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Field | Value |
---|---|
Gene ID | LotjaGi4g1v0095400 |
Transcript ID | LotjaGi4g1v0095400.1 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Calcium-transporting ATPase; TAIR: AT4G37640.1 calcium ATPase 2; Swiss-Prot: sp|O81108|ACA2_ARATH Calcium-transporting ATPase 2, plasma membrane-type; TrEMBL-Plants: tr|A0A151RXX5|A0A151RXX5_CAJCA Calcium-transporting ATPase; Found in the gene: LotjaGi4g1v0095400 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:12740004..12750002) extracted from Lotus japonicus Gifu genome v1.2.
CTCATTTCCTTCCTCTGCTTGTCTCTTTGTCTTTCTCCAATCCATTCATTTTTTGACTCTAACCAACTACTAAGAAATAC CATTCTTTCCTCTTCCCACCTTACTCTATCCAAAATCTGAATTTCATTCTAAGAATGCTACCAGTGATTGCAGTTATAAT GTTACTAAATATGAAAAGTGCTGTTTGATAACAGAGAAGGAAGAAAGAGTAAGAGAAAATCAACTCATAAAAAGGTGATG GAGAGTTACTTGAATGAGAGTTTTGGAGGGGTGAAATCCAAGAACTCTACCGAAGAAGCTCTTTCAAAATGGAGAAAAGT ATGTGGTGTGGTGAAGAACCCGAAAAGACGATTTCGTTTCACTGCCAACCTCTCCAAGCGTTACGAAGCTGCTGCTATGC GTCGTACCAATCAGGTCTTCAGTTTCATTTCACTATGTTAGAAATAATAATATAAAATTATTCGTGCGGCAATTTCACAA CAACTTAAGCGTTTTGGATCATTGTTTGTTTGATACACTGTATATATGCGTTTTGTGCATTTATGGTTTGGATTATGTGT GATTGCTGCTGAATTTAATTGACCTAAATAGATCATATAGACATAGATACAGATTATAGCATGTCGTGATTCAATAATGT AAAAGGAATTGTGCACCTGAAAGGATTGAAGAATCTATGAGTCTACCAGAGAATGAAAGAAAATGAAACAGAGGGGTGAA ATTGCTCTCTGCACCTGGTACTACGTTCTCAGGATAAACTGTCTAATGGAGCAGCAGTTTATATATTACCAGTTGAGATC AGAGTCCCCTCATTAGGCAAAGTTAGCTGACCTAACCCATCATAGGACAGTTAATAACAAAAGCCTAATCTACCATCCAT CATAACACATGCAATTGAATTAAATTAATAATTCACACAATTGATATTAATGACCAAACAAAATATATTCTAATTAATTG ATAATGTTAATTCACATAACAAAAGAGAGAAATAATTATAAATAAATCTAACATTCTCCCACTTGGATTAACATTTGTCA ACTAATATAAAATATATGTATCATTAAACGAAATATCAATTATGATAAAATACATGTAAGCCAAAGAAATATAAGTTGTA CACCAAAAGTTACTCAACAAAAGATCATATTTGATAGGGATAATAATCATATGTAACAAAGGCTTATATTTCATACAAAA CAAAGATGGATATAGAAAGCACAATAATAACCAGAAGTGCTATTCCATAAAATGATCCAAACATCTAAAATGCTATAAGA GATATGATAACAAAACCAACAACATATCTTATAACTTACAATTCAGACTCCCACTGATCATGAACATCAAAAGACTTTAA ACATATGAGTTATGTGACTCAAACAATAAAGTCTTAGATTAACGAATATATCATTATTTATAATGTACTCTAATACTAGA GTCTGAAATTTAATCACAAGGAGTCTAGAAGTTCTTTAGGTGCCATCAAAGTCACAAACAAAATTCCACAAAGGTCTAGG TGCATTTTAGCCCAACAAGAGTAATAATTACATGTTGGCTAAACATCAAAATGGTCAGCATAATTTGACATAAAATCAAT