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Field | Value |
---|---|
Gene ID | LotjaGi2g1v0114200 |
Transcript ID | LotjaGi2g1v0114200.2 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Chaperone protein dnaJ; TAIR: AT2G22360.1 DNAJ heat shock family protein; Swiss-Prot: sp|Q9SJZ7|DNJA6_ARATH Chaperone protein dnaJ A6, chloroplastic; TrEMBL-Plants: tr|I1KT02|I1KT02_SOYBN Uncharacterized protein; Found in the gene: LotjaGi2g1v0114200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:42191685..42204262) extracted from Lotus japonicus Gifu genome v1.2.
GTGACAAATTGTTGGACTTTTTTTTTCCTTCGCTGTTAGGTCATCCTTCCGCGCGCTTTCGCGAAACAACTCCAGTACTC CACCCTCCTCCTCCCACTCCCTACCGGTACTTTCTTCTCTTCCTCTTTTCTAATACACTCATTTCTAATTGTTCTTCACT ATTCCCCTGCTTCTGATTTCAACTCGCTACCTATCTGTCACAATTTGCTCACAAACATCGATTATAAGCTTCACGCCTTC ATGGGTTTTGTGTAAGTTTGAATTTTCTGCTAGCATTTTTCTACATTTCCCTCTATTTGGGTTACAATTTCATCGAAACA AACATGCCCATCAGCATGAATTAAGTTCCATGTTGGTTGATTGATTTTGTATTTTCATCTGACTTATGGACTGTTTGAAG TGTTGAGTTACATCATTATTGATTCCATTTTGGTTTTGAAATTGTTAACTGAATGGCAATGCCTTACCCTTAACATATCT TATGCTAAATTAATTGCAGCAGCATTTCACTTAGATCTTAATTCTATGATTCTTAACCTCTGGCTGTAATGCAAGCAGAC ACAAGTTGGTTTTATAAGCTAAATAATTTGACATTTAGCTTCGAGGAGATGGACTTATTAACTTTCATGCCGTCGCAGTA TAGATACTCTTTTTTAGTTAATGGTCGAATTTTGTACTTCAATCATATTTTTGGGCTGTCTTTTGGTCCATGAGGAATCC CTTTCTCTAATTTATTGCTAGACATTAATTGTGTTTATTAATATGGACTAGTTTTTTCCACCAATTGATGTAGATTGTGG GATGGCTGATTCTGCATAACTAATTCAGCATTATGAACTAGTCTTTTGTCTTCCAGCATTATATGCAGTTTGAAATGAAA GATGCATACCACGGTTCTCATTTTCTTGCAATTTTTTTGTAATAGTATTAACTGCACAGATATGCGTTATTGAAAACAAG AAAAAGATAAATAGAAAATCTAGTCCTCCTTCCTTTCCACCTAATCAGAGAGGTGTAGAGAGAGACTCAAGAAATAGAGG AATATGTAGGGACTTGGAATTCATATCAATAGAGAGGCCCAAACCCAAAGCACATAGAGAAATAGCGGGAACTGAAAAGG AAGCAACAAAGATGAAAGCAATAGAGAGAAATTGAAAATCATTGGCAGAGAATAAATTATAAAACACTGGAACAGATACT GAAGAACCAAGGGGTTACATGAGAAAACTATCATTCATCGGAGATGGTGGAGGTTATTAGTTAGTGTCATTTATTTCTCA TTAAGAATTTCTACATCTTACACTATGAATGCAATAGATGATTCTTTTAGGAATTAGGAACGAAATCGATATTGATGATA ACTGGATGGCTGGAGATGATAACTCGAGAAGCTCAATTCAAATTCTGTTTATGTACTGCCTCTTAGTTTTTGATATTTTC TGCTTCTGGCTCTTTAAGCTTTGGGTCTCAGCTCTATGGCGTTGTTGGTCTTTGTGGTTGGGTCTTTTGGTTTGCATGAC