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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0472600 |
Transcript ID | LotjaGi1g1v0472600.2 |
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_chr1:98314494..98326638) extracted from Lotus japonicus Gifu genome v1.2.
TTCGATATGGATATGACTTGTAGCTTGCCGCAGTCAAGAATGATACAAGGAGGTGTTGGGAGACACATATCAGCTGGCCG TTTCGATTCGAGAGGGAGGGGTTTTGGTTGTGCATTTCTCGGCAACTGGAGAAGTGGTTCGAGATTGCATTTTAGTAGGA TGAATAAAGTTAGTGGTGTTTCTGCTTGTGTTTCTGGTGGTGAAGGTTTGAATGTGAAGAGAGGTTTATCTTGTAAGAAT AATAGTCTTTTTACGGGGTCGAGAGTGATTTGGTCTAAGTGCCAGGGCAGTGATTCTTTAGCTTATGTTGATGGCAACGG CCGCAATGTTGATCATGTGGAAGGTTCTGGTGAGGGTTTAGGACCGGGACCCGTTTCTAGTGCTGAACTTGAAGCAACTT TGGAAGAGGAAGGGCAAGCTGGGAGCGAAGGTGGAGAGTTTGAAATAGGAGTAGAGGAACTAAGTGTGGATGAACTGAAA GAGCTATTGCAAAGAGCATTGAAGGAGCTAGAAGTTGCTCAAATAAATAGTACCATGTTTGAAGAGAAGGTTAAAAAGAT ATCAGAGACTGCTATATTTTTACATGATGAAGCAGCTCGTTCTTGGAGCGAGGTTAATTCCACTCTAGACACCATTCAAG AAATTGCAAATGAAGAACATACAGCTAAAGAAGCTGTCCAAAATGCAACAATGGCTCTTTCTGTAGCCGAGGCCAGGCTT CAAGTAGCCTTAGATTCTTTGGAGGTCGCAAAAGAAGTGCCGGATTCAGAAAAAGGTTCTGATGAGGGTACTGGGGACAA GGACATGGCGGAGAAGGGGAAATCACTTTTCAATGCTCAAGAAGATATCAAGCAATGCCAGACACATTTAGCCAATTGTG AGGCAGAGTTGCGACGTTTGCAAAGTAGGAAGGAGGAGCTGCAGACGGAAGTGAGCAAATTGCAAGAAATTGCTGAAAAG GCACAGCTGAATGCAGTAAAAGCCGAGGAGGATGTTACAAACATAATGCTTTTAGCAGAGCAAGCTGTTGCCTTTGAACT TGAGGCTACACAACGTGTAAATGATGCAGAGATTGCCTTAGAGCGAGCTGATAAGTCTGTCTCTAATTTGAATGCTGATA CCACAGAATCTATACAAGTTCAGGATGTCGAGTCTGTTTCAGAGGATGAGAAAGTGGATCAAGGTTTTTCTAGTGATGCC ACTGTTGAAAGAAACGGAGATTTGGCAACTGATGATGAATCTCTTCTTCCCAAGTTATCACCTGAAACACTGTCTGAAAA AACCAGCCATTTGGAAGATATAACACAGTCTGATAATTTAAGTGATAATGAGAATGGTGTTCAAACAAAAAAACAGGAAA CACAAAAAGATTTGACTAGAGACAGTTCACCCTTTGCCCCCAAGGCATTATTGAAGAAGTCTTCTCGATTCTTTTCTGCA TCGTTCTTCTCTTCTACTGAAGATGGGGCCGAGTTCACACCAACATCAGTTTTCGAGGCCCTTGTGTTATTGGCAAAGAA GCAGTTGCCCAAGCTGGTTCTTGGGTTATTGTTAATGGGAGCAGGGTGTGTAAGATCATGCCATATCTTATTCCTTTATT GCTGTCATTTTTATTTAAATCTTTCTAAAAGGGTCTTGTCTGAAAGAATATATACATCATTTATTTGGCAATCGGCATAT AATATGCATGGTATACGAGTAGTTTTTAAGAAATATTATGATGGCATTTTTGAGCTTCCTATGCAATGCAATATGATTGA GAATGTCAAGGCACAATATTCACTGGCTTGTTTGGAAACTGATTTTGAAGATAAATTGCTATCATTTGGAAATTAGAATG