TCAAGATTTTCTAAACAAGTGACTAAAGTCCATGTGAAGCCAAAGCTTAATATAATAGCATGGGCGATACTTGTTTGGAC AAAAGGATATCTTGAACTAATAAAACACAAAATGACAATAATGAGCAAAGACTTATAACCATTGGTCTAAAATAAGAGTA TGAGTACCTTAAGAATGCAAGAAATCACACTCGATAGGATTAATGATATTATACATCTAAGTCACTTGTACATTTGACCA TACATAACGTAGAATATTGGCTAAGATCACAAGCACAGTAAAATTACATGTCAATGTGCTGTACCAACAGAGTAATATTG GCCTAAATCGAAAACACCACAAAATTGCATGTCAAATGCGTTGTACCAAACATAATGTTGGCCAAAACAAAAGCACCATA AAATTGCATGCCAAATGTGCTGTACTAGCTGAATAATGTTGGTCAAAATCAAAAGCACCACAAAATTGCATGCCAAATGT GCTGTACCAACCGAATAATGTTGGCCAAAATAAAAAGCACCATAAAATTGCATGTCAAATGTGCTGTACCAACCGAATAA GGCTGGCCAAAATAAAAAACACCATAAAATTGGATGTCAAATGTGTTGTACCAACAAAATAGCCCCAAGCACTCATTAAA TGTGCTAACTGATATTAAAAAAAAATATATACATATATATCTCAGTACATTAGAATGAGACTGAGTATCAAAGTCTCCAA AAGAGTATGTCATATAGTTATCAAAGTAAGCATTAGAGTATATGACAGTAAAATAGCTCCAAAACTATGCCATAATAACA CAAAAGTGCACGAAAAATATATGGTATACATATATTAATAAGTAGTCTCAAGACAAAGCAATTGTGTGCACACTCCCACT AATTTAATATACCATTGCTAACATTACGATTCTATTCAAGCCAACTAGTACCAAAATAGTTTAAATGGTTTAACCGTTAA TAGTGAGATAATGACTTCATGGTAAAGTCAATTGAGTCTGGATCTCACAATCTTTCTCTCTCCAATGATAATTAATTAGA GAGAAATAAAATAATGCTGAGTTGTCACAAGAAGTGGTTACTAAAGAATCACAAAATGGAGCCCAATATATATACCATAA CAAAACACACTTGAATACAAAGTTGAGTTACCAATAACAACAGCAGAAGCATATAGGACCTATAGAGGATATGATATCAA GTAGTCTCTAACTCCCACTGTCACTATGGTAGCGTTTGGTAGACAGGTGGGAAGGGAACGAAACATGACACATGGGTTCC GTTCTGTGTTTGTCATGTTTTTAAGATGGAACGGAACGGGACAAAAGGCTCCAGGAACAGGACACTTTGGTTCCCTGGAA AAGGGTGGAACAGAAGGGAACGGAACGGAACACTTTCTTAAAACTCTTGTAAGTTCAAAAATACCCCTAATTTATATTTG AAATTTTATGTATCTAAACAGTTAAAAATAACTCCTAATATTGAAAGCACTTATTGTATTTGTAGACAAAGTTAAATGAA AATCTACTTTTTCAAAAAAATCACTTAAAATAAAATCAATTATTTTTTCAAAAGTAAAATCACTTTTTGTAAGCAATGAT AAATGATCCAATTAGAGTGTGTTTGATTCAACTTATTTTGGAAAAATCACTTTTTAATCAAACAATCACTTTTAAAATCA AAAATCATTTTTTAAATCAAAATATCACTTTTTGTGTTTGTTTCAAAATGAAGTTAAAAACAGATTATTTGAAACAATTA CTTTAGCTTATCATGAAAATCTATGATGATAGATGAGAGGAGATAAAAAAAGTGATTTTAATTAGAGTAGTCAAACACGA GTCAACTTAATTAAAATATAATCAATTATTTTTTCAAAAGTAAAATAAGTTTTTGTAAGCAATGATAAACGAGCCAATTA GAGCACGTTTGATTCAACTTATTTTGAAAGAATCATTTTAATAAAAAAATAACTTTTAAAATAAAAAAATCACTTTTTGT GCTTGTTTCAGCTGAAGCTGAAGCTGAAAACAGATTATTTGAAACAACTACTTTAGCTAATAATGAAAATCTATGATGAA AGATGAGAGGAGATAAAAAAACAAAAAATGATTTTAATTAGAGTAGTCAAACACGAATCAACTTATGCTTTTCTTAAAAT CTCTTAAAAAGAATTATAGTTAAAAATTAATATGTTTTAATCTAAACAAACACACTTAAAATAGCTTAAATAGATAATTA