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 | LotjaGi3g1v0344900 |
Transcript ID | LotjaGi3g1v0344900.4 |
Related isoforms 5 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Calcium-transporting ATPase; TAIR: AT3G21180.1 autoinhibited Ca(2+)-ATPase 9; Swiss-Prot: sp|Q9LU41|ACA9_ARATH Calcium-transporting ATPase 9, plasma membrane-type; TrEMBL-Plants: tr|A0A151RP99|A0A151RP99_CAJCA Calcium-transporting ATPase; Found in the gene: LotjaGi3g1v0344900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:72229821..72243734) extracted from Lotus japonicus Gifu genome v1.2.
ACAACACTCACAGTCATAAAAGTATTAGTTAGGAAATAAAATCTAGAGGCTAGAGAGTTGTTTTTATTATTCAGATGTAT GACATTGACATTTCATATTATAAATGCATGTAATATTTTATATCACAATAAACACTTGCGCAATCTTGATTCTTTAATTA GTGCCTTTAGGAAACTTGTTGTCAGGATCCTTATTTTAATCACTGGATTGTGTGTTTTAATAGTTCAATTTTGGCAAGGA ACATTAGTGTAGTAGTCTTCTTTTGCAAGGCATCTAAACTGAAGTTTTACTCTTGCACAGCAAGCAGCGCTCGTGCTCAA TGCGTCCAGGCGTTTTAGATATACTCTGGACTTGAAGAAGGAAGAGGAGAAAGAGCAAAAGAAAAGCTTGATTAGAGCCC ATGCACAAGTCATAAGAGTAATGTTTCAGAATGGCAAACATGTTCCATGATTAACTGTTTCTATACATCTTCTACTTTTC TAATCAAAGATTAATTATTTTATCAGGCTGCACTGCTTTTCAGATTGGCTGGTGAACGGGAGCTAGGTATACTTCTTGTC TTATAATTATTCTTCTCTCATTTTAATGATTCTGGTGACTGTCATCTTTGCTTACCAAGAACTTCGTAAAATAATAATTT TATGAAACATTAACCTTCCACCACTGTAAAACATTAACAAATCTAGCATTTGTGCAATGGATGAGAGGTTAACAGAATGA TCCAGAGAGGTCAACTAATTGGCATAAAATTTAAATAAACAAACACAGTACGGCTTGATGCTTTTTGTTTATATTTAAGG TTTCCCACATGAAGTAAATAATTAATATCCTTAGGTGAAGATATTTTATTAATACTATAGAACTTTTTACTTCAGATAAG AAAATCAAATAATTAATAATTTTTGTTTATATTTAAGGTTTCCCACTGTTAATAAGGTTAAGAAAATAATTAAATTATCT GATTTTCTTATCTGAAGTAAAAAGTTCTATAGTATTTAATATCCTTAGGTGGATATGCAATTTAGAAATATGGATAGGTG AAAGTCAAACACCCTTGTAGAGTCATAGTAAATTATAATGTGAATTGCATGTTAGTTCGTAGTCCTTTTTGACATTCATT ACATATAAATCAATCTGTATTCTGTAGCAGGAGTCTTGGTTGTAGATTTCAATTGATTCATCTGTTTTTGGCATGTACAA ACTTAGTTTCTTTGTTTACTGAAAGAACACTAAACTCCATGTGGTTAAAGGTCATGCATTTGTATTGTTATCAGCATTTT GTGTTACTTATCACAGTATTTTGGTTTATACATTGAATCATCCAGTGATAAGCACAGCAGCGACACCTGCAACGCCAGTT GGTGACTATACAGTTGGATTAGAACAGCTTGCTTCAATGTCTAAGGATCAAAATGTTGCTGCTTTACAACAATATGGAGG GGCAAGTCTACAACATATTTTTTGGCTGCTTGCACATATTGAAATGATATGTTTTGCTAATATGATCTATGTGATATCCT TTTCAGATTAAAGGCTTATCAAATTTACTAAAATCAAATCCAGATAAAGGTATTAGTGGAGATGATGGTGATCTATTGAA AAGGAAAAATGCATTTGGAACTAATACATATCCTCGGAAGAAAGGGAGAAGTTTCTGGGTATATTCTCAATGATTTTATA GTTGTAGTTTTTTTCCATCACAATTGATAATTAATTGTGGTACTGGCAGTAATTCTCTGTGATCATTTTGCAGAGGTTTT TATGGGAGGCTTGGCAAGACTTGACTCTCATAATATTGATTATAGCAGCTGCAGTGTCATTGGCACTTGGAATAAAAACA GAGGTGTGATGAACATTCATATTTACTAATCGTCATTTTAGTAAATTGTACTCTGGTAATGGATCCCTGGTTTTGTGGAA GGATATGAAGTTTGATTAGGTTCTGGTTCTATGCTTCACGCTTATGATTTGTTAGGTTTTTTCCCTTCTTGATAGGTAAT ATTAATATATCAAAGAAAATTTTAAGATAAAATTTGACCTGGAGTTATTAGGTTTGAACAATTTCTTTTGTACGGGTAAT