GGATCTATGCCTTGATATGGGCCACCTTTATTTGAGTTGTGCAATATGTTTTAAAGGAGACTATATTTTGCCTTTTCGCC ATGTTGTTTTACATGCAAAGGTGTAATATAAAGATTTTACCCAGTATTTAAAAAATAGTAGATTTTTATTCCAGGGTTGC CTTCTATGCCAATAAGGCAGAGAGGAATGGTCTGCTGCTTCAACAGGCAGATGTTATTATGACCAGTGCTGAAGAAGTTT CCTCTAGTGCAAAGCCTCTGGTTAGACAACTTCAGAAACTCCCCAAGAAAATTAAGAAACTCATTGCGTCATTACCTCAT CAAGAGGTTTGCTTGTCTTTGTTCTTGCTCTTTAGTCTTGCGCTCAATTCTTATAAATTTTAGCTGACTGTTTGCAATAT ATATATATACATATATATATATATATATATTCCAGGTGAATGAGGAAGAAGCCTCCCTCTTTGACATGCTTTGGTTACTA CTCGCAAGTGTTATATTTGTCCCAATTTTTCAAAAACTCCCTGGAGGTAACTCAGTTAGCTCTGTGTTGAATCAAATATT GTCTGTCAAAGTATCACTATTTTGCTTGTCTAGGACTCTAGAGGTAATGTGAGTAGGCACCAAACTCCCTATTCCTTAAA TGAAAATTTGATTCATGGATTAAGCTGTCTAATATTAAAATAACAGTTTACGACAATATCAAACTGTTACTTTTAAGGCA AATTTTGTTATTTAAATAGAAATATTGTGCTTTTGCTAGAAGCATCTAACCATTATCTGGATATGTTAAATTTCTCTCGA AGGTATGCACGATAAATTGGTTGTTTGTCTTACCTTCACAATTTCTCATGTTCTGCTGATGCTTGTCCTCTTTCTTGCCA CAATGTCCAGGTAGTCCTGTTCTTGGATACTTGGCTGCTGGTATCTTGATTGGGCCTTATGGTCTCTCCATCATTCGTCA CGTTCATGCAACAAAAGCAATAGCTGAATTTGGAGTTGTTTTCCTTCTATTCAATATCGGCCTGGAGGTGTGGTTCCTTA TAAGTTATTGTTCTACCTTAACTTGTTCATCACCACAATCAAAAGAGTGAAACTGAAGCTCTGAACTGCTTTGTTATTTT AGCTCTCTGTTGAAAGACTAAGTTCGATGAAGAAATATGTTTTTGGATTAGGCTCCGCACAGGTAATTGGGGAAATCTGT CTTCCATCCTTGTTATTATTGTTCACCTCTAGCTATTTTTGTTATACTGTAGTAATGTATAAGCTGATAATTTTTAGCAT GTATGAACAAATGCAGGTTTTAGCCACTGCTGTAGCTGTTGGCTTGGTGGCTCATTATATTTGCGGCACACCTGGCCCTG CTGCTATTGTCATTGGGAATGGCCTGGCGTTATCATCTACTGCTGTTGTTCTTCAGGTAAATAACCCGATTGCTGTTAAT ATTATTTTAAAAAGTAAAAACCGTTTAAGGGGTTTAATTGCTGATCATGTGGTATACGTTCTCACACTAATCAATTTAAC AACTCAGCTTTAAGCTTTTCTTTTTTATGACTGTCTTGAGTGGTGCCCAGTGTGCGGGCTAATACTAATTTCACCCTTAT TTAGTTTTGTGAGCCTAAAAGTTGAATTATACTAATAACATGTTACAACTTAAGATATTAGGTTAGTGAAAATCCGATAA AATCTCTACTAAAAGTTAAGCGGACCACATTTCAATTTAACATGTTCAACAATATGCATACGTTCGTACTTACGCACATA CTATTAAGATATCACATGGACTAGAGAATAGAGATGTGACCAAAGTAGTTCTTAATACTAATAAAGACTTGGGTAATCCT TACCTCTTGAGCTAGAGAGTAAGGCCTAGTTCACACACACACACACCCCATCAACTAAAATAAATATCCTCTTTCTATAC AAATCAGTCATACGACCTGAAAAGGCAGTGATAAAATAGAACATATAATCACTCTGATTGTTCATATATAAAAAAAGTGG GAAACGAACATTATCCCTTATAGTTGCATTAGATTGTTCTCAAACATAACGTTAACCACATCTAGCAATGGAGGCCTGCC