GGTTTCTGCTTTTTTTAATAGCATACTGAAACAACTTAAACAATATATAAGTGATTATTTTAAAGAAATAAAATTTCAAA AAAAAAAATTATTTTAAAGAAATAAGTGATTATTTCATGAAGTAAGCAATAACAAACGGTTTCTATCCAAAATGTTCAAT TGAGTTCAATTTATTTTCTTCAATCAAATATTAAACATGCAGGGTTATATATGTAATTAAAATTATGATTCTGTTCTATT GACTTGGAGTTACCAAACACAACACACAGAACATTATTGTTCTGTTCCATCCTGTTCCGTCCCGTTCCGTTTTGTTTTGT CCTGTTCTGTTCCGTCACCAAACGCTACCTATATATTGTGGATAAGAAACAATAGGTCAAAGTCAGTAAGCTAATTTGAT AGTTTGACATATTATCTTAACAATCATAGGGAGTTTATTGTATTCCAATATTCTGAAAAGAGACTTAATAATATCCTCAA TATAGGTCTCACTATAAAGTGATATCTAGTATTATATCACACATAAGAGTATCAATTATAAATTCAACTAATTGAGCAAC TATTGAGTGAGAGACATTGCATAACTTCAGTTGAGAAAGATAAGAGCAAACAAGTCTCTCCCACTTGATAGAGAAAAATA GTTGAGTTAACCATACCAAAATTAAACAAAAGAATACTTTAAGTATTTTTTTTTGAATTAAAAGAATACCCAAAACTATT TTCTCTATCACACAATGATCATATCAAGCAATGTAATACCGATAAGGTATATCCATTACTTACACAATGCAATAATAAAG GAGAAATTTATCCATAAATATTTTAGTGAATATGAATTTACTTTGCGATAGTCAAATGCAAACTTTTAAGATAATGTATT GTAAAAACAAATTGCCCAATTAATATAATGTATCTAATCTTATGGCCTAAAATAAAATTCTAATACCGATAGGGTAGTAG AATGAATTAACATAAGTTAACAACGCATGATACATTAAAAACAAAAGTACACATTACACTAATAATAATATATCGATAGG GTTATTGTCATTAATGTAAATATACACAAATGTAAATTCTTTAAAGAATTTAGATAATATAATTTTTCCAAATTCTAAAT AACTACGCCCACGATAGGTGAGATCGCAGTTACACAAAATATAATGAAGCGAATATAATCATACCCAAATTTGTATAAAT TTATTAATGCAATATAAATAATTTCAATTGAATCAATTGAATTCACAAAATTTATATAATTGTACATTTGTACCCATGAT AGGTGAGCTCACAACTATACAAAATGATCTTCATGCCCATACATGAATGATAATTTAATATATATATATATATATATATA TATATATATATATTAAATAAATTTAAGCATAAAGGAATACAAAATGCATTCTTGTTCAGGTTGTCAAAGCTGGCATAAAA ACCGTGCTCCATTGGGTTCATTGGAGAGAAGATATATTTACCACACTCACTTACCAGCAAATTGCTTGTTATATCTCATT TCTAATCTAGAATCTGAAGAAACACAAGCAATTGACTGCTTAATTAGGATTTTGCATTCACATTGCTTGTTTCATACGCT AAATATTATAATGTGATTTTGATAATGCATAATGATTCTCTATTGAATGTGAGGTTGTGACTTGTGACCTCTCCATGTAT GAATTATTCTCAAATGCTTATTATTTCCATAATGCAGGAGAAGCTAAGGGTTGCTGTTTTGGTTTCCAAAGCTGCATTTC AATTTATCCAAGGCAAGTTTCTTGAGAACTAAGTTAAAATGTAGTCTAATAAGAATCTATTTGCTTACCCGTGATTATAC AAGCAGGTGTTCAACCAAGCGATTACCTCGTACCAGATGATGTTAAAGCTGCAGGTTTCCATATCTGTGCTGATGAATTG GGATCTATTGTTGAAGGCCATGATGTAAAGAAGCTGAAGTTTCATGGGGGAGTAAGTGGTATCGCAGAAAAGCTTTCAAC ATCAACCACCAAGGGACTTAGTGGAGATTCTGAAGCACGGAGAATCAGGCAAGAGGTTTATGGAATCAATAAGTTTGCTG AAAGTGAAGTTCGGAGTTTCTGGATTTTTGTTTATGAAGCTCTTCAAGACATGACCCTCATGATCCTTGCAGTGTGTGCT