TCGGGTGGCTCTCTATTGTAGGTGTCGTGCGACTGGTAGGATGTTTGAACTTGTCATTGCTTTTGGCTTTAATAGGAACC TCTCCTAGTGGTGTAAACGCTAGGGGCTGTTTGTTTGGTGTTGTTTGCTTGTGGGGATTTTAGAGGTTTTTAGAGGGTCT TTGCTGTAGTGGCTGGGTTTTTGCCATCTTTTTGTTAGCTTGGTTACTGTACCCATGTTGAGAGGGGTTGTTTCTCAACT TTATCTATATTGACATATATCTTTTAATTAAAAATAAACTATACAATTCAAATTTATGTCCTTAATTTATACAATTTTAT GCTTCAAAAGATTTTGCAGTCTTCCTTGGATTTTGTTTCACTTACTATGTTCAGCTTTGTATCATGCGGCGTCTTGAACT ATCTTTCTCCTTCTGAAGTTGTAAACTAAATATATGCTCATTTTTTAGTAGTTTCCTTCTGTTTAGATAGTATCTTACTG AACATTAAAGCTCATTTTAGCTCATTAAATTTCAGCATACAATGTTTGCAGCTAGCAGACTTTCATTGAAAAAGGTCATC TTCATTAGCATATTGTCTTGCTGAAGATATATTGGATGGCCATAACACCTTTAGGTAGTACTTCTGCATCACAATGGGGA GTTCGTCCTCAGCTATTGCTCAGGTCCAGTTTGACAGGCAAGGGTGCATCATCTAGCCACAAGTAAGTTCTGTGGTTATA TATTTGTTTTGTAGAATAATAGCGGACGGGTGTACTAATCATGTCAATTTCCAATGCACATATTGGATATAACAGTAGGT CTGAAGTTTATAGCTCCTATAGTCCTATTCATGATTCCTGGTGATGCAATTGTCTTACATAGTTACACCATGGGTAGAAC TAAATTACTTTAAAGTCTGGGTTCTTCATCATATTATTGAGATCGACAGCGATGCAATCATAAGTTGGGTATGATATGAT ATTACTATCAGTTTTATTTCTTCGATGTGATCTGAATTTCTCGGAAACTCGGGAATATTTTCTACCCTATCTGTCATTGA CCATTAATCTTCTTCATTATCCCGCTCGCTAGATACACTTACTTTCTGGATAGATTTCTGTGCTGGAGAGTGTAGTTTGT TTAACTCACCTCACTTTCCTTGCAGTGTTACAACCAGGGTGAGCTTCATGGCTGCCCCAAGTTCTAGTTTTTTGTCTCCA GATTCCTTGCATATACTATTTAACGCTGGTCTCTATCAATCTTTGAAATGTCGGAAGGGGTCACGGTTGATTGTAAGAGC AAATACAGTAAGTTTGGGATACAGTTCTCAGCAACAATAAGTTCCTTTTGGGTGCTTCTCAAAAAAAAAAAAGTTCCTTT TGGGTGTTTTTATGTGATTGAACTTTATGGAAGTATTCCTCATGGTTAAACTGTATGGTCCTCGTGATTTAGTCAATATA CTACCCTGAATATCCTTTTTTTGTCAATGTGCAGGATTATTATTCTGTCCTTGGGGTTTCAAGAAATGCTAGTAAATCTG AAATTAAGAGTGGTATTTTCTATCTGTTTCCTCCATTATCCAACTGCACGATCACATCTCTTTTATGATATTGGAATTTT CAAGCGTGGCGAGTTGTTCAAATGTTATCTCTGTATAAAGAAAAGTCAATTAGCATATTAGTAGGCTTTAATCTGTTCGC TATTTATTGATTTCAAACATTTGTTAATATAACTTTAGTCTGGAAAAGTGCATCTAACATATATGTGAAGCATACAAAAG TTGGTTCTTGAAGGAAATCCAAGACATGTAACTGTCAAAGAAGTCTGCCCAAACCTAAAAACAGAGATAGGATAATGATG TCAATCAGATGGATACCATTGATCAGTGTTACATATGTCAACAGCTTATGCTTGTTAACAAGACCGTCAAGACGTGCTAT TTTTTTATTTTTTTTATTTGAATGGAAATTATCCCTACTACTACCAAATGACCTTGTTGTTAACTTAAAGCTTTCAATAA AAAATTTAAAATTTAAAATTAGTTGCACCATTGAAACCTTTGATGGCGAGGTTTTTGTATATATCGTCATAAACTAGAAT