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 | LotjaGi1g1v0798500 |
Transcript ID | LotjaGi1g1v0798500.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Plasma membrane ATPase; TAIR: AT1G17260.1 autoinhibited H -ATPase isoform 10; Swiss-Prot: sp|Q43128|PMA10_ARATH ATPase 10, plasma membrane-type; TrEMBL-Plants: tr|A0A072U4I4|A0A072U4I4_MEDTR Plasma membrane ATPase; Found in the gene: LotjaGi1g1v0798500 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:136911955..136923951) extracted from Lotus japonicus Gifu genome v1.2.
GGGGGATGTAAAACCAAAAGGGAAAGGAAAGAGGGTTCTCGTAGTTTTTTGCAATAATTCCCATTCCCATTCCCAGGTTT TGAAGTTTAATGAATTCATTTATGTAGATGCCACCAAATCTAGAGTTTAGCAACAACAGAATTTTTATTTTATTTTTAAA AAAGAAAAGTTTAGTTGGGGGAGGAGAACGTTGGGTTGAAGAATGAAGAGGCACGTTTTGAATGGTGGTTGAAGTCCAAC GGTCTTTCTTAATTTGATAATTGATATTGCGCGCACGCTGACGCAGGCAGTTTCTGTTGTCGTATTTCTCAAATCTATTA AAACTTTGTTGGAAGGTTTATAGTACCTACCACTCTAGTCTCTACTCTTCTTCCTTCCGCCTTTGTTGTAGTAGTACCTA ACCAACAGTCAAGCTTAGCTACCCAACCATGGTTGAGCTTCCTCTTTATCAATGTGCCACTATCTTACTTCCTCTCTGCT TCTTCTCACTGCTACATCTTCCTCTTCTCTTGAGAGGTCAACCCGCTTCGCTTCTTCTTTTTCAGGGTAACTTGCTACAT CATGCTATTTCATTTTATATGTTACTGCTCCTAAGTCCTCGCTACAGTAATTGTGATTTGTACCTACTTACTGTTATTAA CCCCTAATTAACTGCATAATGTGTAGCTATAACATGGCTGATGAACTGGATAAACCTTTGCTCGGTCCTGAGAATTTCAA CCGAGAGGGCATTGATTTGGTAACTTCTCCAACAAATGCTGCCCTTAGTTTCTGAATTTTCTAACTTGAACCTGTTCTGT TCACCATATATTATATAGTATAACATTTTATTTTGTTGGTCAGGAGCGCATACCACTAGAAGAAGTATTTCAACAGTTGA GAACTTCACCAAGAGGACTTTCATATGAAGATGCTGAAGCCCGACTCGAGATATTTGGTCCAAACAAACTTGAAGAAAGG AAAGTAAGAACACACTTCTTATAAATATCTGATTTTCAGTCACATATAGAATGTGATTTTGAAGTACATTGTTCACAGAG TTACCATGTTAAACTACATTGGGATATCTATGGCTAGCTATCAGTGTAATGTGATTTATCTATATAGTACTTCTGAATCA AAAATAAAATTACAGATATTTTGTGATTCATTATGACCATTATGTCTTGAGCCAATTTTAACAACTTCCACTTACCTCAT AATGCATAAATTATCGAAGGGAATGCCTTCTATGTTCTTTGACACTAATCCACTATGGCATTTTAAGTACACACTATCTC ACTGCACATCTCAAATGTTAGCTTTCTTCTTCTCATTGACAGGAAATCATCTTCTCTTACGTGCAAAAAAATTCTCTCTC TCTCTCTCTCTCTCTCTCTCTCTCTATTTAAGGATTTTGGATAGGTGGGGGAGTCCTGTCAAAATTTGTGAATGTTTATA GATTACAAAATTTTCACATGATTAATTATGTTACGTGAAATTTTATCGTGGGAGGGGACATTCCCCTCACTGACCAAGGC ATTATAGTTCACAATTAGTTTCTTTCACTACAAGAAATCTAATACTGCATGATTTACATAATCAGAAAAATAGAATCATG CATGCTGTTTCCGTTCTCCATTGAAAATCTTTAGTGTTATCATTTATTCTATATTGGACTGTGGTTAGTAATTATAAAGG GGAAAGAGGCATTGGTTTATTGTAATTGTAATGCCATTATCCATGGCTAGCATTATATATGCATCTTAAGTCTAACCGAA CAAATTCTAACCATAACCCCGTCCTCAAATGTTATGCAGGAAAATAAAATATTAAAATTTCTTAGTTTCATGTGGAATCC TCTGTCATGGGTTATGGAAGCAGCAGCATTGATGGCGATTATCCTTGCTAATGGTGGAGTGAGTAACGAGCATAATCATT GTTCTTCCAATATTTTATTTTCTCTTCTCTAGATTCAACTTGTACTTATAATGTTGTTTTTCCATTTCTTGATTCCTTAC