TTTGTGTCTTTGATAGTTGGCATAGCAACGGAAGGATGGCCCCAAGGATCTCATGATGGTCTTGGAATTGTTGCAAGTAT CTTACTAGTTGTATTTGTGACAGCAACAAGTGATTATCGCCAATCATTACAATTCAAGGATTTGGACAAAGAGAAGAAAA AGATTTCCATTCAGGTTACAAGAAATGGCTATAGGCAGAAAATGTCAATATATAATTTACTTCCTGGTGATCTTGTGCAT CTTTCTATTGGAGATCAAGTCCCTACAGATGGGTTATTTGTTTCTGGATTTTCTGTGTTGATTGATGAGTCAAGTTTAAC TGGTGAGAGTGAACCAGTGATGGTGACTTCCCAGAATCCATTTCTTCTCTCTGGAACCAAGGTCCAAGATGGATCATGCA CCATGTTGGTTACCACTGTTGGGATGAGAACCCAATGGGGAAAGTTGATGGCAACTCTCAGTGAAGGTGGAGATGATGAA ACCCCATTGCAGGTGAAACTGAATGGAGTGGCAACCCTTATTGGGAAGGTAGGACTATTCTTCGCAGTGGTTACTTTTGT GGTTTTGGTGAAAGGACTCATGAGCCGCAAAATCAGAGAAGGAAGATTCTGGTGGTGGTCTGCAGATGATGCCATGGAGA TGTTGGAATTCTTTGCTATCGCAGTTACCATCGTTGTTGTTGCAGTTCCAGAAGGGCTTCCATTGGCTGTGACATTGAGC CTTGCATTTGCAATGAAGAAGATGATGAATGACAAAGCCCTGGTGAGGCATTTGGCAGCTTGTGAGACAATGGGATCAGC CACAACTATATGCAGTGACAAGACTGGTACACTAACAACAAATCACATGACTGTTGTGAAAACGTGCATTTGCATGAGCA GCAAGGAAGTGAACAACAAGGAACATGGTTTGTGTTCTGAACTCCCAGATTCTGCTCAAAAACTGTTGCTACAATCCATA TTTAATAATACTGGGGGAGAGGTTGTGGTCAACAAGAGAGGAAAACGTGAGATCTTGGGGACACCAACAGAGTCAGCAAT ATTGGAGTTTGGATTATCATTGGGTGGTGATCCTCAGAAAGAGAGACAAGCATGTAAGCTTGTTAAAGTTGAGCCATTCA ACTCTCAGAAGAAGAGAATGGGTGTGGTTGTGGAGCTCCCAGAAGGAGGTTTAAGAGCACATTGCAAAGGTGCTTCAGAA ATAGTTCTTGCTGCTTGTGACAATGTGATTGACTCAAAGGGTGATGTTGTCCCACTTAATGCAGAATCAAGAAATTATCT TGAGAGTACAATAGACCAGTTTGCTGGTGAGGCACTTAGAACTCTTTGCCTTGCCTATATAGAATTGGAACATGGGTTTT CTGCTGAAGACCCTATTCCTGCTTCTGGGTATACTTGTATAGGAGTTGTTGGTATCAAAGATCCTGTTCGTCCGGGTGTT AAGGAGTCTGTTCAAGTGTGTCGTTCAGCTGGAATAATGGTAAGAATGGTTACTGGAGACAATATTAATACTGCAAAGGC TATAGCCAGGGAATGTGGAATTTTAACAGAAGATGGCTTAGCCATTGAAGGTCCAGACTTTAGAGAGAAGACTCAGGAGG AAATGTTTGAACTGATTCCCAAAATTCAGGTGCTTAAATTTATGCTTGATATAATTTAGAAAGAGGGAAATTGTTTATGC TTTATGCACTCAATAACATAATGACTGAATTTCTTTTAGGTTATGGCTCGATCCTCTCCTTTAGACAAACATACACTGGT GAAACAATTGCGTACAACGTTTGGGGAAGTTGTAGCTGTAACTGGTGATGGAACAAATGATGCCCCTGCCCTTCATGAAG CAGACATTGGACTTGCAATGGGAATTGCTGGAACTGAGGTTAGTGCAATAATGCCTTCTACCGCCCTGTTATAGAGGGCC ATGAAAAGCATGGTCAAATATAGAATGGATAGAGAGATCGTGTGATCCTAACTTAGAGCTTTGTGTCTATTCCTTTCTTT GCATCTCTACACCATGTCATGTGAAAATCTAATCTAAGATAATCCATGCTAGTGAAACATTTGAAACCAAAATAAGAGAA ATGAAAATGGTCATCAAAATGAGCTCATTTTGGTCTTTTCAACATAATCTTTTATGGTAATGATAATCTAACCATAATAA TATAAAAGGCGATAAATTGTGTACATGGCTAGTTTTGCATTCTTGGTAACCATGAAGAAGATTATGATCAAATGATCAAA