CTGGGCACACCCTAAGAACATACTACATTGCGGCTTGCGAACCTGAAGGGTAGAAATGGGGTGAATCACAGAAACTTAAC AAAAAGGAGAAGCATGTGATTACACAAGTATTTAAAACCTAACATAACTCAGGACATAAAGTAATTGAAGGAATAAAAAT TTATAACCAGAACCAATTAATGAACTAATATTTTTCTTTTTTAGAGACAAATATAAATATAAAAATATTCGTAATCAAGA GTAGTGGAGGAAAAATAAATACGGAAATGACAGGAGAGGTTCTTAGAAAAATGAAGACGATCAAACCTCTGTTGGAAGGA GAGTTAGTATAAGCATTTTTAATATGAGTGAAATAGAACGTTTCATTTCTATTTATTCCACAAACAATATCAACCTTTCT TGAAGAGAATCAACTGAAAAACTTTATTTTGGGCAAATAATTGCTAAAATATTTGTTGTAGTTTGCATCTGTTAATAAAT TTATCAATGCATTTTACCACTTGCTTAATATTTGTAGTTGTATCAAATGCTCCTTGTTGAGAAGTTCTTGTTTGAGTACA TATATACAGTCCAGGTTATCTTGTCATCAGATGGAAAATGACAGTTTGTTCTGTCCATATTTTTTCTTTTATTTCTGGGA GTCTAATATTTTCAATGAACTTGTTTCCCAGGTGTTGCAGGAGCGAGGTGAGAGCACATCACGGCATGGACGAGCTACAT TTTCTGTTTTACTTTTTCAGGTTACTTCATACCTTTCCCATCCATCTAGATACTGAAGGATTTTCATATCAAATAACATG CTAGATTTTAGAGAGAATGTATTTCTTGTGACATATTGGTGGCTTAACTTTTTTATGAGTGGCATCTGTATCTTGCTTCC ATATCATACTGTTTTCCTGTAACGTTTGAGTAAGTTAAACACGGTTTCCTTAGTTGCAAGGTATGTTATTGAGTGAGCAT AATAATATCTTTGCACTTTACAGTCGGCAAAGTCCAGCATTTTACATGCATACTGAACTGAAGATATGCTAGTACAATGT TTTGCTAGTTGGTTCATGAAACATGCTAACAAGTATCTTTCCAATGAGCAAGGATTCATTAAATTTGAAACTTTGAATGT TGAACAAGATGGTTGACTAGTTGTACACATCAACTTATATTCCCCCTGAGAACTTCATTTAGTATGTTATTCTATGTAGA TCCTCTGCAAGAATCCTCTACTTTGTTGCTCTATCTGGTCTATTGTTATGTGAATTTTCCATTTCTAACGCTGGTTGTTT ATTATTAACAAGTCTGTTTTGATTGGTGTTACAATATTTTGAACCAAGTTGACTTTTTATTCTTTTTTGTTTCTGTTCAG GATTTGGCTGTTGTGGTCTTGCTAATACTCATACCTCTTATTTCACCTAATTCTTCCAAAGGAGGGGTAAATTTTTCTAA GCACTCCTTGTCATAAAATACCATACTTTATGATAGGCATTGTAGTCATGAGGTTTAGCTGTTTAAATATGATTAAGCTG CATGGACTCCGGTGAAGATATACAGCTTATGACACAGAACACTTAATGATGTAGTTTGACATGCAGAAAGAATTGTGAAA GTTACTGAGTCTCTCGAACACTCAGTGTCCTTGTACCTTCTCTAGTTCCCTAATTGGGGAATTAGGGTTCATAATCAGTA ATAATTCCTCTTCTTCCTGGCTGGTTTCTATCAGAGACACAGATCAATCTTTCTATAATTAATTGAATAATGTTTTTATT TTATAATATATTTATTGAAAGGGTCGAGATACCAATCTATCTTTCTAATTAAAGTTGGTTCATGCAAGAGCGAGATTGGT AGTTGTTGACATGACCTTGCTGCTGCACTGTCATCATTATTTTTTCCACATGTATACTCTGGTGTTTCTCCTCATGGAGA TACCAATCTCCTGTTTTCAGGTTGGCTTTCAAGCCATTGCTGAAGCTCTTGGAATGGCTGGTGTAAAGGCAGCAGTTGCT ATCACTGCCATAATTGCAGGTGGACGATTGGTAAGTGGTATTCAGACTGAGATGTGAGATCTCTCATCAGGATAATTTCG ATGTACTACTTTGTAGCTCTAATCTGGTAGCTGATTTATATGCTTTACAAATAATATGCATTTATATGGAGCATAACCCT