TTGGAGAGATATTTTCAGGGGGGGGGTCCTGATTGGCAAGACTTTGTAGGGATTATATGCCTGCTGGTGATAAACTCAAC TATTAGTTTTATTGAAGAAAATAATGCTGGTAATGCTGCAGCAGCGCTCATGGCTCATTTAGCTCCTAGAACAAAGGTAT GCTTCTTTGTTGATGACATCCATCTCAGGAATTGATCCATCACCTATGCCATACAAACTGAACAAATCTCCTCAAAAACT TGAAATTTTTTCAGTAGTGTATCACTAGCTATATAGCTTGTTATGCAACAATACCTTGCGCCTTTGAGTTTTTCTTTTTG CCCTCTTCTCATATGAATAATCAGATAAACTTTCCCTCACATCTGAACATTTATAGGCTTGATATTTAAGAGTTCAGGGA ATATAGAACTATATTTTAATGAGTGAAGTTCTCTATTACCTAATCGTTCAGGTTCTCAGAGATGGGCAGTGGCAAGATCA AGATGCAGCTGTTTTAGTACCTGGGGATATTATCAGCATAAAACTGGGAGATATCATTCCAGCTGATGCTCGCTTGCTCG AAGGAGACCCTCTAAAAATTGACCAGGCAAGTCTTTGTTATAAAGTTTCTATTAATTTGTTTCTACTTAACGTTTTCAGT CACTATTTATATTTTCATGACATAAATTGCTTATAATTGATCAAGAATCGAGATGAAGTTCACTTGGTTTTGTTTCATGC AGTCAGCCCTTACTGGAGAATCTCTACCCGTTACGAAGAAAACTGGTGATGAGGTATTTTCAGGTTCAACATGTAAACAC GGAGAGATTGAAGCTGTAGTGATAGCAACAGGAGTTCACTCCTTTTTTGGAAAGGCTGCACACTTGGTTGACAGCACTCA AGTTGTTGGACATTTTCAGAAGGTAAAACTTTCAACACCTTGTCATGTCATTATTAAGAAATAAGAAATATAACCAAACC AAGATTGTTACAAAATGCTAGATGTTTGAATGTTTGTATAAAGGTTTTCAAGGATTGCTATTTTTTCCTTGTATTGATTT ACATTACATATGACAAAACTAGAACAAAGGAGTAGGGACCTATATACTCAGTCCTCATTCCTCAACATTGAAATGAAGAT TAAAGCATAGGGAAACGCCAAAACAAGCTTGAATGCAATATAAACTTTGCAGATCTTTTGATCAACCACTCAAATTTCAA ACCTTGATTCAAGTTTTATTGTTTGCTTTTCTGCAGGTCCTTACCTCAATTGGTAACTTCTGCATTTGCTCTATAGCTGC AGGGATGCTTCTTGAAATAATTATAATGTTCCCGGTGGAGCATAGATCATACAGGGATGGAATCAACAACCTTCTTGTTC TCCTGATTGGAGGAATACCCATAGCTATGCCAACAGTATTATCTGTAACACTTGCCATTGGCTCTCATCGCCTTTCTCAG CAGGTGCGACTTTTTAGAACTTGTAAATAATATTGTAGTAGAATTAAGATCAAAGTCCCTCTCTATATGCTACCCATGTT TGGCTCTTCGATTCAAATGAAAGGGATGAAGCTAAGCTTTTGTCTGAATTATTGATAACCGTCGTTAAAGTTTGGAAAAT TCTGTAGTGCCTCAAAGGGGTAACCATACCCCCAGGCAGCATACTTTATATCACATCACTAGGAGGAGTATAGTTATATC ATCCATGAAGTTTACTGCATTGAAGTAGATTTTTGTGCTGCTGACTGTGCTCTTTCTTTATTTTTATTTACTTCACTCTT AAGGGAGTTATCACAAAAAGAATGACAGCAATTGAAGAAATGGCAGGCATGGATGTCTTATGCAGTGACAAAACTGGAAC TCTTACGCTAAATCGCCTGTCTGTTGATCGAAACCTTATCGAGGTAGGTTTTGAAAATGACATATAAGAATACTGTATCG ACCCATATTATTAAATGTTAATAACAAAGTTTATTTTCATATGACTTATGAAAATTTACTAAGACAAAACTTTTATAAAT TACACGTTGAACAGGTCTTTAACAGCAATATGGACAAAGATCTGGTTGTTCTACTAGCAGCCAGGGCAGCTAGACTGGAT AACCAGGATGCCATTGATGCTGCCATTGTTAATTTGCTAGCTGATCCAAAGGAGGTACAGTTTAAAGATACTCGTGTGAT TTTGATACTGAAGTTTTCCCAACACTCCTTTATTTGGAATAGCACACTGATAAAACAAAAACAATTTCTCCTTTTTCTCC CAGGCACGTGCAAACATTACTGAAGTCCATTTTCTACCATTCAATCCTGTGGATAAACGTACAGCCATAACATACATTGA CGCTGATGGAAATTATTATAGGGCCAGTAAAGGAGCTCCAGAACAGGTATCAAAATTCATGAAATAATGTGTAGCATTTC TTTACTTCCTAACTTTTCCTCATTTGACTTCAAATCTAATGCAAAGTTTTTCTCAAAGGACCCATATCCAAAAGTCATAA