ATGAGCTCATAATGATCATTTAACGATAGTTATATAAAAGGTAATAATGTGCACTTGTATGAACCATGGCTTTGCTAGTT TTGCATTCTTGGTAACTATAAAAAAGATTGCAGAATTCAGCTAATTCAGCTAATTTTATAATTTGTGTGCAGGTTGCTAA AGAAAGTGCAGATGTCATAATTCTGGATGATAATTTCTCCACAATAGTGACGGTGGCCAAATGGGGACGTTCAGTGTACA TTAACATTCAGAAGTTTGTTCAGTTCCAGCTTACTGTAAATGTGGTTGCATTACTAGTAAACTTCTCATCGGCCGTTTTG ACAGGTTAGAAAATTAGCCTAATTTCATAAGTAAAATGTGTTTGTATTTTCTTTTTCATTTTTTATATTATGATTTAACA TGTATTTCCTCCTCAGGCAGTGCACCCCTCACGGCCGTTCAACTTTTGTGGGTGAACATGATCATGGACACGTTAGGAGC ACTTGCGCTTGCAACTGAACCTCCAACCGATGACTTAATGAAGCGTGCCCCTCTGGGAAGGAAAGGGGATTTCATCAATA GTATTATGTGGAGGAATATCTTAGGACAAGCATTGTATCAGTTTGTGGTGATATGGTTTCTCCAGACGGTAGGAAAATGG GTCTTTTTCCTCAGGGGACCCAATGCTGGTGTAGTCTTAAACACACTTATCTTCAACTCATTTGTCTTCTGTCAGGTAAA ACTTCTGAAAAAACTCCTCTTTACACTCAAGTGATGAACATAAATATAAAATTCATACAACTAAAACTTCTAGTTTAGTT GATTACTAACATGGTATCAGTCTTTGTAACCAAGTAGTCTAGAGTTTCGACCCTTATTGCCTCCATTCTTCTAATAAAAA ATACTCAGATAAACATATGCAGATCATCTATGACTCCAAAAAATAAATTGGCTAATGATTGAAAATTTAAATTCAATTGT ATTATTATAGCTTTAGCTGTGGGGGTAAATTGGCCTTACCTGATGATGAAGGTTGATTTGGTTGTGCAGGTTTTCAATGA GATAAACTCTCGTGAGATGGAGGAAGTAGATGTTTTCAAAGGCATATGGGACAATCATGTGTTTGTGGCTGTCATCGGTT GCACTGTTGTGTTTCAAATCATAATAGTTGAGTACTTGGGAACCTTTGCAAACACAACACCTCTCTCTCTGGTACAGTGG ATCTTTTGCTTATCAGTTGGATATGTAGGCATGCCAATCGCAACTTACTTAAAGCAGATACCCGTCTGAAGCATTCTCAA CTTAGTTTTTAAACACAAGTTTAAGGTTTGTTCTGTTATTGTACATTCACTGATAGCATGCTATAACTGGTCTAGCATTG TTGGAGGTTTCCTTGGGTTGGAATCACAAGTTTTGAGCAGGAAATTAGAAATCTGGAGTCTAGCAACCATTCAATAGATA CATAGTCATTAATTCATTAGATTGAAAATTTGTACACGTATACTTCCACATGTTGTAGCATATTTATCAATGTGTAGCTG ATGTAACAACTTCAATTACTTGTGGTAAAGTTGTCATTTTCAAAATTTTAATTACACTTTCATTTGCTGAATAACTTTGT GAGGATCAACAACTAGCCTTTGTATGAGCGCAATTTCACTTGGTTTTTATGAAATGGTGATTCTAGATCTGCTCTTCCTT TCTTGTAAAAAGCATGATGTTCAATTCATGCGGCCCCCTGTCTCTAGAACAATATTCACTTTCAGGGTTAGCATTTCTC
CDS sequence (LotjaGi4g1v0095400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAGAGTTACTTGAATGAGAGTTTTGGAGGGGTGAAATCCAAGAACTCTACCGAAGAAGCTCTTTCAAAATGGAGAAA AGTATGTGGTGTGGTGAAGAACCCGAAAAGACGATTTCGTTTCACTGCCAACCTCTCCAAGCGTTACGAAGCTGCTGCTA TGCGTCGTACCAATCAGGAGAAGCTAAGGGTTGCTGTTTTGGTTTCCAAAGCTGCATTTCAATTTATCCAAGGTGTTCAA CCAAGCGATTACCTCGTACCAGATGATGTTAAAGCTGCAGGTTTCCATATCTGTGCTGATGAATTGGGATCTATTGTTGA