AGGCCATCAATTCTATGGTTTTAATTGATACATATGATCTCTTTGAAGCACGCTCAGATATTTGACTGATCATGATGGAT GGATTTTACCAACCAGTTGAGCTCAATAGTAAAATTCTTTATATTTCAATTATTATCCATTTTTATTTGAATTCTTCTAT ATTTAGTTGTTAATATATATTCTATATATATATATATATATGTGTCTATATAATGTGTAGAATATATCTTCTAGATTACT TTTTATGTTTTTCTATTCAATTTTTAGTTGGTTGTATTCACCAGTTTTTACAATAATAGCTTGTTCCACGACAGGAGTAA CTGTATTTCTTAAATGCTTCGGATCTTTTGCCTGTTTATGAAGGATACTTTACTTTAATGTTCATTTTCAAAATTCAATG GAAAGAAAAATACTTCATTGTATTCAATATCTTTAAGGGGTGAAGAATGAAAGAAATAAAAAAATTAAGTTCCATAATAT TGATTGCGTCAAGATCCTGATGCTATAAACATATAATCATGTAAAATCCATTTTATCAAAGGGAAAGTGATATCCTTTCG GGGTTCATTAGGAAGGCATTGGGTTGGGTGGAGGTACTTAAATTGCAGATTATGCTTTAAACTAAGTTTCCTGTTCTTCT TTGCAGCTCCTCCGACCAATATACAAGCAAGTTGCAGAAAATCAAAATGCAGAAATATTTTCAGCCAATACGCTCCTTGT TATTCTTGGGACTAGTCTTCTTACAGCCAGGGTATGTGATTGTCCAGTTGCTTTTCCTTGCATCCTTTCTTTGGGTTTTT GACATGTTGAAGAGTTTCTTCTAGGGTTTTTGTTTACTATAGAAACACTCCTATATTTCAATAAGATTAATTAGAATAAA TTAGAAAATGAAAAGACCTACCAAGGTTAGATTGTTTTGTCTTAGTATTGTTCTGAAAACTGAACCAACCAGTTGGATCA GTTTAATTGTGAACTGTTCTGTTAGCTTGTCTGTTCAAGTCTCTATAATTGGAACTAGAGAACTGGTCTCTTAACTGGGG AACTTGCTAATGACAGCGTAACTGGATACAGTTAGAGAGGTTGAACTAGTACAACGTTAATGCCAGAAAATGCAACAATC TGGGACATAGGAAACAAACACAGATGTGTAGTACAAGAGGGCAACATTCAACCAGTGTCACTAGTGTTTCTTGTGTAATG TTCTCAGATAGATTGCTCTTATTTAAATTTATTTGATTGCTTCACATAGAAGGAGTAATTGAACCTGGGTGTGTACTGTG TAGCTTAGATTTAGAAGGTCACATTCAACCATTGTGCCACTAGTACTTCTATGTCATGTTATTAGTTCAATTATTCTTAT ATCAATTTCAAGTTATTGCTGCATATAGAATCCAAATCATTTATGTTATGCACTAGTTATTAAGCATTAGAAGTAAATAG CTCATTTGGAAAAATTCCCTACTAGATCTTAACCTTTTTTTTTTCCTTTGCTTAAATAGGCAGGACTTTCCATGGCATTG GGAGCATTTTTGGCTGGTTTACTACTGGCAGAAACTGAATTTTCCTTGCAAGTTGAATCTGATATTGCTCCATATCGTGG TCTTCTTTTGGGGCTGTTCTTTATGACGGTAGGTGCTGAATATCGAATTTCACAAATTTATTAATTGTTTTTATTTTATT TGTTCACATGACCTCTTTTCGTTTAAAACTGAGGTTACAATTGTTTCTCACTTTCAAAAGTGGTGGACTATCGCGATTGA TATGAGCAGAATAGTGGTTCCAAAGTCCTGCAAAACTACAGCATTGTGGTTGCATACTTCTATTATACAGCATTTAAACT GTCTAGAAAAAAAAGGGTATAAAAGAAACACCTTCTGAACTTTTTCTGATCTTGAATCTAAATGTAATCATTATGCTGCA TCGATCAGAAAATCTTGATTGCTTAACTGCAAAGTTGTCATAGGCTTCTATTCTTACAAATGTTATTTCCAATGTTATAA TAATCAAGCCATCTTTGATCTGTGTATTAAGTACCAATTATATTTTGTGATTATTTCAGGTTGGAATGTCTATTGATCCA