AACTTCCTTAAAACCAAGAAAAGAAACATCTATGAAGAAACATAGTATAAAACTATCCATGTGTGTTCACCTAACAGCTA GGAAGTAAAATGAGGTTGGTTGGTTCATGATATAGTATCATAGTCTCTATCTTCGATCCTAGTTCCCTCCTATGGTTCTA ATACAAAAGTTGAATTTAAGCACAAAGATCAATGAACTCTGTATTTTCCATGCAACAGTCACTTGGGCCAGTGAGAAAAC TTGCACCATTTTTTACTAACGGGTAAAGGGCATAGGGGAATTCTAAGATGGTATCAGAGACTATAAAATTTGGGTATCCC AATAAACGGATCTAGGATACGCTCTGAAATCATCTTAGAATTCAAATTAGGGTTTAGAGGTAGAGTTAGGCCTAACCCGA ATTCTAAGAAGGGGGTTTGCATAAGGGGCGTGATAGAAATACAATATAAAATCATTCATGTGTATTCACTTGTAAGCTTA AACTTTTGGGATAGTTGGTTCATGAAAATATTATTTGATGGAATTATAAGTTGTAATCTTCTTTCATATAATATAACAAA CTATTGTCATGGTGTGGGACATGCTAAGTATATATTATTTTTTGCATCAGAACTTCATCCTGTTCTTTATACTGTTGCCT GAATATCAGATTTTAAATATGTGCCAAGAGAAAGACAAGATTGCCAGAAGAGTGCACACAATCATAGACAAATTTGCTGA AAGGGGATTGCGTTCTCTTGCAGTTTCTTATCAGGTATAGCAGCCTGTTCCTTCTCTACCTTTTCTTTTCCTGCTAAAAG AAGAATGTAATGAAGAAAGCAGATGTCAACGTAATAGAAATATTGAAACTAGAAGATATGATCATAACTCAAATTAGAAT GTTTGATTCATGTGAAACACCCAACAGTTTAAACATTCAGGATAATTGGTTCATGGCATAGTATTAAGGTTTCAATGACC TTGTTCTTCTGAATAACTACTAATTTTCAGCCCAGCATAGTGTGGACCTGTGTATTATCTAACTTCAAACTCTTGCATGA AGGAGGGTTTTAAATATAGATTATTCATGTGCTTTAATTTAGTAGCTTAAACTTTGGAAATAGTTATTTTATGACATGAA ATATTGATTATTAATTTATTTTACTTAGATAAGTCATAACTATTTCAGGAAGTCCCTGAAAAATCCAAGGATAGCCCTGG AGGTCCTTGGACATTTTGTGGCTTGTTGCCTTTGTTTGATCCACCAAGACATGATAGTGCTGAGACCATCCGAAGAGCAC TTAACCTTGGAGTCAATGTTAAGATGATTACAGGTAAAGTATTTCAATGATAGAAAATAAAATGTGTTTTCCTTATTACG CATAAAATGTTCTATTTCTGGACTGGAAGATTATGTTTTGTAGTTCTTCTTTTGTTTCATTTCCTAAGCTGTATATATGC AAGTAAATCTGATATTAGGACCACTTAACGTTAGGTGATCCTCTTTTGATCCCATAAGGTTTGGATGAAGTGTTTTATTT TCATGCTAAAATGTAATGTTCTATATTTTTCCTTTAGTTTCATTTCTGCACTAGCCATTTATATGCCTGGAATTTTGGAA TTATAGGATTTGCTCGGGTGATCCTCTTTTCGTTCTAGTAAGAAATTATCTGAAAATACATAAACAAATATGGGCATGAT TCATGAATCATGTTCAAGGATCTGGACACTATTTACATTAGTGAGAAAAAGCAGAGTAATGACACCAAGCATATAGATGC TACGTGACTTTCACAGTGTTTTGTGTGTTTCACCTGATACAATAAGTCATGTCATTATTGTCATGTCCCAAGTTAACTCA AATTTTCTCTCATATGCAACCTTATCTGCAGCACACCCAATGTCTCATGTAATACAACTTTTACATTTACACGACATTCT TTTGTTCATATGCTCATTTGGAATCTTGATGTTGGAGGTCAGCTGAGGTGGTTTACATGTAAATGCAGGGGATCAGTTGG CTATTGCAAAGGAGACAGGGCGAAGACTTGGTATGGGGACAAACATGTACCCTTCACCATCTTTGTTGGGCCGTGAAAAA GATGAGAATCATGAAGCTCTCCCAGTTGACGAGCTCATTGAAAAGGCAGATGGCTTTGCTGGTGTATTTCCTGGTATATG ATTTTGATATTTAAGAAAGAAGAAATGTTTTCCCTCTCTTCTTATGGATAATTTACTGATCAGAGATCTGTTATGCATAA TAACTCATAGTATATGCATTATTTCATATTTTTCCATCAAAATAAAAAGTGATCTTGTGGTGGTTACCCCTCATTTTTGT AAATGCTGTTATTTAATCAAATCTCTTTACTGATTATCTTATCAATGCATTTCAGAACATAAATATGAAATAGTGAAAAT TTTACAAGAAATGAAACATGTTGTTGGAATGACCGGAGATGGAGTAAATGATGCCCCAGCATTGAAGAAAGCAGATATTG