AGGCCATGATGTAAAGAAGCTGAAGTTTCATGGGGGAGTAAGTGGTATCGCAGAAAAGCTTTCAACATCAACCACCAAGG GACTTAGTGGAGATTCTGAAGCACGGAGAATCAGGCAAGAGGTTTATGGAATCAATAAGTTTGCTGAAAGTGAAGTTCGG AGTTTCTGGATTTTTGTTTATGAAGCTCTTCAAGACATGACCCTCATGATCCTTGCAGTGTGTGCTTTTGTGTCTTTGAT AGTTGGCATAGCAACGGAAGGATGGCCCCAAGGATCTCATGATGGTCTTGGAATTGTTGCAAGTATCTTACTAGTTGTAT TTGTGACAGCAACAAGTGATTATCGCCAATCATTACAATTCAAGGATTTGGACAAAGAGAAGAAAAAGATTTCCATTCAG GTTACAAGAAATGGCTATAGGCAGAAAATGTCAATATATAATTTACTTCCTGGTGATCTTGTGCATCTTTCTATTGGAGA TCAAGTCCCTACAGATGGGTTATTTGTTTCTGGATTTTCTGTGTTGATTGATGAGTCAAGTTTAACTGGTGAGAGTGAAC CAGTGATGGTGACTTCCCAGAATCCATTTCTTCTCTCTGGAACCAAGGTCCAAGATGGATCATGCACCATGTTGGTTACC ACTGTTGGGATGAGAACCCAATGGGGAAAGTTGATGGCAACTCTCAGTGAAGGTGGAGATGATGAAACCCCATTGCAGGT GAAACTGAATGGAGTGGCAACCCTTATTGGGAAGGTAGGACTATTCTTCGCAGTGGTTACTTTTGTGGTTTTGGTGAAAG GACTCATGAGCCGCAAAATCAGAGAAGGAAGATTCTGGTGGTGGTCTGCAGATGATGCCATGGAGATGTTGGAATTCTTT GCTATCGCAGTTACCATCGTTGTTGTTGCAGTTCCAGAAGGGCTTCCATTGGCTGTGACATTGAGCCTTGCATTTGCAAT GAAGAAGATGATGAATGACAAAGCCCTGGTGAGGCATTTGGCAGCTTGTGAGACAATGGGATCAGCCACAACTATATGCA GTGACAAGACTGGTACACTAACAACAAATCACATGACTGTTGTGAAAACGTGCATTTGCATGAGCAGCAAGGAAGTGAAC AACAAGGAACATGGTTTGTGTTCTGAACTCCCAGATTCTGCTCAAAAACTGTTGCTACAATCCATATTTAATAATACTGG GGGAGAGGTTGTGGTCAACAAGAGAGGAAAACGTGAGATCTTGGGGACACCAACAGAGTCAGCAATATTGGAGTTTGGAT TATCATTGGGTGGTGATCCTCAGAAAGAGAGACAAGCATGTAAGCTTGTTAAAGTTGAGCCATTCAACTCTCAGAAGAAG AGAATGGGTGTGGTTGTGGAGCTCCCAGAAGGAGGTTTAAGAGCACATTGCAAAGGTGCTTCAGAAATAGTTCTTGCTGC TTGTGACAATGTGATTGACTCAAAGGGTGATGTTGTCCCACTTAATGCAGAATCAAGAAATTATCTTGAGAGTACAATAG ACCAGTTTGCTGGTGAGGCACTTAGAACTCTTTGCCTTGCCTATATAGAATTGGAACATGGGTTTTCTGCTGAAGACCCT ATTCCTGCTTCTGGGTATACTTGTATAGGAGTTGTTGGTATCAAAGATCCTGTTCGTCCGGGTGTTAAGGAGTCTGTTCA AGTGTGTCGTTCAGCTGGAATAATGGTAAGAATGGTTACTGGAGACAATATTAATACTGCAAAGGCTATAGCCAGGGAAT GTGGAATTTTAACAGAAGATGGCTTAGCCATTGAAGGTCCAGACTTTAGAGAGAAGACTCAGGAGGAAATGTTTGAACTG ATTCCCAAAATTCAGGTTATGGCTCGATCCTCTCCTTTAGACAAACATACACTGGTGAAACAATTGCGTACAACGTTTGG GGAAGTTGTAGCTGTAACTGGTGATGGAACAAATGATGCCCCTGCCCTTCATGAAGCAGACATTGGACTTGCAATGGGAA TTGCTGGAACTGAGGTTGCTAAAGAAAGTGCAGATGTCATAATTCTGGATGATAATTTCTCCACAATAGTGACGGTGGCC AAATGGGGACGTTCAGTGTACATTAACATTCAGAAGTTTGTTCAGTTCCAGCTTACTGTAAATGTGGTTGCATTACTAGT AAACTTCTCATCGGCCGTTTTGACAGGCAGTGCACCCCTCACGGCCGTTCAACTTTTGTGGGTGAACATGATCATGGACA