TACAAAGTTTCGAGAACAGGAAGATATAATTCTTAAGAAATTGATGTTTATATATGTGAATTACGAATGACTTGTATAAT GCATTAAGAATTCACTATACTGTTTCTTCACAATCCATTATTGTCGGGTGTCCTGTAAAAGATGGAGGTGTAAAGTTATC CAACCAATAGTAATAGTAATGGTAAAAATGTGATGTTTCTAAAAATAAAAGAATATGAAATGTAATGCTAGTTTGTTCAA TAATGTTCTTGAAACTATGTTTCAGCCTTCAGTAACACTGCCAGTTTGCATGGGATACGTGATTAAAAATTGAATTCATC ACATTCCATTTACATGTGATATTCATTCTATGATTCCTTTGAACTTTTGGCAGTACCTAATTTTGCTTGGTTCTGAATCT TCTGATTATTCTTGTCATTTGTACGAATAATGGAATACATGTTTCTCTCACTTGTAATTGATAGGGTTTGGAAGAAGGAT GGTATGATGGAGGAAGCATTGCTTTTGCAGTTTTGCTTGTCATTGTAGTTACAGGTGTTGTATATAAGCTATTTTTCCTT TTTTTTATTTATAATAAACAGTGGGTACAATCCTGTCAAAATATTTACACGTGTTTATAGATAGACCATATCGATATTTG GACAAACTCTTGTTTTGCCTTGAACTATTTATGTACTTTTTTTGGAATTTTGTTTATTAGTGACACTACTACAAGCCGTA TCCATTTATTTCTAGGACTGACTTTATGCGGTTACTGTTTTTGGTCTGCCAGCTGTCAGTGATTATCGGCAATCTCTGCA GTTTCAGAATTTGAATGCAGAGAAACAGAATATACAATTGGAGGTGTGTATCATATATTATCCGAGCATAACTTATCATT GTGCCTAAATAACATAACTTATCATTTGGTACCTAAACCTTGACCATATACTATCGAACACGTTACAGGTCATTAGAGGT GGGAGAACAATTAAAATTTCGATATTTGAGATTGTTGTGGGTGATGTTATCCCCCTCAAAATAGGAGATCAGGTGAGTTT GCATGATATCTTGGGCTTGTTTAGAAATTGAGTTTTTTTTTTCCCCACTGATTACTCTATGGGTATACTACTCAGGTTCC TGCTGATGGAGTACTAATAACCAGCCATTCACTAGCAATTGATGAATCCAGTATGACTGGTGAAAGCAAGATTGTATGTT TTTTCATACTTCCTGTTACCAACTTATTGGTTTTTTATTCTTATGACTTTTAAGCATATAGTATTCTGCAGGTTCATAAG GATCACAAAACACCCTTTTTGATGTCTGGTTGCAAAGTAGCAGATGGAGTTGGTGTTATGCTGGTATAATACAATACTAT ATCCTCTTAGACTACTATGTCTTCCTTTTCCTTTTTTCTGTTTTCTTAGTTATGTTTATTTGTTGATATAGAAAATGAAA AATGCTGAATGATATGAATGTATTTCGGAAAACTACCATCTGTGAAAGCAGTCAGTTCTATTTTCTCCCACTTGCCAATT ATTTTTCAGTCTTTATGTTTCTCTTTCTAACCATGAGTGGGTATTAGGCACTGTTATCTGTTTCCATCTAAAGCGTTTTC CACCCTCTAAACAAATAGAACTACTGATAAGTTGAATTGATTTAGGGTTATGAAATTATTTAGTGGAAAATGTTTGGCTT ATGGAGATTGAATTGCATCTGTGTGCTTCCTGTGTGCATGCTAATACCTTTTCCTCGTTACCTTTTACTCAAATCAGTTA AAATAATTTGAATTGAGCAACCTAAATTTTTATTTTTCTGGGTAAAAATGTAAACTAATTTTTCATTTGTTTTTATTGTC TCATGGAAATTTATGAATTTTAATAACTATTTGTGCGAATAATTTGCTTGTGTTTTTGTAATGCAATGATGTGATTCTTT CAATAATTATTTTTATTAAAATTTTATCATTGTGTAGTTCTTGGTCATTAATCGGTGTGCTACTCAATGCAAGTGTAGGA TATTCCTATTTTGGTTATGATTCTAGTGGTGTTGAAGCACTTGAAACAAATTTATAAAAGAATAATTCTAAAGCCTCTTA CTTGTTTCTCATAATAATCCTCCTAATTACTAAACTACTAAATGGAGAAAGTACCTAATGCCTTTTATGTTTTTGAGATG TAAACTGCATTTATTTTTCATTTGATGTTTTCTTTAAAAAGTAATAGGAAGATTTTTAGAAGGAGCATTTGTCTTTACAA AATGCCCCCACCATGAGTCATATTTTATACTGCCATGTGTAGGTAACCGGTGTTGGTATAAACACTGAGTGGGGATTGTT GATGGCAAGTATCTCAGAGGATACTGGAGAAGAGACTCCATTACAGGTAATCCCGGTTCCATCCGAAATAAAACCATAAG GTTTGCTAGCAAGACACTTCTAACACGATAATTTTAACATACTTTCTATTATTGGGTGAAGTTAATGTGGATCCTACTGA ATCATCTGGGCTCCACTTCCTATGATTTGAGTGTTGGGTTCATGAATTTCGTCCAATAATGTAGATTGTAGAGTGCTGGA AAGAGTGTGTTAGGGAATGTATTATTAGCATTTCTCAATAAAGAAAGGCTGTTGCTTTAGCAGTACCTCAAGGAAAACCA CGTGTTAGAACTGAGCTTATTATTTTGTGACATGAAATAGGTACGTTTGAATGGAGTGGCGACTTTTATTGGTATAGTTG