GAATAGCTGTGTCAGATTCTACAGATGCTGCAAGAGGTGCTGCTGATCTGGTCTTAACTGAGCCTGGTTTAAGTGTGATT ATTAGCGCTGTGTTAACTAGCCGAGCTATATTTCAAAGAATGAAAAATTATACAGTTGAGTATGCAACTTCCTCTTCTCC TTTATATTATCATACAAGAACTCCTTTGTGCTTTTACTATATATTATAGAGTCTCAATATGAAAGCATGCATCCTAGAAA GTAGCATCATCAGCTTGATCTATCATTCAGATCACTAATCATTATAAATGTAATAACTCAACTCAACTTATGTCTTTCAT GATATTTAATATGTATTTTATGTAAATCTGATAGCTCTCTTATATGCAGATATATGCAGTCTCAATCACCATAAGGATAG TGGTAAAATAAGCTCATATCTCCTATTTCAATGCCATTTTTCATGGTTTTTGTTTAACATAATCTTGGACTTGAATAAGA ATACCTCTGAACTTTCATATAACTTGTCAACTGAACCCTCTTGCAGCTCGGTTTTGTGCTCCTAGCGTTGATTTGGGAGT ATGATTTTCCACCCTTCATGGTCCTGATCATTGCAATCCTAAATGATGGTAATACTTTCACAGATAAAATTTTCCATCCC TAGGAATATGGATATGAATCATAGAACTTGTATCTGTTTTCCTTTTCTAGTGCAAATATGTAGTTAAATGATAGATGCAA ACAATACTCAAACAGTATTGTGTGATTTTATGACAATATAAAAGTGAAGATTATATTGTAAGGGGTTGTTTCCTGTAAAA GACTTTGAAATCAGGAAAAAAGTGAAAGTAAGGGACAGGAAATGAAAATAAAAAATGTAATGGAAACAGTTTTGCTTTGT CCCCTATTAATAACTGACAAAGGAATAACAAAACTGTTTAGAGACCAATAAGTGATATACTGATATGTAACTCAATAAGC GTTTTTGATTAGGTACTATAATGACCATATCTCAAGACAGGGTAAAGCCATCCCCCACACCTGACAGTTGGAAGCTGCCT GAGATATTTGCAACAGGAGTAGTGATTGGCACTTACCTTGCCTTGGTTACTGTCCTGTTCTACTGGATAATCATTGAAAC CACTTTCTTTGAGGTACAAAACTTTATTTTTCCCTCACTTTATTAACCCTCAAATGAAAATGTGATTTCATTCAACCAAC ATGTTTAAGCTGAAGTCTGAACAATGCAGACCTACTTCCATGTAACCTCCTTATCCAGCGACGGCGAGAAAGTTTCATCG GCCGTGTATCTGCAAGTTAGCATCATTAGCCAGGCTCTAATTTTTGTCACTCGTAGCCGTGGTTGGTCATTTCTAGAGAG ACCTGGAGTTCTACTGATGTGCGCCTTTGTAGTAGCTCAACTGGTAATGTTAGCCAATATATTTACATATAGCTAGTAGC TACTGCAAGGAGCTTTATTTAATATGTTCATTGCATTAGGAAATCCAGAAAATGTTGAATATGGGTTGGCTTTTAACTAT ATATGAATTTGTCAGGTGGCCACCTTAATTGCAGTGTATGCATATATCAGTTTTTCTGAAATTAGAGGAATTGGATGGGG ATGGGCTGGTGTTATATGGTTATACAGTTTAATCTTCTATGTACCCTTGGACATCATTAAGTTCACAGTGCGCTATGCCT TGAGTGGAGATGCCTGGAATCTCCTATTTGACAGAAAGGTTAGTGTATGCAGATTCTTCCTTCCATTTTAGTTTTGTCCA AATTGGATGATGAAATGTATGTATTTTTGTATTTCAACACCACAGACTGTTTTTACATCTAAGAAAGACTACGGGACGGA AGATAGGGCTGCAAAGTGGGTTCTTTCTCAGAGTAGTCTGCAAGGTCTTAATCTCGAGGGCCCTGGAAGGCGTTCTTCTT TGATAGCCGAACAGGCCAGGAGACGTGCTGAAATAGCCAGGTACTTCTCATTAGTTATTATCTAATCTTTGATAATCCTA AACAAAAACAGAATCTGCTTGTATTAATCATTGGCATTTGTAACAAAAAAAAACATAAAAGACTTACTACTGGTATAGCA AGCATTTTTCTAATTTAATTTTTCAAAATGCATGAAAATTTGCAGGCTGGGGGAGTTACACACTCTCAGAGGACATGTGG AGTCTGTTTTGAGACTCAAAAATTTAGACCTCAGTGTGCTACAATCAGCTCATACAGTCTAATGTCCACCGCATAAACCT TAGATTTAAGTAATTGGTCTGTATTACAGAGCTGTTGAGATGGTTTTTGGTAGTATTGGACTCTACTGTTAACTGAACAC AGTGGTGGACTGGGATTCCTTATGCTTTTTTCTCTCTTTGCACAACAATTTTTGTTTTGATAAGAGAATTACCGCTTGAG ATTCAGAATATGAAATTCTTTGTTGAGAGTCTTGTGTTAGGGACTAATAAAGCACCTCTGAGGATAACTTGTAATATTTT TTTCCTTCGGAAAATATGTATCAAGTGCCCAGGAGGACTGTTGAATTGTATGTCTGTATTTAAAATTTGATACTTCAATA