AAACTTCTTGTTTCAAACTTCCCAGTCGTCACTGGGACATTGGGACTCTTGATATTTGGCAAGACTCTCTTGGTTTGTTT GATGGGTAAAATCTTTGGGATTTCCCTCATTTCTGCCATAAGAGCTGGTCTTCTTCTTGCTCCTGGTGGAGAATTTGCTT TTGTGGCTTTCGGTGAAGCTGTTAATCAGGTTTTGGTCCTTGAATACTGTTCTTTATATGGTACTCTGGATAGGCTCTAT ATTCATGTTAAACAAGTCATTTTGCTGTAGTCTAGTTAGTTTAATAAATGGATAAATAATAGGGGCTTGCCAGACAATGA TGATTTAAGTTTGTGTGTCTTGCTGTTTTTTGAATGGTGGTGTTAGTGTTTACTCATTGTGTCACCTATTCTTGCATTTC CCAGTGGCTTAGAATTTAAAGTAAACATTGTTGTTTTAAGAGGGAAACTTGAATGCACTATGTATATGTTGCCTCAATGA TTTCCGCTTATGGCCTTTGAATTTTCTGGAGAGTATATGATTCTATCTATCGAGGTGTGTTGTATTTCTTTTACTTGGCA GTATAAGGATGGAGAGGAGCTCCAGGATTTACTGAAATCAGATGAACATTCTATCAATTTTGGGCAGAACTATGCATCTA TTTTTTGGGTGTTCGGCTCATGCCAACATTTATGGGAATTTCAGTAGTCGATATCCAGAGATTGTGGGTCTCTTTGCTAG CATGATTCTTATTTATATGAACTTATCATTCTTTTTAATTTTTTTTATATTTTGATACTTATCTCACCTTTAGCTTTTGA TGATTGGTCATCCTTGTAAGTTGAATAATCTGAAATATATTGGTGCATTAGTGTCTGCTAAGAATTTTGGTTTTCTTTGA TAATCTGCAAAAAAAAAAAAAAAAACTATTTTCACTAATTGGCACTTCCACAGGGCATAATGTCTAGTCAGCTGTCATCT TTGCTGTTTCTTGTCGTGGGCATTTCAATGGCCATCACACCATGGCTAGCTGCAGGAGGCCAGCTGATTGCTTCCCGTTT TGAGCAGCATGATGTTAGAAGTTTATTACCTGTAGAAAGTGAGGTAAATTCTCTTGCATGAGTTGCTGACCAGTAATTTT GTTAATTGCAAATGGTCAATTTTTAGCTTTACCAGTATCCATGATGGGGGCTCTCTGCTGGTGAACTGAACACCATCTTT CTTACTGCTAAGTAGATTGTATCCTATGTTTCATGGGGATGAGAAGTCCTGTGCAGTGGGCACAATGCAGCTGCATAGTC TGCCTCCAGCGTTCATTGGTTTAGGCATCTGAAATGTATTAAGGGACAGAAGCAGAATCTATGCCAGCATCCTTGTTTAA ACTATTTACTGATACTGATAGTGTTTTCAAATAGAACTCATAGTCAGAGAAATGATAAAAATATCTATTGTTTTGAAGGG AAACCTTGATATTCTTCAATCTTCATGTCTTGGAAATATCAAAAACTCGTATTTCTTGCATTTGAAATGTTTTGGCTTGT GTTCGTTTAATCGCATTATTAACATGCTTTTTTCAGATCCCTTTTACTGTAGTTAGTTTGTTGTATGTAGTTTAGTTTCA GGATTCTAGCTAATAAGTATATAGTTAGGTTTAGGAGATTGTCTGTAGTGCTTACTACAGCAGTGGTAGACAGTGGATGC AGTTAACCGTATGAGCTTACTTTTTTTTTTAATTTGGAGTTGACATGAGAATTTAACAGTTGACTTCTTTTTGGATGACA CCTTTCACAGACCGATGATCTGCAAGATCATATCATTATTTGTGGATTTGGACGAGTTGGCCAGGTAAACTCCCTCTTTT TTGGTTTGATTAATGAGATTAATAAGTATAACAGTTTACCTTTGTGTTGTTTCAGATCATTGCACAACTTCTTTCCGAGC GACTTATTCCATTCGTTGCACTGGATGTGAGAGGGTAACATAACATTGCTAATTGAAACTATTATCTTTTTCTTGCAATT GTTTCTTGTGGTTAAATGAATGATTTGATGTCTGTTATGAAGTTTTTAAGCTTAGTTAATCATATCTCTATGGAAAAAGA AAACAAAATTACAAGCTTATTTCTGAATTCTGCCTCCCAAGGGGAAACTAGAACAAAACAATTACAATACTCTTTCACTA