLPVESETDDLQDHIIICGFGRVGQIIAQLLSERLIPFVALDVRGDRVAVGRALDLPVYFG DAGSREVLHKIGAERACAAAITLDTPGANYRTVWALSKYFPNVKTFVRAHDVDHGLNLEKAGATAVVPETLEPSLQLAAA VLAQAKLPTSEIAATINEFRCRHLAELTELCEASGSSLGYGYNRIMSKPKSQSPDSLDEAQVSEGTLAI
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 |
---|---|---|---|---|---|---|
PANTHER | 1 | 1188 | 1188 | 0.0 | – | |
PANTHER | 1 | 1188 | 1188 | 0.0 | – | |
Phobius | 1 | 506 | 506 | - | – | |
Coils | 154 | 174 | 21 | - | – | |
MobiDBLite | 249 | 268 | 20 | - | – | |
Coils | 274 | 329 | 56 | - | – | |
Coils | 351 | 371 | 21 | - | – | |
MobiDBLite | 379 | 461 | 83 | - | – | |
MobiDBLite | 432 | 446 | 15 | - | – | |
Phobius | 507 | 525 | 19 | - | – | |
Phobius | 526 | 582 | 57 | - | – | |
Gene3D | 581 | 968 | 388 | 2.9E-77 | ||
Phobius | 583 | 602 | 20 | - | – | |
Pfam | 591 | 961 | 371 | 1.4E-60 | ||
TIGRFAM | 592 | 872 | 281 | 2.2E-84 | ||
Phobius | 603 | 610 | 8 | - | – | |
TMHMM | 607 | 629 | 23 | - | – | |
Phobius | 611 | 631 | 21 | - | – | |
Phobius | 632 | 636 | 5 | - | – | |
Phobius | 637 | 654 | 18 | - | – | |
Phobius | 655 | 665 | 11 | - | – | |
Phobius | 666 | 688 | 23 | - | – | |
TMHMM | 666 | 688 | 23 | - | – | |
Phobius | 689 | 693 | 5 | - | – | |
TMHMM | 693 | 715 | 23 | - | – | |
Phobius | 694 | 715 | 22 | - | – | |
Phobius | 716 | 726 | 11 | - | – | |
Phobius | 727 | 751 | 25 | - | – | |
TMHMM | 728 | 750 | 23 | - | – | |
Phobius | 752 | 770 | 19 | - | – | |
TMHMM | 768 | 790 | 23 | - | – | |
Phobius | 771 | 790 | 20 | - | – | |
Phobius | 791 | 810 | 20 | - | – | |
TMHMM | 810 | 832 | 23 | - | – | |
Phobius | 811 | 840 | 30 | - | – | |
Phobius | 841 | 851 | 11 | - | – | |
Phobius | 852 | 871 | 20 | - | – | |
TMHMM | 852 | 871 | 20 | - | – | |
Phobius | 872 | 882 | 11 | - | – | |
TMHMM | 876 | 898 | 23 | - | – | |
Phobius | 883 | 905 | 23 | - | – | |
Phobius | 906 | 910 | 5 | - | – | |
TMHMM | 908 | 930 | 23 | - | – | |
Phobius | 911 | 931 | 21 | - | – | |
Phobius | 932 | 942 | 11 | - | – | |
TMHMM | 943 | 965 | 23 | - | – | |
Phobius | 943 | 962 | 20 | - | – | |
Phobius | 963 | 1189 | 227 | - | – | |
Gene3D | 989 | 1152 | 164 | 6.0E-36 | – | |
SUPERFAMILY | 990 | 1131 | 142 | 9.06E-29 | ||
ProSiteProfiles | 993 | 1115 | 123 | 16.309 | ||
Pfam | 994 | 1107 | 114 | 1.5E-19 | ||
MobiDBLite | 1168 | 1189 | 22 | - | – |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
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. | ||
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. | ||
Molecular function | Cation transmembrane transporter activity | Enables the transfer of cation from one side of a membrane to the other. | ||
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). | ||
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. | ||
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. |
Expression pattern of LotjaGi1g1v0472600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…