ATGTCACTAGAAAGAACATGTCACCATGCAAAACTTGATACTAGGTTCAGATACTTTTGCTATCGGCTATGTTGTAATTA GCTTGAATGTTGATTGGAGGCCATGGAAATAGTTCCTCATAGCTATTACTTTCTTTTGTTAGCACATGTTTAAACAATGA TTGCTTTACACAAAATCTTGCAAGGGTTACTTTTATTTCAAGCTTTTACCTGGAGGGAATAGTAACAAATTCTTCATCGG GAACAAAAGAAATAACATTGCAGGAAAATATATTCTCAAATGAAAAGAACAACACTTAGGCATTCAAGTATGAAATATAA ACACCTGACAAAACAGAGCAAACTTGAGGAATAGAAAACAAGTCATTGCCAACCATAATAAAGGAGAGAACTTGTTACAT GGGAGACATTTGAGGGGAGCTTTTCTTACCAAGTCTGACAGAGTTGACATAATCTGTGGAACAATGAGCGGAAAAACCAG CAAATACTATTCCTATTACCCTTGCCAATATGCGAAGCCACCCTTCCTTATACTCTGCACCTTCAACGTACCCAATCGCA ATGCCTCTAATTAACTCCCACACGGCATTCAGATGTATTGACAATGCGGATCTCATTTGAAAGAAATTTTTATTTGGCTC CTCCTTCACTTGTTTTTCAATATACAAGCAGTTGTAGTAAAGGCAGGCTCCAAAATGTTTGTACAAGAAGGTTTTGTCAT CATAAGGCAACCTGGGGACAAGATCATTACAATAAACCACTCTGAAGTACTTCCGTTCCAAATAAGCTTCCATGAATCTC CCCAGCTGCCTATTCCCTATCCTCGGTTGGCCGAATGTGTACACACCAAGCAACCTTTCCATTATCTCCATCTCCTCATG CACCACTAGCACTGTTGGAAACAATATGGCCAGGGCTCCTCCCAAGCTATGCCCAGTAACCATGAAGTTTGCATTCTTGT GCTCCAATAATAGGCTTTTGAGTTTGCTTTTCACGGTGTAATATGCAGTCATCTCTGATGGTGTCTCAGAAGTTAAATAT TGGCTTTGATCGGCATCAGAATCATCATTGCCAGAGAACAATGATTCAGAGGAGGCTCCAATATCAGCATCATCTGTAGA GCTTGACTTCCTATTTTTTTTCCCTAGAAGATGAAAGGTAAAGGTGGAAGGTTCAACTCTATTGCCCAAACCAAGGGCTT CTAAGAATCCCATGTGAACTTTTCCCGTTTCTGGGATCTCATACCAGGAATAATCAAAATCAGTACTCCAATCATCAGCA TCAAAAGGTTCAGTCCCTCTAAAGCTGACTAATATCAAATTTGCATCTTTGGCCTTGTCACACATAATAAATACTTGAGT GGACATCTCTTTCTGGAAATCTATGATCAATTTATGAATCCATAAGTAATTTAGAAACAATGAAAACTTTTCATAGTAGA TCATAATGCAATACTTTATCATATAATGTCTTACCATTCCAGCAGTTGTAGAAGTCCACAAAGTGCATCTGTACACAAAT GTTAGAATCTTGTCTTATGCATACATACATACTAAAGAAACCAGTAAAATTAGAGCTAGTAACTTGCCTTCCAATGGTTG CTTACAATATTTTTGATGACTAGAGCATTCTCATATGCTAACTTGGAAGCCATCACGCAGAGGTCCATTAAAGCCCGGTT GCCCATTTCTGGTATAAATTCTGTGAACATCTGGCCCTCATGCAGATCAATCCTATTGTCCAAGTGACCGACTATACTGA TAAAAGCTTCTGAACCTCTTTGTGGTACCACCAAATTCCCTGTTCAAAACAATTAAGCATGAGAAGAATTAGTACTATGA ATGCATGCATGTTTTTGCTGGGTGATGGCATTGTTTGTTACCCCGTATCAAGTTGTGAAGTAGACCAAAGAAGTTGCCAT TCTGGGACAGAAGATTGAGCAGAAATTCAAGAAAACAGCCAGTCCAGTAGAGAGGCTTGGCGAGGAAAGCAATGATTTTG CGAACAAGAATGGAAAGGAAGATGATCCATCTGTGATGAGGATCAGACAGATTGTTATTGTTGGTGTCAACGAAGGTGGA AATGTCTCCCAGCAGAGCGTAGCGCATCAAGTCCCAAATGCCACCCTTATCAGGGAACACATTCAGGTACCTCGAACTCC CATGGTCCATGCTTGTTGAATTGAATGAATAGGTTCGGGGTTAGCTAGGATGCTTTTTAATTTGGGGTGGGTCAGTTACA AGCACAAGTTGTTGTTTATGTTACTTGTTCATGGCTAGCACCACCTGAAATGAAAGATTCTTTTTTCCTTGTCTGCGGTT GGTTGCGTGTGTGATGGAGCAACATATGCAGGGTGGCAAGACAAAAGCAATCTTCTTGTTACCAGGACCAGGACCAGGAC CACTCTCTCGGATGCTTTTCACCTTTTGCTTTGGAAACTACAGTTTAGTTTAGTTTTCTGTGAACAAGAGTCTTCAT