TGTACAAGTGAAAACTAGTTGGGTTTATGTGTGTAGCTTTTTATAGTTGAATGGAGCACCTATTTCAATGATTCTGGTAA TGTTGGAATGTGTTATGATAATAAATTGACAGACCATGAAAAAACTGTGATCTATATTTAGATAATTATAGGATACCCAA AAGCCTAGATTACCCTAATGTAATTTATTGCATGTTATTATGCTCTTAACAGAATGTTTATTGAGATTCTTTCCTACAAT TTTCCCCAAAGATGTGTTATATTTTATGTGTGCAATTTAAGATAGGAAGTTGAACTAACCTAATTTCCATATTTGCTAAT GCCTTCAGTGATAGAGTGGCAGTTGGGCGAGCCCTGGATCTCCCTGTGTACTTTGGAGATGCCGGTAGTCGAGAGGTAGT GCACATTATTTCAGTTCATAAATCACATGCATGTTCTTTCCTGACATTCTTTTTATGCATGACTAGGTACTACACAAGAT TGGGGCTGAAAGGGCATGTGCTGCAGCAATAACTCTAGATACGCCGGGAGCAAATTATAGAACAGTTTGGGCTCTTAGCA AGTACTTCCCTAATGTGAAGACTTTTGTTCGTGCCCATGACGTTGATCATGGATTGAATTTAGAAAAGGCTGGAGCTACT GCTGTAATATTCTCATATCTATTCTAGTATTCCATTTTAATTATCTTATGGTGAATTCCAAAATAGTGGGAGAAGAGTCT TGTTTTTAGTGGAATGCCTATTCTAGAATTTTCTATCTCTTGCAGGTTGTCCCAGAGACATTGGAACCCAGTCTTCAACT AGCAGCTGCCGTGCTTGCTCAGGTAAATCAATTTTCATTTAGTATCCTATTTTTTATTGGAATAGAAGTAGTAGTGGAAG ATATTTTTATGTCCTCAGTGTATCTTACAATATCAATATTGAGATTTGAGAGACTCATATTTGACTATGGGTTATGACAG ACACAATAAAGATATAAATGATTATGGTCATTTCTTGTTTTGATGGGGTCTTGGTCACATTAGCTGAACTATTGTTTAAA TCTACTTGTCCATTGGTCAACTTCTATTAGTTGTTTTTTGAGCATATTTTTGTTCGTTACAGTATATTTAGATTAGCTTC ATATCTTGTTGACAGTACTAGCTGTCCTGTTCATTAAATTGAATAGATGAAAAAAGATTATGAAAATGCCAGATGTTGTT TAACTTTAGGTCTTAGAATCAAAACATACAAAGAAAATGTTTTCTTATTGTATTTTTATCTAGCGTATGAAATTATCATG CAATGCTATAACATGAAGTTGGATGATCTTTAGTTTTCTACTAAGCGTTTCTTTCTTCAGGCTAAACTCCCCACATCAGA GATTGCAGCAACTATAAATGAATTTAGATGCCGCCATCTAGCTGAGCTCACTGAGGTACGCGTTCCTTTTAAACTAATGC AAAATCATGCACTGCTCGTATCAGTCATTAGTAATTGATGTCTTCACATGGATGATTTTATGTTGTATTTCTAACGCACC TCCTCAGGAAAGAGCCTTTTGGGCTTGAATTGAACTCTAAACCAGTTAGTGAGAGACTTTCATACCATGTCACAAACTAT GTGAAAAGCTTAAGCTGTAGGATGAGAATATACATGAACGATTTTATACTACATTTCTAACTGTTGATGTCTGAAAGAAT GTTTGTTATTGTATTGCTGCAGTTGTGTGAAGCAAGTGGAAGTTCTCTTGGTTATGGATATAATAGAATAATGAGCAAAC CCAAATCCCAATCCCCAGATTCATTAGATGAGGCTCAAGTCTCTGAAGGGACATTGGCAATATGA
CDS sequence (LotjaGi1g1v0472600.2) 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 (LotjaGi1g1v0472600.2) 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 LotjaGi1g1v0472600.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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