GGCTTTCTGTAGCAGTTTTAGTGCTTGCAGTCCTCCTGGGCAGGTATTCTCAAATTGTTCTTTTCTCTACGTTATAACTC ATTGAACAGGTTCTGTGCCATCTTTGACACACTATACTTTGAAATTGTAGATACTTTTCCGGCCATACAAAAGATTTAGA TGAAAAACCTCAATTTGTAGCTGGAAAGACTAGTATTAGCGATGCAGTAGATGGGGTCATCAAAATTTTTACCATTGCAG TAAGTGCGAGTTTTGAACTGCTCTACACATTCATTTCTCTTATTCTACGCTTGATAGTTTTTACTAAATATAGAGCCATG CAGGTCACAATTGTGGTTGTTGCAGTGCCTGAAGGTCTTCCTTTGGCTGTTACCTTAACGTAAGCTCAATTGGCTAGGTT AATTCATTGTCCACAATTTGGCCCCTGATATTGTTTTCTTCTAATCTGTGTAATTTTCTTGGTTTCACAATAGCCTGGCA TATTCAATGCGGAAAATGATGGCAGACAAAGCCTTGGTAAGTGTCAATTAATTCTCCAACAATCAACTCTATATCTTAGT TTTGCAAACCATTTGTTATTTTTTGCTCAAAAAATATCTTTCCTAACAAACGAAGTTGTGCAGGTACGAAGGCTGTCAGC CTGCGAAACTATGGGCTCTGCTACAACAATTTGCAGTGATAAGACTGGAACATTGACCTTAAATCAGGTGAGTTTCATAG TCCAAGGCTTAGATAGTCTAAAAGGATTTATGGCTTTAACTCATTTATGCAAAATTGCAAATGAATAAAGGCTTCAAAAG GTTGGGCTATAATTTTATAGGTGGTTTTGGCTTCATAACAAATCGGTCATTGCCACTTTCCTAAATTTTCCGACTTTCAA ACAGTATAACTTCATGGAGATCTGTATCCCTATTTTTCGGTTGATGAAACAAACTAGATAAGCAGTTTAATTTCTACTTC CCGTAAAAAAATGCTAGGCAGCTGTATAAATGGGAGAAGGATACATTATTTGGTCAGGCTAATACAGAGAAATAGAGAGA AGGGAACACTAGAGCAGATCAGTTATTTGATGAATGACTTCAGTTGTTTAATAGACTCATTGTGTATGTTACTGTATTTT TGAAATAGGCATAGTTTATCTGGTAGGTTATGCAATTTTTGTGAAAAAGTGATGAGTTCATTCTTCTGAACTTGCCAGTA TCTGTATTTTCTTCATTTAAAATATTTGAATTACGAAGATGTGATATTAATTTATATTTTGAATTAATAGATGACTGTCG TTGAGGCATATGTTGGGAGGAAGAAACTAGATCCAGCGGATGACTCATCAAAGTTGGATCGAGAAGTATTATCTCTGATA AATGAGGGCATTGCACAGAATACAACTGGAAATATTTTTGTGCCCAAGGTTTGCCTTTATATGAAATTTTAACAACTGTA TCTCTAGGATTACCTTTTTTCGTTTTGATGTGCTAAATTAACTCAAGGATTTCTTCATGGTCTTGATTGAAGTTTTTGAG GGGAACTCTATCTTGTGATTCTTTAAATAGAAAACTGCATACATCACTGACACTCAAAATTGGTCAAAGGTCATATATGT GTTGAGAGTTGAGACTACTTCAATGGCATATGTATGTTCTAGAGATATGAAACCATTGATGAGCCAACTAAGTTCTTACG AAAGGTAGTCCATGATATTGTACTGTGGTTTTGAAGTCTTTGTGGCTAATCGGTTGGGATTCGGACCCTTGGTGCTCCAT GCTTCAAGATTAGTTGAATTTCAATACAAAGTGAAATAGTCATGCACACTGTCTATACTTCAAGTCTAAAGGGCTTTTTG TGGGACAGTGATTGTTAGATATAAGACTAATTTTAAGCCTTCACCTAACAATTAAACTTTCAGGTGAGTTGGTGCTCCAA TATGGTGCCTGCACGTGGCAAAGTAGACTTGCACATTGTTCACATTTTAAGCTCAAAGGCTCTTGCGTTATAGGACTTGT TTGAGATATAAAACCATCCATCACACCTAACTCCTTAAGTTTTTAGGATAGTTGGTCCTGAACAGTATGCATTCAGAATA ACTACGAGATTTTTGTTGGGGTGCTTTGGCAATCTGCATTTAGTTTACTAGTGTAATGTTTGTTGATACTGAAGTCGTAT ATATTTCTCTAGTTGCTGTAGTAGCATGTCTTTGTGCATTTGGCGTATTGCCTGATGCTGATAAAGCTGGTACTAAGTTA CTGTTACTTACAAATATAGAAGTTTGTTCAGTGAAATCTTGTGCATTTCTCTTGAAATAAGTTATTTAAGAATGGGAACT ATGAATATGATTATTGATGGTGTTTGTAGGCTTTTATTCCTATATTTGGTATATGTGAAGATCCCCTAGTGCGCATGTGG CTAGTTTCTTTCATATGGGCTCATACGGACCAATTTAATATCAGGATATAAGCTACAGATAGCAAACAACAATCTCAAGT TGTTTTCATTTACTGATATGAGATTGAGTATAATACCAGATATAGGCTAGATAGTCAACGACCAACTGAGTTTATTGATT TTTCATTTACGGATGAGATTGCACTGGTCTTGTTGTGAATGTTAGTAACATAAAAGCTGACAGAATTTTCTTTACTAACC