CDS sequence (LotjaGi1g1v0798500.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTGCCACTATCTTACTTCCTCTCTGCTTCTTCTCACTGCTACATCTTCCTCTTCTCTTGAGAGGTCAACCCGCTTCGC TTCTTCTTTTTCAGGCTATAACATGGCTGATGAACTGGATAAACCTTTGCTCGGTCCTGAGAATTTCAACCGAGAGGGCA TTGATTTGGAGCGCATACCACTAGAAGAAGTATTTCAACAGTTGAGAACTTCACCAAGAGGACTTTCATATGAAGATGCT GAAGCCCGACTCGAGATATTTGGTCCAAACAAACTTGAAGAAAGGAAAGAAAATAAAATATTAAAATTTCTTAGTTTCAT GTGGAATCCTCTGTCATGGGTTATGGAAGCAGCAGCATTGATGGCGATTATCCTTGCTAATGGTGGAGGGGGGGGTCCTG ATTGGCAAGACTTTGTAGGGATTATATGCCTGCTGGTGATAAACTCAACTATTAGTTTTATTGAAGAAAATAATGCTGGT AATGCTGCAGCAGCGCTCATGGCTCATTTAGCTCCTAGAACAAAGGTTCTCAGAGATGGGCAGTGGCAAGATCAAGATGC AGCTGTTTTAGTACCTGGGGATATTATCAGCATAAAACTGGGAGATATCATTCCAGCTGATGCTCGCTTGCTCGAAGGAG ACCCTCTAAAAATTGACCAGGCAACCCTTACTGGAGAATCTCTACCCGTTACGAAGAAAACTGGTGATGAGGTATTTTCA GGTTCAACATGTAAACACGGAGAGATTGAAGCTGTAGTGATAGCAACAGGAGTTCACTCCTTTTTTGGAAAGGCTGCACA CTTGGTTGACAGCACTCAAGTTGTTGGACATTTTCAGAAGGTCCTTACCTCAATTGGTAACTTCTGCATTTGCTCTATAG CTGCAGGGATGCTTCTTGAAATAATTATAATGTTCCCGGTGGAGCATAGATCATACAGGGATGGAATCAACAACCTTCTT GTTCTCCTGATTGGAGGAATACCCATAGCTATGCCAACAGTATTATCTGTAACACTTGCCATTGGCTCTCATCGCCTTTC TCAGCAGGGAGTTATCACAAAAAGAATGACAGCAATTGAAGAAATGGCAGGCATGGATGTCTTATGCAGTGACAAAACTG GAACTCTTACGCTAAATCGCCTGTCTGTTGATCGAAACCTTATCGAGGTCTTTAACAGCAATATGGACAAAGATCTGGTT GTTCTACTAGCAGCCAGGGCAGCTAGACTGGATAACCAGGATGCCATTGATGCTGCCATTGTTAATTTGCTAGCTGATCC AAAGGAGGCACGTGCAAACATTACTGAAGTCCATTTTCTACCATTCAATCCTGTGGATAAACGTACAGCCATAACATACA TTGACGCTGATGGAAATTATTATAGGGCCAGTAAAGGAGCTCCAGAACAGATTTTAAATATGTGCCAAGAGAAAGACAAG ATTGCCAGAAGAGTGCACACAATCATAGACAAATTTGCTGAAAGGGGATTGCGTTCTCTTGCAGTTTCTTATCAGGAAGT CCCTGAAAAATCCAAGGATAGCCCTGGAGGTCCTTGGACATTTTGTGGCTTGTTGCCTTTGTTTGATCCACCAAGACATG ATAGTGCTGAGACCATCCGAAGAGCACTTAACCTTGGAGTCAATGTTAAGATGATTACAGGGGATCAGTTGGCTATTGCA AAGGAGACAGGGCGAAGACTTGGTATGGGGACAAACATGTACCCTTCACCATCTTTGTTGGGCCGTGAAAAAGATGAGAA TCATGAAGCTCTCCCAGTTGACGAGCTCATTGAAAAGGCAGATGGCTTTGCTGGTGTATTTCCTGAACATAAATATGAAA TAGTGAAAATTTTACAAGAAATGAAACATGTTGTTGGAATGACCGGAGATGGAGTAAATGATGCCCCAGCATTGAAGAAA GCAGATATTGGAATAGCTGTGTCAGATTCTACAGATGCTGCAAGAGGTGCTGCTGATCTGGTCTTAACTGAGCCTGGTTT AAGTGTGATTATTAGCGCTGTGTTAACTAGCCGAGCTATATTTCAAAGAATGAAAAATTATACAATATATGCAGTCTCAA TCACCATAAGGATAGTGCTCGGTTTTGTGCTCCTAGCGTTGATTTGGGAGTATGATTTTCCACCCTTCATGGTCCTGATC ATTGCAATCCTAAATGATGGTACTATAATGACCATATCTCAAGACAGGGTAAAGCCATCCCCCACACCTGACAGTTGGAA GCTGCCTGAGATATTTGCAACAGGAGTAGTGATTGGCACTTACCTTGCCTTGGTTACTGTCCTGTTCTACTGGATAATCA TTGAAACCACTTTCTTTGAGACCTACTTCCATGTAACCTCCTTATCCAGCGACGGCGAGAAAGTTTCATCGGCCGTGTAT