CGTTAGGAGCACTTGCGCTTGCAACTGAACCTCCAACCGATGACTTAATGAAGCGTGCCCCTCTGGGAAGGAAAGGGGAT TTCATCAATAGTATTATGTGGAGGAATATCTTAGGACAAGCATTGTATCAGTTTGTGGTGATATGGTTTCTCCAGACGGT AGGAAAATGGGTCTTTTTCCTCAGGGGACCCAATGCTGGTGTAGTCTTAAACACACTTATCTTCAACTCATTTGTCTTCT GTCAGGTTTTCAATGAGATAAACTCTCGTGAGATGGAGGAAGTAGATGTTTTCAAAGGCATATGGGACAATCATGTGTTT GTGGCTGTCATCGGTTGCACTGTTGTGTTTCAAATCATAATAGTTGAGTACTTGGGAACCTTTGCAAACACAACACCTCT CTCTCTGGTACAGTGGATCTTTTGCTTATCAGTTGGATATGTAGGCATGCCAATCGCAACTTACTTAAAGCAGATACCCG TCTGA
Protein sequence (LotjaGi4g1v0095400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MESYLNESFGGVKSKNSTEEALSKWRKVCGVVKNPKRRFRFTANLSKRYEAAAMRRTNQEKLRVAVLVSKAAFQFIQGVQ PSDYLVPDDVKAAGFHICADELGSIVEGHDVKKLKFHGGVSGIAEKLSTSTTKGLSGDSEARRIRQEVYGINKFAESEVR SFWIFVYEALQDMTLMILAVCAFVSLIVGIATEGWPQGSHDGLGIVASILLVVFVTATSDYRQSLQFKDLDKEKKKISIQ VTRNGYRQKMSIYNLLPGDLVHLSIGDQVPTDGLFVSGFSVLIDESSLTGESEPVMVTSQNPFLLSGTKVQDGSCTMLVT TVGMRTQWGKLMATLSEGGDDETPLQVKLNGVATLIGKVGLFFAVVTFVVLVKGLMSRKIREGRFWWWSADDAMEMLEFF AIAVTIVVVAVPEGLPLAVTLSLAFAMKKMMNDKALVRHLAACETMGSATTICSDKTGTLTTNHMTVVKTCICMSSKEVN NKEHGLCSELPDSAQKLLLQSIFNNTGGEVVVNKRGKREILGTPTESAILEFGLSLGGDPQKERQACKLVKVEPFNSQKK RMGVVVELPEGGLRAHCKGASEIVLAACDNVIDSKGDVVPLNAESRNYLESTIDQFAGEALRTLCLAYIELEHGFSAEDP IPASGYTCIGVVGIKDPVRPGVKESVQVCRSAGIMVRMVTGDNINTAKAIARECGILTEDGLAIEGPDFREKTQEEMFEL IPKIQVMARSSPLDKHTLVKQLRTTFGEVVAVTGDGTNDAPALHEADIGLAMGIAGTEVAKESADVIILDDNFSTIVTVA KWGRSVYINIQKFVQFQLTVNVVALLVNFSSAVLTGSAPLTAVQLLWVNMIMDTLGALALATEPPTDDLMKRAPLGRKGD FINSIMWRNILGQALYQFVVIWFLQTVGKWVFFLRGPNAGVVLNTLIFNSFVFCQVFNEINSREMEEVDVFKGIWDNHVF VAVIGCTVVFQIIIVEYLGTFANTTPLSLVQWIFCLSVGYVGMPIATYLKQIPV
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 | 172 | 172 | - | – | |
Pfam | 5 | 50 | 46 | 1.8E-18 | ||
PANTHER | 7 | 1014 | 1008 | 0.0 | – | |
PANTHER | 7 | 1014 | 1008 | 0.0 | – | |
TIGRFAM | 111 | 1014 | 904 | 0.0 | ||
SMART | 116 | 190 | 75 | 0.0036 | ||
SUPERFAMILY | 117 | 1013 | 897 | 1.83E-111 | ||
Pfam | 117 | 185 | 69 | 4.7E-12 | ||
Gene3D | 127 | 338 | 212 | 1.1E-205 | – | |
CDD | 145 | 886 | 742 | 0.0 | – | |
Gene3D | 168 | 1006 | 839 | 1.1E-205 | – | |
TMHMM | 173 | 195 | 23 | - | – | |
Phobius | 173 | 191 | 19 | - | – | |
Phobius | 192 | 202 | 11 | - | – | |