TGCTCTTGTCCTCTTTAATTGTCTCGAATGTGATTTTAGCTGTATGAATGTTTTGAATTAGAATTTTGATACCTATTAAG CATCAAACATGTGACTGTATTTGGTTTGATAGGATGGTGGAGAGACAGAGGTGTCAGGATCTCCTACAGAGAAGGCCATT CTGTCATGGGCGGTCAAGGTACCCTGCTGATTTTTTTCCTGTACTGTTTCTTTTTTCTATTTGTCTCCCCTCTCTTTTTA ATAAGTTGATTTTGAAACTGTACTCGTTTACATATGGCAGTTGGGTATGAATTTTGATCTTGTCAGATCTAATTCAACTG TTCTTCATGTCTTCCCTTTCAATTCTGAGAAAAAGCGAGGTGGTGTTGCTTTGAAGCTGGTAATCATTTTATTAAGATAT TTACTGATTCAATATTCATCCCTTTATTTGCTGTACTTTATAAACTAGTATTATGCACGGATATTAATACCTCATATTTT CAATTACACTGACTGTGTAAACAAGTTTTACATAGACATTCAATTATGTTTCATCATCGTGTCTCATCACAATTAAAATA AAGACAAAATTAAACCAAAAATGCTAGATGGAAATATGTGATTGGACATATCTGTAAAACTGTTTATACTGATAGAGTAT GGTAATTAAATTCCTCAATTATTAACTTTCTTTTGTGAACTGAATTACTTAATAATTGTAAATTTTTCTATTATGGAATC ATATCATGTGCATAGATTACATATGCTTTTTATTTTATTTTTTGCCATCTTTGCTATTCTAATCATATATACCAACTGCA ATATTCGTGTCAGGGGGACTCTGGAGTACATATACACTGGAAAGGAGCTGCAGAGATAGTTCTTGGAACATGTACCCAAT ATCTTGATTCAAATGGTGACTTGCAATCCATTGAACAAGAGAAGGTTAGGAACAGCAGTTTCAAGTCTTAGAAAGTTTGC TGATGGAATGAAATTCATTAAATTGAACATTGGAGATGAAATTTTATTTATCTTTTGATTGATAACCATATTAAGAAAAT CACATAGGATAAGGTTATCACCAAATCACTTTATTCCTTTTTATGAGGTTACTCAGATGCAATTATATTTAGGGTAATAC AGCAATTGATCATTCTTCTTAAAATATAGCAACTGTGAGAATTCTTTGGCAATTTCGTAACTAAGTGGATAATCTTTATT TAAAACTCTTTCACAGGCATTTTTCAAGGAGGCTATTGATGACATGGCTGCTCGCAGCTTACGTTGTGTTGCCATTGCAT ACAGATCATATGAGTTAGATGAAGTTCCATCTAACGAGGAGGACTTAGACCAATGGACCTTGCCAGAGCATGAGCTTGTT TTGCTTGCTATTGTTGGAATAAAGGTAAAATGCAATAGATTTTCCTGTTATATTGTGTTAAATTTGTTGAGGGCAAGCCT CGGTGCAACGGTAAGGTTACCCATGTGACTTTGCGGTCACAGGTTCGAGCTGTGGAATCAGCCTCTTGCAAAAATGCAAG GTGAGGCTGCCTACATCAGATCCACAAAGTGGGTCCGGTCCCTCGCTGGACCTCGCGCATAGTAGGAGCTTTATAGCACT AGGTTTGCCATTTTTATTGTGTTAAACTTGTTGATTTGTGTTACATTTCTGACTGCCATTTTATGTACAAATAAGTCTTG CTTTCTGGTTACTGTGATATGTATCATATGAAACTTACAAGTTATGAGCTTCAGAATATTTTTTTTCTGAATATATAAGG AATCAGATTACTCTGGACCTTTCGTGGTCTTTATACTTTCAAGTTAACCCTTGAATCTTTCATCTGAGTTACAACTAATC TGTATCTTCAGGATCCTTGTCGCCCTGGCGTCAAAGATGCTGTAAAATTATGCACTGATGCTGGTGTTAAGGTAATATAC GAGTTTTATGTTTGATGAGTTTAGTTTTTAACTCTTTATTGATTGATCAACTAGATTTCTTCATATTAGATCATAGTTTC ACAGGAAACCAGTTAACAACAGTGGAACATGGTTTCTGACTATATAATAGCATTAGTGCTACCCTAATATACAATCAAGG GAACCCAACACATTATTCATTTATCAATTCACAGGTACGCATGGTTACTGGTGACAACCTTCAAACAGCAAAGGCAATAG CTTTGGAGTGTGGGATACTGGCTTCAATTGAAGATGCTGTTGAGCCAAATATAATTGAAGGAAAGACATTCCGTGAGTTA TCTGAAAAAGAAAGGGAACAAATTGTTAAGAAAATAACGGTATGCTTGATTTCATCCGTTGTAATTTCTTTTGTTATATG CTTTAGATGCAAGTAATCGATGAAGGGATTTTATCCACTTATTAAATGGTCTTATATAAAGGAATGCTGTCCATACTAGT AACTCGAACCATATTACACATTTACACCTGAGTTGGAACATAATTTTCTAATAGTGATTTGCGTAATATATCTAGGTGAT GGGGAGGTCTTCTCCTAATGATAAGCTTTTGCTTGTGCAAGCACTACGTAAAGGAGGTGAAGTTGTTGCTGTAACTGGAG ATGGCACCAATGATGCTCCTGCACTTCATGAGGTCTGTCATATTCCTTGGATGCAATCTTTACTCTTGAAGACTAAATTT AAGTTTGGGATTTTTTTCTTGAAATCTTTCTTAAGAATGAACTTGCAAGGTAAGCATAATATATATTTTGCTGAACCACT