CTGCAAGTTAGCATCATTAGCCAGGCTCTAATTTTTGTCACTCGTAGCCGTGGTTGGTCATTTCTAGAGAGACCTGGAGT TCTACTGATGTGCGCCTTTGTAGTAGCTCAACTGGTGGCCACCTTAATTGCAGTGTATGCATATATCAGTTTTTCTGAAA TTAGAGGAATTGGATGGGGATGGGCTGGTGTTATATGGTTATACAGTTTAATCTTCTATGTACCCTTGGACATCATTAAG TTCACAGTGCGCTATGCCTTGAGTGGAGATGCCTGGAATCTCCTATTTGACAGAAAGACTGTTTTTACATCTAAGAAAGA CTACGGGACGGAAGATAGGGCTGCAAAGTGGGTTCTTTCTCAGAGTAGTCTGCAAGGTCTTAATCTCGAGGGCCCTGGAA GGCGTTCTTCTTTGATAGCCGAACAGGCCAGGAGACGTGCTGAAATAGCCAGGCTGGGGGAGTTACACACTCTCAGAGGA CATGTGGAGTCTGTTTTGAGACTCAAAAATTTAGACCTCAGTGTGCTACAATCAGCTCATACAGTCTAA
Protein sequence (LotjaGi1g1v0798500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MCHYLTSSLLLLTATSSSSLERSTRFASSFSGYNMADELDKPLLGPENFNREGIDLERIPLEEVFQQLRTSPRGLSYEDA EARLEIFGPNKLEERKENKILKFLSFMWNPLSWVMEAAALMAIILANGGGGGPDWQDFVGIICLLVINSTISFIEENNAG NAAAALMAHLAPRTKVLRDGQWQDQDAAVLVPGDIISIKLGDIIPADARLLEGDPLKIDQATLTGESLPVTKKTGDEVFS GSTCKHGEIEAVVIATGVHSFFGKAAHLVDSTQVVGHFQKVLTSIGNFCICSIAAGMLLEIIIMFPVEHRSYRDGINNLL VLLIGGIPIAMPTVLSVTLAIGSHRLSQQGVITKRMTAIEEMAGMDVLCSDKTGTLTLNRLSVDRNLIEVFNSNMDKDLV VLLAARAARLDNQDAIDAAIVNLLADPKEARANITEVHFLPFNPVDKRTAITYIDADGNYYRASKGAPEQILNMCQEKDK IARRVHTIIDKFAERGLRSLAVSYQEVPEKSKDSPGGPWTFCGLLPLFDPPRHDSAETIRRALNLGVNVKMITGDQLAIA KETGRRLGMGTNMYPSPSLLGREKDENHEALPVDELIEKADGFAGVFPEHKYEIVKILQEMKHVVGMTGDGVNDAPALKK ADIGIAVSDSTDAARGAADLVLTEPGLSVIISAVLTSRAIFQRMKNYTIYAVSITIRIVLGFVLLALIWEYDFPPFMVLI IAILNDGTIMTISQDRVKPSPTPDSWKLPEIFATGVVIGTYLALVTVLFYWIIIETTFFETYFHVTSLSSDGEKVSSAVY LQVSIISQALIFVTRSRGWSFLERPGVLLMCAFVVAQLVATLIAVYAYISFSEIRGIGWGWAGVIWLYSLIFYVPLDIIK FTVRYALSGDAWNLLFDRKTVFTSKKDYGTEDRAAKWVLSQSSLQGLNLEGPGRRSSLIAEQARRRAEIARLGELHTLRG HVESVLRLKNLDLSVLQSAHTV
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 |
---|---|---|---|---|---|---|
SignalP_EUK | 1 | 17 | 17 | - | – | |
Phobius | 1 | 4 | 4 | - | – | |
SignalP_GRAM_POSITIVE | 1 | 27 | 27 | - | – | |
Phobius | 1 | 17 | 17 | - | – | |
Phobius | 5 | 12 | 8 | - | – | |
Phobius | 13 | 17 | 5 | - | – | |
Phobius | 18 | 284 | 267 | - | – | |
PANTHER | 37 | 962 | 926 | 0.0 | – | |
PANTHER | 37 | 962 | 926 | 0.0 | – | |
SUPERFAMILY | 55 | 887 | 833 | 1.83E-88 | ||
SMART | 55 | 127 | 73 | 2.0E-22 | ||
Pfam | 59 | 121 | 63 | 1.4E-13 | ||
TIGRFAM | 74 | 846 | 773 | 0.0 | ||
CDD | 74 | 881 | 808 | 0.0 | ||
TMHMM | 103 | 125 | 23 | - | – | |
Gene3D | 104 | 191 | 88 | 1.6E-30 | – | |
TMHMM | 135 | 154 | 20 | - | – | |
TIGRFAM | 141 | 389 | 249 | 2.6E-37 | ||
Pfam | 170 | 348 | 179 | 6.8E-48 | – | |
SUPERFAMILY | 172 | 269 | 98 | 3.53E-28 | ||
PRINTS | 219 | 233 | 15 | 4.7E-41 | – | |
Gene3D | 248 | 401 | 154 | 6.1E-46 | – | |