TCTGGTGTACTAGGAAAATTTCCACCCAAGAGTAGAAATTTAGAGTTAAGTAGCAAACATCAATCTCATGTAATTTATTT GTCATGTAGATAGTTTTGCAAAGTATATTTGAAATTAATAACAGGAAACACCAATGATTAGGGCTAATATTACACTTGTA TTTGGCAAAGAATATTCTTATAAATCGGAGTACAGTTTAGTGTTTACGAATAAAACATCACAATCCTATTAGTGAAATAA AGTCTCTCTTATCTACCTAATCCTGTAATTTCAACATCCATCATCATCTGTGTCCATGGCTGCTTCTACTGCAGTGGTTA ACTTCTTTGGAACTCCTATTCATTTGGCTGTATCTTCTGGTGGCTGTGTTTATTTTTTGCAGTAGTTGTATTCATCCATT TGTCTGTCATTCCCCTTCGGCCTTCTCCAACTATATCTGTATTTCACCAGGCACTTTAACCCCTTTGATGGTTCATCCAT CTTCATGTCCTTTGTTCTCAAGATCCAGACTGTTAGTGATGGAAACCCAAAACAGAAAATAGAACTGAAGGAATGAAACA GTAATCAGGATTGTTTATTGATGAATTGGAAATCGTTACAGAGAAGGAAAAGCCTTTCCTAAACTGACCAGAGCCAAGCT CCTATAGGAAGCTATTGCTTCCTACTCATTACTACACGCTCAATGATTTCAGAATCCCCTCCCTACCTCTCACTACCTTC CTTATATTATGGAATGGATTACAATCCTACCTCCCCTCTCTCTCGCCAGCTCACCAGCTGTGCTGTTAGTTAGTTACTAC TCCCTTTGTCCCTTTTGCCCCTTCTAGAGTATACCTTCCACTCTTTGGGCTTCGACCCCACATGGGCTAATGACTCACTT GGGCCAGCTGCTGGATCATAGTTCCTAATAATGCCGCCGTCTGAACTCACAACCTTGTCCCCAAGGTTGAAGTTTGGGTA TAAACTCATGATGGTGAGGGCATCCTCCCAGGTAGCCTCCTCAGCAGTTTTGCCTTGCCATTTAATTAGTAGCTGCTGAA TGGTGTCACCCTGCAACTTCACCAGGCGAGTGGCTAAAACAGTGTCGGGTGTGTCCTTGTCATCATACTCGCCCTCCAAT TGATCTGGCAAATCTGCTTCTGCAGAGTAGTCCCCAATCGCCTTCTTGAGCAATGACACATGAAACACAGGATGAACTCG CGATCCTTCTGGTAAACGTAACCTGTAAGCCACCGCACCCACACGAGCCACGATAGGATAAGGCCCATAGTATCGGGCTG CCAGCTTTGCATGAACTCGGGTTACTACAGATTGTTGACGATGTGCGCGAAGCTTCACAAAGACCCATTCTCCGACAGTA AATGATTTTTCAACCCGCTTAGTGTCAGCTTGTGACTTCATTCGACCCTGGGCTCGCAAGAGTTGTGCCTTCAACTGGCG CAGAACCTCATCTCGATCAACCAATTCACGTTGCACTGCGTCAACCCTGGTCTCCCCGAGTCCCCAACGTGTGATTGCTG GGGGTTTGCGTCCATAAACAACCTCGAACGGGGTCATATGTGTGGCTGAGTGGTAAGATGTATTGAACCAATACTCAGCC CAATGGATCCAAGTTGCCCACGTTTTAGGTTGATCAGCCGCAAAACAACGCAAATACGTTTCCAAACAGCGATTTACGAC TTCCGTTTGTCCATCCGATTCGGGGTGGTACGCGGAACTCATATTCAACTGTGTGCCCTGCAACCGGAAAAGCTCTTTCC AGAAATGACTCATAAATACTGGGTCCCGGTCGCTCACAATGGTTGAGGGAACTCCATGCAAACGTATGACTTCCTTGGCA AACAATTCAGCGATGCTCTTCGCAGTATAGGGGTGCTTCAGCGGAATGAAGTGACAGAATTTGGATAGGCGATCCACGAC CACTAGCACTGCCTCGTATCCCCTGGATTTAGGTAGGCCAGTTATGAAATCAATCGAGAGATCTTCCCACACCTGATTCG GGATGGGTAGAGGCTGCAGCAAGCCTGCGGGCGATGAGGCCATGTACTTTTGTCTTTGGCATGTATCACAGCTACGAACA