GACACACTCAGCAAATATTTGATCAGTATACTAAGGAGTAAGGACATTCCATAATTGATTGACATGACTTTACCATAAAT ATTTCTCACTTCAATTGTATGTGCAATAACAGACATGTCGTTTTGTGCAATTTCTCCTTTAACTTTTCAGCAGTTGCTCC TATGCATTCGTGTAGTTTAGATGATTCTAGTTGCATATGCTAATGGTGAGTGCAAGAAGCCTGCATATATGGATGTCAAG TTTACTGTTATTAGTGTTGACAAACATTCTGGATGCAACAATTAATAGTTATAGGCTTATAGCCAATAATTAACTTTGGG AATTCAGCCGTAAGTTGGGAATTGAGATATTCTTTCTTTAACCAACACTATTTTTCTTCTTTACTCATTACCGTGCCTTT GTCTTTAGTAGTGCCTCATTCTAGAGTTATTCATCTTAATGTGTTTGATTTGATCTACCAATTGAAAAGACGGAGGAAAA AGAGAATGGAAATACGTCAGTCTCATTATGTGTTTTTTTCTTCTTAGGACATTATTTCGCAGCATTGTCCTTTTCTTCCT TAAAACAGATAGTAGTATATCCAATGCATCTTTTCTTTTCTTTTCTTTTTTCTTTTCTTTTTTATGGCATATCTAGCATC CAAATTCTTGCAATTTACAAACAGTTCTCCTTGGTTGTTGGTGGTCTCAAAATTCTCTTCTGGCCTCTTGCGCTTTCATT TTCCACTATTTAAATAATTTCTGTAATAAATTCTTAAAATTGATCTCGTCCTTTGCTATTTTCATTTTAGGCAGATATTG GTCTTTCTATGGGCATCCAAGGAACTGAAGTTGCAAAAGAAAGCTCAGATATCATAATCCTGGATGATAATTTTGCTTCA GTGGTAAAGGTAAACATTTTATACATTGTCATCCTTTTACGGTGTCTTTGCCTAGTAAATGATATCAATAAAGTAAGAAG TCATTAATTTTTGCTTGCCATTGTTTTATTTTCTTAAAAGTTTTTTATTTTAAGTAAAATTTACTTTCTTTTGGCCCTTC TGGCTTAAAAAGTGGCTATGAACTAACTATCACCGAGACAGATTCCAATTTGCCACCTGTACCATGGTAGTAAGTACAAT TAGCTTCTAGCTTCGTTTTGGCTCAAGGAGAGATTAATTTCACTGAGAAACAAGTGTCCACGATTTGGTCAATTTGATCA ATCTGTTGTTTTTCTAAGATGCCTGCTTCATTCTTTTTGTAGGTTGTCCGCTGGGGCCGCTCTGTATATGCAAATATTCA GAAATTTATCCAGTTCCAGCTTACTGTTAATGTTGCTGCTCTTGTAATTAATGTTGTGGCATCAATAACTTCTGGTGATG TTCCCTTAAATGCAGTACAGGTACTCCTCTTTCTTTCTTCTCTCATGTTATTATCTTTGAGTGACACCTACGTTTACACT CTAAAACCAAACAGAAGGTGAAAATTAGACAATCAGAAATTCAGAATTGGTCAGTTACCATAATTTTTAGTCCCCTAGAT TACAATATTGGTCAGAACAGGAAAAATGTACCAATATCAATTGCTAACCCCGAAATGGCATTGGCTTGATTATGAGACAA CATACTTGATTCTTTGCTTTTATGTATGTAAAAGGTAACACATGTACTAAGTTGTATTACTTGAGCGGGTTGAGTTTGCT TCAAGGGTATCATTGTAGATAGTTGCTACAATGTGTAGAAGTAGCTCTCAATTCTTTATGGTTTAGGTCAAAACCCACCA CCCGAAAGGGGAACTCTTCTTCGTTTGGATTATAGACCTGATTGTTCTTTGTTTATTTTTCTCATGGAGTTCTACTGAAA AGTTATTGAATAACTGTATCCGTTAATATATTTCTGGCTTAGAATTTCATAATGTAATGCATGTTATTAAGAATTACGAC TGATAAATTACGTAGGGAAGAGAAGAGATGACTGAAATCAACAATAAAAACACGTATATATTTGTTATTGATGTACGTGC TCTTTGGTGCAGCTTTTGTGGGTCAACCTTATCATGGACACACTTGGGGCCCTTGCATTGGCTACTGAACCACCAACAGA CAATCTAATGAACAGATCACCAGTTGGCCGAAGGTTTGAATTGATTGGCTTTCTCGCTTAACAGATTAATATTTCTAGTA ATCTTAAAGATATACTGAACTGGCACATAAACGCACATGGACTTGCACGTGACTTATACAGTTATACTTGATTTTAGTTA CATGACCAGATATGGCTTTTACTTACTTTAGGTAGCTTCCAAAAGCAACTGAATTTTAAATGGTCACATTTAGCTCTAAC TTTTGAGGCACTTGCGTGCCTTAGATGGCTGATTTGGGTTTTGAAATTACAATACATGTTTTACTGTGATCTTATGTTTG GCCTTCAGGGAACCTCTTATTACGAATGTCATGTGGAGAAACTTGCTCGTTCAGGTAAATTAGTCTAGTCTATGGAGTGA CTTATTAAGATAATCATGTAATTAGGAATATGATGTTTTTTGGCTCTATTGTCTAATAGCATTATCATCACAGGCTATCT ATCAAATCACTGTTCTTCTCGTTCTTAACTTCCGCGGTGAAAGTATTCTACCAAAGCAAGATACTAGAGCTCACGCTTTT