TMHMM | 202 | 219 | 18 | - | – | |
Phobius | 203 | 221 | 19 | - | – | |
Phobius | 222 | 354 | 133 | - | – | |
Pfam | 237 | 431 | 195 | 7.4E-39 | – | |
SUPERFAMILY | 239 | 333 | 95 | 5.1E-25 | ||
PRINTS | 284 | 298 | 15 | 4.4E-37 | – | |
TMHMM | 350 | 372 | 23 | - | – | |
Phobius | 355 | 376 | 22 | - | – | |
Phobius | 377 | 395 | 19 | - | – | |
TIGRFAM | 386 | 488 | 103 | 1.7E-22 | ||
Phobius | 396 | 426 | 31 | - | – | |
TMHMM | 399 | 421 | 23 | - | – | |
Phobius | 427 | 817 | 391 | - | – | |
SFLD | 435 | 805 | 371 | 0.0 | – | |
SFLD | 435 | 805 | 371 | 0.0 | – | |
Gene3D | 450 | 798 | 349 | 1.1E-205 | ||
SUPERFAMILY | 451 | 858 | 408 | 1.06E-56 | ||
PRINTS | 453 | 467 | 15 | 4.4E-37 | – | |
ProSitePatterns | 455 | 461 | 7 | - | ||
SUPERFAMILY | 459 | 662 | 204 | 1.81E-47 | ||
Gene3D | 463 | 657 | 195 | 1.1E-205 | ||
Pfam | 514 | 590 | 77 | 4.6E-19 | – | |
PRINTS | 609 | 627 | 19 | 1.1E-13 | ||
PRINTS | 650 | 661 | 12 | 4.4E-37 | – | |
PRINTS | 672 | 682 | 11 | 4.4E-37 | – | |
TIGRFAM | 723 | 839 | 117 | 4.9E-29 | ||
PRINTS | 753 | 769 | 17 | 1.1E-13 | ||
PRINTS | 753 | 772 | 20 | 4.4E-37 | – | |
PRINTS | 777 | 789 | 13 | 4.4E-37 | – | |
PRINTS | 785 | 810 | 26 | 1.1E-13 | ||
Phobius | 818 | 838 | 21 | - | – | |
Pfam | 838 | 1010 | 173 | 1.1E-40 | ||
Phobius | 839 | 843 | 5 | - | – | |
Phobius | 844 | 862 | 19 | - | – | |
Phobius | 863 | 893 | 31 | - | – | |
TMHMM | 885 | 904 | 20 | - | – | |
Phobius | 894 | 913 | 20 | - | – | |
TMHMM | 911 | 933 | 23 | - | – | |
Phobius | 914 | 918 | 5 | - | – | |
Phobius | 919 | 938 | 20 | - | – | |
Phobius | 939 | 958 | 20 | - | – | |
TMHMM | 958 | 980 | 23 | - | – | |
Phobius | 959 | 978 | 20 | - | – | |
Phobius | 979 | 989 | 11 | - | – | |
TMHMM | 987 | 1009 | 23 | - | – | |
Phobius | 990 | 1009 | 20 | - | – | |
Phobius | 1010 | 1014 | 5 | - | – |
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 | Calmodulin binding | Interacting selectively and non-covalently with calmodulin, a calcium-binding protein with many roles, both in the calcium-bound and calcium-free states. | ||
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 LotjaGi4g1v0095400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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