AACTCTTGCACCGTGTTCTTCATGCCTACCCAATAGATGTTGGCCGCGAGCCGCCGATAGGTGCGGAGAAATCCGGAGTG CCCGCCATGTGGGGTGGCATGAAATTCCTTTAACATCTGTGGAATTAGAGAGGAAGTATGTGACAAAACCAGCCTCCCTT TGTACAACAGAATCCCCTGCTGTAGACTGAATTCCGGATGAGTTGATGGGTCATTTTGTAACTCCATGATCACATGCTTA AGTTTTGCATCCTGCTGAACCTCTGTTGCTATCAACTGGTGATCTTCCCAGCGCGGGTACGTGCACACGGTCCTGATCTC ACCATATTCCCCAACGCGCGATAGCGCATCTGCTCCCTTATTTAACTTCCCAGGTTTATAAACGATATCAAAGTCATACC CCAATAGCTTCGCGGCCCAATTCTGTTGTTCCCCAGTAATAATCTTTTGATGGAGCAACTCTTTAAGACTCTTCTGATCA GTAGACACAAGAAATTTCCGTCCCAATAAGTAAGGACGCCAATGCTGTATCGCCAAAGCTACTGCCATAAGCTCTTTCTC ATAGGCGGACTTAGCGAGGTTCCGTGGTCCTAAGGCCTTGCTATAGTATGCTATGGGTTTCTTGTCTTGCATCAAAATCG CCCCGAGGCCACACCCTGACGCATCACACTCAATTAGGAATTCTTTCTCAAAATCTGGAAGTGCCAAAACAGGGGCCGTT GTGAGCTTCCCTTTTAGAGTTTCAAATGCATTTTGTGCTGCAGCTCCCCACTGAAAAGCATCTTTCTTTGTCAAATCTGT GAGTGGCCTTGCTATTTTCCCATAATCCCGAATAAATTTCCTGTAGTAACCGGTTAATCCAAGAAAACCTCTCACCCCTT TTACATTCTTGGGCACGGGCCAACTCTTGACACTCGCCACCTTGCTAGGATCAACCGCCACTCCCTGTGCTGAAATCAGG TGCCCCAAGTATTCAACTGAGTCTTGCGCAAACTGACATTTCTTCTTGTTTGCTGTCAAGTGTTGCTGTTGGAGGAGTTG TAAGACCTTCTCAAGATGCAATAGGTGCTTTTCCCAATCGCTGCTATACACTAGAATATCATCAAAAAATACAAGCACTC CCTTCCGGAGCATGGGACGAAAAACTGCGTTCATCAAACTCTGAAACGTCGATGGTGCGTTCATGAGACCGAACGGCATT ACGAGGAATTCGTAGTGCCCTTCATGGGTACGGAATGCCGTTTTATGCACATCCTCTGCCCTTACGCGAACCTGATGATA CCCCGACTTGAGATCAAGCTTTGAGAAAAATTTAGCACCATTCAACTCATCGAGCAGCTCTTCAATTACAGGAATGGGAA ACTTGTCAGGGACTGTTACCTTATTGAGTGCGCGGTAATCCACGCACATACGCCATGACTGGTCCTTCTTCTTGACCAAG AGCACTGGACTGGAGTAAGCGCTTGAGCTATGTCGTATGATGCCGGCTGACAACATCTCCTGAACCTGCCTTTCAATTTC ATTTTTATGGGTATGGGGATAACGATATGGTCTGACGTTGACTGGTCCCTGCCCTTCCTTTATGTTGATACAATGCTCTT TGCCTCGACTCGGGGGTAGCCCCTCCTGAGCTTCAAACACACTGTCATACTCTTGCAACAACTTCTGCAAGCTTTCCTGT TGCGCTGCCTCTAGATGCTGACCTTTGGGAACCTCATGCCGGTGCTCCAAGAGTCCAAACGCTAGCTTGCTGTCAAGGTC AGACCTTCTCAGGATGCTTTGCAACGCCCCCATGGAACTCCCGCCAGCACTAAGACCCTGTAGCCTTACCCACTGTGTGC CGTGCCAGAAACTCATAGTATGCTTTCCCCAATTAGCAATTGTATCTCCCAACGTCTTGAGCCATTCAATTCCTAGCACA ATATCAGGGCCTCCCAGATCAAACAAATGGGGTGTGCACGAGAACTTGTAATCCCCAATCTCCAGGTCAAGCTCCTTACA CTTACCTCTGGTGTGAGTCTGGAAACCATCTCCCAACTTGATGGACATCCGTGGAGTGTCTTCCACTTCCCAGCTCATTC