CAAGTGAAGAATACTTTAATATTCAACGCATTTGTCATGTGCCAAGTAAGTGGATCTTTAAAAGTATAAATACGAAATAT TTTCTGGTCCTTATGCTAGAAGAACCTATTTTTTCTTTTGTTTCCTTTTTATGTTCTTATTTTTCTTTGGTTGGGATATT TTTTATGAACCCCTCGTTATTTTCATCAGTTACTAGGAGGGCCACTTATATGATAAGGCTCGGAATTATAGAATATAGTT CTCCCTCAAACTATATTTTCATGAATAAGCATGCCTGAAATGATCATGCAAAGATAATGCAGGGTTTCATTACTTTTGGT GGCTATGGTTTTAGAAAAATATGTATAACTTTCAGTTAGTTTGCATGAACTGAATGCCAATTAATATGGTAAAGTTTATT GCTGTTTTTCAACCTTCCTTCCTTGCATTTGAGAGAGACGAAGGAAAGCAACCCTTGGGTGCAATTATACGAATACTATT GCAAGAATTTCTTTACTTTGTAGATTTGTAGTCTATCAAAGTTCTTATGAATTTTTTTTTCATCATACAGATATTCAACG AGTTCAATGCTCGGAAACCTGAGGAAATGAATGTCTTCCGAGGAGTGACCAAGAACCGTCTCTTCATGGGAATTGTTGTA ATGACCTTTATACTACAGGTGAATAGACAACCCCTTTTGTTATTGTACTCTTATCCTTAATTATTATCATTTGCATGCTT TTCTCACTCCACTCCAAATTGTTAGATAATCATCATTGAGTTCCTTGGAAAGTTCACCGATACAGTGAGGCTTAATTGGA CGCTGTGGCTTGCTTCTCTCCTTATTGGCCTTATCAGGTTAGTTCGCTCAACTGCATTAGCATTTGATTATTACAATTCT GGAAGTATCAATGAATTATGCGTTCATGCTCTTGGTATAATCCAGAGTTGAACAAGCTAAAAATTTCCGTAAAATGCTCT AAAATCTTCATAAATATAACCATTGCTTTTGCCATCTGACAGCTGGCCTCTTGCTATAGCTGGAAAATTCATTCCAGTTC CTAAAACACCATTGTCCCGTTACATCTTGAGGCCACTTAGGAGATTGAGGAGGTCTCGTGCTGCACAACAATAG
CDS sequence (LotjaGi3g1v0344900.4) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCTAAGGATCAAAATGTTGCTGCTTTACAACAATATGGAGGGATTAAAGGCTTATCAAATTTACTAAAATCAAATCC AGATAAAGGTATTAGTGGAGATGATGGTGATCTATTGAAAAGGAAAAATGCATTTGGAACTAATACATATCCTCGGAAGA AAGGGAGAAGTTTCTGGAGGTTTTTATGGGAGGCTTGGCAAGACTTGACTCTCATAATATTGATTATAGCAGCTGCAGTG TCATTGGCACTTGGAATAAAAACAGAGGGTTTGGAAGAAGGATGGTATGATGGAGGAAGCATTGCTTTTGCAGTTTTGCT TGTCATTGTAGTTACAGCTGTCAGTGATTATCGGCAATCTCTGCAGTTTCAGAATTTGAATGCAGAGAAACAGAATATAC AATTGGAGGTCATTAGAGGTGGGAGAACAATTAAAATTTCGATATTTGAGATTGTTGTGGGTGATGTTATCCCCCTCAAA ATAGGAGATCAGGTTCCTGCTGATGGAGTACTAATAACCAGCCATTCACTAGCAATTGATGAATCCAGTATGACTGGTGA AAGCAAGATTGTTCATAAGGATCACAAAACACCCTTTTTGATGTCTGGTTGCAAAGTAGCAGATGGAGTTGGTGTTATGC TGGTAACCGGTGTTGGTATAAACACTGAGTGGGGATTGTTGATGGCAAGTATCTCAGAGGATACTGGAGAAGAGACTCCA TTACAGGTACGTTTGAATGGAGTGGCGACTTTTATTGGTATAGTTGGGCTTTCTGTAGCAGTTTTAGTGCTTGCAGTCCT CCTGGGCAGATACTTTTCCGGCCATACAAAAGATTTAGATGAAAAACCTCAATTTGTAGCTGGAAAGACTAGTATTAGCG ATGCAGTAGATGGGGTCATCAAAATTTTTACCATTGCAGTCACAATTGTGGTTGTTGCAGTGCCTGAAGGTCTTCCTTTG GCTGTTACCTTAACCCTGGCATATTCAATGCGGAAAATGATGGCAGACAAAGCCTTGGTACGAAGGCTGTCAGCCTGCGA AACTATGGGCTCTGCTACAACAATTTGCAGTGATAAGACTGGAACATTGACCTTAAATCAGATGACTGTCGTTGAGGCAT ATGTTGGGAGGAAGAAACTAGATCCAGCGGATGACTCATCAAAGTTGGATCGAGAAGTATTATCTCTGATAAATGAGGGC ATTGCACAGAATACAACTGGAAATATTTTTGTGCCCAAGGATGGTGGAGAGACAGAGGTGTCAGGATCTCCTACAGAGAA GGCCATTCTGTCATGGGCGGTCAAGTTGGGTATGAATTTTGATCTTGTCAGATCTAATTCAACTGTTCTTCATGTCTTCC CTTTCAATTCTGAGAAAAAGCGAGGTGGTGTTGCTTTGAAGCTGGGGGACTCTGGAGTACATATACACTGGAAAGGAGCT GCAGAGATAGTTCTTGGAACATGTACCCAATATCTTGATTCAAATGGTGACTTGCAATCCATTGAACAAGAGAAGGCATT