TMHMM | 282 | 304 | 23 | - | – | |
Phobius | 285 | 307 | 23 | - | – | |
Phobius | 308 | 318 | 11 | - | – | |
Phobius | 319 | 341 | 23 | - | – | |
TMHMM | 319 | 341 | 23 | - | – | |
Phobius | 342 | 655 | 314 | - | – | |
SFLD | 351 | 679 | 329 | 0.0 | – | |
SFLD | 351 | 679 | 329 | 0.0 | – | |
SUPERFAMILY | 365 | 675 | 311 | 4.12E-39 | ||
Pfam | 365 | 642 | 278 | 2.1E-18 | – | |
PRINTS | 369 | 383 | 15 | 4.7E-41 | – | |
ProSitePatterns | 371 | 377 | 7 | - | ||
Gene3D | 402 | 525 | 124 | 8.5E-10 | ||
PRINTS | 485 | 503 | 19 | 1.9E-59 | ||
PRINTS | 523 | 534 | 12 | 4.7E-41 | – | |
Gene3D | 526 | 591 | 66 | 1.2E-5 | ||
PRINTS | 545 | 555 | 11 | 4.7E-41 | – | |
Gene3D | 592 | 886 | 295 | 7.7E-107 | – | |
PRINTS | 600 | 616 | 17 | 1.9E-59 | ||
TIGRFAM | 603 | 713 | 111 | 7.4E-28 | ||
PRINTS | 628 | 647 | 20 | 4.7E-41 | – | |
PRINTS | 628 | 644 | 17 | 1.9E-59 | ||
PRINTS | 651 | 663 | 13 | 4.7E-41 | – | |
Phobius | 656 | 675 | 20 | - | – | |
PRINTS | 659 | 684 | 26 | 1.9E-59 | ||
Phobius | 676 | 686 | 11 | - | – | |
TMHMM | 687 | 709 | 23 | - | – | |
Phobius | 687 | 709 | 23 | - | – | |
Phobius | 710 | 714 | 5 | - | – | |
Phobius | 715 | 732 | 18 | - | – | |
Phobius | 733 | 751 | 19 | - | – | |
TMHMM | 751 | 773 | 23 | - | – | |
Phobius | 752 | 774 | 23 | - | – | |
Phobius | 775 | 793 | 19 | - | – | |
Phobius | 794 | 814 | 21 | - | – | |
PRINTS | 800 | 821 | 22 | 1.9E-59 | ||
Phobius | 815 | 825 | 11 | - | – | |
TMHMM | 825 | 847 | 23 | - | – | |
Phobius | 826 | 851 | 26 | - | – | |
Phobius | 852 | 856 | 5 | - | – | |
Phobius | 857 | 876 | 20 | - | – | |
TMHMM | 857 | 876 | 20 | - | – | |
Phobius | 877 | 982 | 106 | - | – |
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 |
---|---|---|---|---|
Molecular function | Nucleotide binding | Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose. | ||
Molecular function | Proton-exporting ATPase activity, phosphorylative mechanism | Enables the transfer of protons from one side of a membrane to the other according to the reaction: ATP + H2O + H+(in) -> ADP + phosphate + H+(out). These transporters use a phosphorylative mechanism, which have a phosphorylated intermediate state during the ion transport cycle. | ||
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 | Proton export across plasma membrane | The directed movement of hydrogen ions (protons) from inside a cell, across the plasma membrane and into the extracellular region. |
Expression pattern of LotjaGi1g1v0798500.1, 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…