GTTGCACAACCTTGTGGTCAACGAAATTATGAGTGGCTCCGCTGTCGACTAACACGAGCACGGGCACCCCTCGCACTTTT CCTTGTAGCCTCATGGTTTGTGGCGGCTCACCATGGTCGACGAGATTGCACAAACTCATTATACTTAGCTCACCATCGAC CTCGTCTTCCATCTCGTTCATCTCTACGGCGAGAATGTTCCCATCGCCGGCGTCGTCGTCGCCGTCTTCGACGAGCAGCA CTCGGAGTTGGCGATCGGGGCATTTGTGCATTGGGTGGAAAGGGCCTCCACATTTGAAGCACTGACCCTTTTGTTTCCGC TCCAGTAATTCATGATAAGTGAGATGGGAGAATCCCCTGTCACGTGGACCGGCCCTCCTAGCTTCTGTTGTTGCCTTGGG GTCGCCTTTTGGGCCACCAAAAACTGGTTTATTAGTAGTCGCGGGCCCATTATCCTTAGCGCCTTTGACCCAGACCCAAT CGGTGCTTCCCGGGCGACCCGGCCCCGGGCGATCGCCAGTCCGGAAACCCGCTCCACCAATCCTCGAACTACGGTTATAA CCCGACCCGGCTTCACCCCTTACTTCCTTCTCCACCGCCCGGGCGATCAAGAGCAATCTTGAGCGGTTCACTCCGCCCAT CGCCACCAAGCTCCTCGCCTTTCCCCGTATCTCTTCTTTCAGACCATGCAAGAAGTATCCCTGGTATTGCTTCTCAGGTA ATTTTGGGATTTGGGCCGTCAAATATTCGAACTCGGTAATGTACTCCTCCACCGTACCTTTCTGACGCAACTCAGTCAAT TGCTCGTACACGTCACCGTCGCCGTGACCGCCATAACGCTCCAGAAGAGCTTGACGCAACTTTTCCCACGTCAGGGGAGC TTCTGATTCGAGCAAAGAGTTGTAAAAATGGATGGTGGGTCCATCCATGCTGAGCTGAGCGAGGCTCACCTTGACCTCCG GTGAAGTCTCTTGCACACGGAAATACACCTCCGCGCGTGAGATCCAGCCCGCCGGGTCTCTCCCGTCGAAGATCGGCAAC TCTACCTTCTTTACTGACTGGCGAAACTCCGCCAACGCATCGCCGTGTAGAGGTTGCGTTCGTGGTCCTCCTTCGTTCGC TTCAGGTTGCTCAGGAACCTCAGCGCTTGAGCTTTCTCCCTTGTCTCGGTTTGCACTTGCATCTTCCCTGTGTGACATTT TTCCTAACGATCGTTCCATCATCGCAATCAACGATGCAGGAAGATCCTTCATCGCCGTCGTAACAGCTACCAGCGACGTT CGCATCTCAGCGAGCTCGCCTTCAAGAGCATCAAGCTTTGCTTCCATCGAGTTTGTCGTGTGTTTGGATTTTCTGGGTGG CATTCACTGGTTCCGGCGAATCAATCCGGCAGGTCGGACCAATTTGATGGAAACCCAAAACAGAAAATAGAACTGAAGGA ATGAAACAGTAATCAGGATTGTTTATTGATGAATTGGAAATCGTTACAGAGAAGGAAAAGCCTTTCCTAAACTGACCAGA GCCAAGCTCCTATAGGAAGCTATTGCTTCCTACTCATTACTACACGCTCAATGATTTCAGAATCCCCTCCCTACCTCTCA CTACCTTCCTTATATTATGGAATGGATTACAATCCTACCTCCCCTCTCTCTCGCCAGCTCACCAGCTGTGCTGTTAGTTA GTTACTACTCCCTTTGTCCCTTTTGCCCCTTCTAGAGTATACCTTCCACTCTTTGGGCTTCGACCCCACATGGGCTAATG ACTCACTTGGGCCAGCTGCTGGATCATAGTTCCTAATAGTTAGCCTGTTACTGCTCTCTAATTTGGGTGGCGTTTTTCAT GGCTGTTCTCCCATTCATCATGGTTGGTTACTGACTCTCTCCACGACCCTATTAGTGTGCTTGCCACCCTTCAATTGGTC ACACTCTTCAGTTGGTGCCCTTATCACTGTTCCACATGTTAGCTAGCTGCTGCTTCCATGTTCCCCCACCTTCTGCTGTG TGAGTATGCATTTGACCACCTTTTGGCCAGATCATCACACACAGCTCATCTAGTAAGCATTTTGGACCTTCCCCATTCCT