TTTCAAGGAGGCTATTGATGACATGGCTGCTCGCAGCTTACGTTGTGTTGCCATTGCATACAGATCATATGAGTTAGATG AAGTTCCATCTAACGAGGAGGACTTAGACCAATGGACCTTGCCAGAGCATGAGCTTGTTTTGCTTGCTATTGTTGGAATA AAGGATCCTTGTCGCCCTGGCGTCAAAGATGCTGTAAAATTATGCACTGATGCTGGTGTTAAGGTACGCATGGTTACTGG TGACAACCTTCAAACAGCAAAGGCAATAGCTTTGGAGTGTGGGATACTGGCTTCAATTGAAGATGCTGTTGAGCCAAATA TAATTGAAGGAAAGACATTCCGTGAGTTATCTGAAAAAGAAAGGGAACAAATTGTTAAGAAAATAACGGTGATGGGGAGG TCTTCTCCTAATGATAAGCTTTTGCTTGTGCAAGCACTACGTAAAGGAGGTGAAGTTGTTGCTGTAACTGGAGATGGCAC CAATGATGCTCCTGCACTTCATGAGGCAGATATTGGTCTTTCTATGGGCATCCAAGGAACTGAAGTTGCAAAAGAAAGCT CAGATATCATAATCCTGGATGATAATTTTGCTTCAGTGGTAAAGGTTGTCCGCTGGGGCCGCTCTGTATATGCAAATATT CAGAAATTTATCCAGTTCCAGCTTACTGTTAATGTTGCTGCTCTTGTAATTAATGTTGTGGCATCAATAACTTCTGGTGA TGTTCCCTTAAATGCAGTACAGCTTTTGTGGGTCAACCTTATCATGGACACACTTGGGGCCCTTGCATTGGCTACTGAAC CACCAACAGACAATCTAATGAACAGATCACCAGTTGGCCGAAGGGAACCTCTTATTACGAATGTCATGTGGAGAAACTTG CTCGTTCAGGCTATCTATCAAATCACTGTTCTTCTCGTTCTTAACTTCCGCGGTGAAAGTATTCTACCAAAGCAAGATAC TAGAGCTCACGCTTTTCAAGTGAAGAATACTTTAATATTCAACGCATTTGTCATGTGCCAAATATTCAACGAGTTCAATG CTCGGAAACCTGAGGAAATGAATGTCTTCCGAGGAGTGACCAAGAACCGTCTCTTCATGGGAATTGTTGTAATGACCTTT ATACTACAGATAATCATCATTGAGTTCCTTGGAAAGTTCACCGATACAGTGAGGCTTAATTGGACGCTGTGGCTTGCTTC TCTCCTTATTGGCCTTATCAGCTGGCCTCTTGCTATAGCTGGAAAATTCATTCCAGTTCCTAAAACACCATTGTCCCGTT ACATCTTGAGGCCACTTAGGAGATTGAGGAGGTCTCGTGCTGCACAACAATAG
Protein sequence (LotjaGi3g1v0344900.4) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSKDQNVAALQQYGGIKGLSNLLKSNPDKGISGDDGDLLKRKNAFGTNTYPRKKGRSFWRFLWEAWQDLTLIILIIAAAV SLALGIKTEGLEEGWYDGGSIAFAVLLVIVVTAVSDYRQSLQFQNLNAEKQNIQLEVIRGGRTIKISIFEIVVGDVIPLK IGDQVPADGVLITSHSLAIDESSMTGESKIVHKDHKTPFLMSGCKVADGVGVMLVTGVGINTEWGLLMASISEDTGEETP LQVRLNGVATFIGIVGLSVAVLVLAVLLGRYFSGHTKDLDEKPQFVAGKTSISDAVDGVIKIFTIAVTIVVVAVPEGLPL AVTLTLAYSMRKMMADKALVRRLSACETMGSATTICSDKTGTLTLNQMTVVEAYVGRKKLDPADDSSKLDREVLSLINEG IAQNTTGNIFVPKDGGETEVSGSPTEKAILSWAVKLGMNFDLVRSNSTVLHVFPFNSEKKRGGVALKLGDSGVHIHWKGA AEIVLGTCTQYLDSNGDLQSIEQEKAFFKEAIDDMAARSLRCVAIAYRSYELDEVPSNEEDLDQWTLPEHELVLLAIVGI KDPCRPGVKDAVKLCTDAGVKVRMVTGDNLQTAKAIALECGILASIEDAVEPNIIEGKTFRELSEKEREQIVKKITVMGR SSPNDKLLLVQALRKGGEVVAVTGDGTNDAPALHEADIGLSMGIQGTEVAKESSDIIILDDNFASVVKVVRWGRSVYANI QKFIQFQLTVNVAALVINVVASITSGDVPLNAVQLLWVNLIMDTLGALALATEPPTDNLMNRSPVGRREPLITNVMWRNL LVQAIYQITVLLVLNFRGESILPKQDTRAHAFQVKNTLIFNAFVMCQIFNEFNARKPEEMNVFRGVTKNRLFMGIVVMTF ILQIIIIEFLGKFTDTVRLNWTLWLASLLIGLISWPLAIAGKFIPVPKTPLSRYILRPLRRLRRSRAAQQ
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 |
---|---|---|---|---|---|---|
Phobius | 1 | 60 | 60 | - | – | |
PANTHER | 2 | 933 | 932 | 0.0 | – | |
PANTHER | 2 | 933 | 932 | 0.0 | – | |
TIGRFAM | 6 | 926 | 921 | 0.0 | ||
SMART | 12 | 86 | 75 | 5.1E-4 | ||
SUPERFAMILY | 13 | 926 | 914 | 4.05E-120 | ||
Pfam | 14 | 81 | 68 | 6.3E-12 | ||
Gene3D | 25 | 234 | 210 | 2.4E-213 | – | |
CDD | 38 | 796 | 759 | 0.0 | – | |
Phobius | 61 | 86 | 26 | - | – | |
TMHMM | 61 | 83 | 23 | - | – | |
Gene3D | 64 | 913 | 850 | 2.4E-213 | – | |
Phobius | 87 | 97 | 11 | - | – | |
Phobius | 98 | 117 | 20 | - | – | |
TMHMM | 98 | 115 | 18 | - | – | |
PRINTS | 99 | 119 | 21 | 8.9E-11 | – | |
Phobius | 118 | 247 | 130 | - | – | |
SUPERFAMILY | 134 | 229 | 96 | 4.71E-24 | ||
Pfam | 134 | 334 | 201 | 6.1E-37 | – | |
PRINTS | 180 | 194 | 15 | 5.2E-35 | – | |
TMHMM | 210 | 232 | 23 | - | – | |
TMHMM | 247 | 269 | 23 | - | – | |
Phobius | 248 | 272 | 25 | - | – | |
Phobius | 273 | 301 | 29 | - | – | |
TIGRFAM | 294 | 381 | 88 | 5.0E-23 | ||
TMHMM | 302 | 324 | 23 | - | – | |
Phobius | 302 | 328 | 27 | - | – | |
Phobius | 329 | 722 | 394 | - | – | |
SFLD | 338 | 715 | 378 | 0.0 | – | |
SFLD | 338 | 715 | 378 | 0.0 | – | |
PRINTS | 349 | 370 | 22 | 8.9E-11 | – | |
Gene3D | 353 | 708 | 356 | 2.4E-213 | ||
Pfam | 353 | 677 | 325 | 7.2E-18 | – | |
SUPERFAMILY | 354 | 768 | 415 | 3.01E-57 | ||
PRINTS | 356 | 370 | 15 | 5.2E-35 | – | |
ProSitePatterns | 358 | 364 | 7 | - | ||
SUPERFAMILY | 363 | 560 | 198 | 9.16E-38 | ||
Gene3D | 366 | 563 | 198 | 2.4E-213 | ||
PRINTS | 475 | 493 | 19 | 8.9E-11 | – | |
Coils | 498 | 518 | 21 | - | – | |
PRINTS | 556 | 567 | 12 | 5.2E-35 | – | |
PRINTS | 578 | 588 | 11 | 5.2E-35 | – | |
TIGRFAM | 630 | 744 | 115 | 1.9E-31 | ||
PRINTS | 663 | 682 | 20 | 5.2E-35 | – | |
PRINTS | 687 | 699 | 13 | 5.2E-35 | – | |
Phobius | 723 | 743 | 21 | - | – | |
Phobius | 744 | 754 | 11 | - | – | |
Pfam | 748 | 923 | 176 | 8.1E-45 | ||
Phobius | 755 | 774 | 20 | - | – | |
Phobius | 775 | 794 | 20 | - | – | |
Phobius | 795 | 814 | 20 | - | – | |
Phobius | 815 | 833 | 19 | - | – | |
Phobius | 834 | 850 | 17 | - | – | |
Phobius | 851 | 870 | 20 | - | – | |
Phobius | 871 | 891 | 21 | - | – | |
TMHMM | 871 | 890 | 20 | - | – | |
Phobius | 892 | 902 | 11 | - | – | |
TMHMM | 897 | 919 | 23 | - | – | |
Phobius | 903 | 924 | 22 | - | – | |
Phobius | 925 | 950 | 26 | - | – |
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 | Calcium-transporting ATPase activity | Enables the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + Ca2+(cis) = ADP + phosphate + Ca2+(trans). | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. | ||
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 | Calcium ion transmembrane transport | A process in which a calcium ion is transported from one side of a membrane to the other by means of some agent such as a transporter or pore. |
Expression pattern of LotjaGi3g1v0344900.4, 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…