TATTGACCTTCAGCTCTGTCATATTGGCTCCTTTCCCCAATCTGCTCTGTTTAGCCATGTGTTTTTCGTAAATAGTTGAG AGCTTGCCTTGCATGCATCGCTGCATCAGAAAATTATTTTTATTGTGTTAGGAGTGTTATTGACCTATGTTTATGCTGGT TTTTACACATGTGCTTAACCTAGAATATTAGTATTCAGGTAGTTGTGTATGAGCACAACGCATAACACTACAATCCTATT AGTTAAGTACACACTCACTTTTCTCCTTTCCTTCTAATAGCTAGATTTCAACAATTGTGAGGTCTGCATATTATTTGCTT GGTTGTGTTTACTGCTCGCTGGTTAGTGTCATATGTCATTGCAAATATGAAACTATGTTCTTTTGACATTTCAGCTTATC GGAAGCTTGCCCGCACTTACCATCCTGATGTAAACAAGTGAGTTATTTATTCAATTTCATATATTATAACTGTCAAGAAC CAACTATCCCAAAAACTTAAGCTTTTGGGTAATCATACATGAATGGTTTTATGTTATACTTCTTTTACGCCCCCTCACGA AATTGCCCATTGGGCTTGAAGCGTGGACAATGCATAACCCCACCTACCTTATGCTGAAATTCCACTTTTTTATTAGAATA ATTGGGGGCAACAAAGATCGAACTCTAGATCATTTGGTCATAGAGACTTTGATACCATATCATGTACCAACTATCTCAAA AGCTTAAACTATTGGGTGAAGATACATGAATGGTATTATCTTCTAACAGTAACTTTGTCTTCTCTCAAACTCATTCCTTC CCCTTGTTCCCCCTTTTGTATTTCTCGTTCTTTCTTTCTGTGTTTGTCTTCACCTCATTTGGTTATCTCATTCTCATTAT ATTTGTATCTTATCTCTTTTTAAAAATTATTGATTTTGTTAATGAAATTATTGCTATCTTGTGAATTACATTTTTATCAT ATTCTGGGCATTGATTGATAATGCATTCTCTATAAATTGAATTCTTTGTTTTTTGGTTTCTTAATAATGTATTTTATTTC AAAAGTAAAGGTTATTTTTTTGTAATAGTTTGTATATCTAGAATTTTTCTAGCCATAAAAATGGTTGTGCTTGATCAAAA TACTTGGAGGAAGGGGACTTGACTTCCACAAGTTCAAATTGAATTTAGCATGATGTGAATGTCAATTTTTCATGTACCAT GGTTTTCTGTTATCATCTGAACTGCTTGATAAATGTTGCATATTATTGAACTCGAGTTATTGAGCGTAATTGCGTATTCA CATATACTGTAGAGAACCTGGAGCGGAAACTAAATTTAAGGAGATCAGCAATGCTTATGAGGTAAAACTACAGATTAATG AACTCAGCTGGCTCTTGTTCATGTCAAATAACGACTTGTCTTGTGTAATTATATTTCTTACGCAGGTCTTATCAGATGAT GAGAAACGATCCATTTATGACAGATATGGAGAGGATGGGCTTAAGGGTTCTGGATTGGGCACAGGGGTAAGTTACTTCAG ATGGCGATGGATAATTTTATTTTGTAATGAGTATTCTTGTTTTCAAAGAAGGATTATCTCTGTCATGTCAGGATTTCAGC AATCCTTTCGATCTATTTGATTTGTTTGAAAAGATGAATCGTGGTGCAAGTCCTAGAGGTTCTTGGAATGGAGCAATTGC AGGCGAAGATGAATATTACAGTCTTGTTTTGAACTTTAAAGAAGCAGTTTTTGGCATAGAGAAAGAGATAGAGATAAGCC GATTAGAGAGCTGTGGAACTTGCAATGGTTCTGGTGCTAAACCTGGGACTACACCATCCAAATGTGGCACTTGTGGAGGT CAAGGCCAAGTCATCTCATCAACAAGGACTCCATTAGGTATCTTCCGGCAGACCATGACGTGCTCGTCATGCAATGGGAT GGGGGAAATTTCAACACCTTGCAGTACATGTTCTGGGGATGGTCGAGTGAGGAAATCAAAGCGGATAAGCCTGAAAGTCC CAGCTGGTGTGGATTCGGGTAGCCGTTTAAGGGTTAGAAACGAAGGAAACGCCGGAAGGCGAGGGGGTCCTCCTGGCGAC CTCTTTGTTGTTATTGAAGTTATCCCAGATCCTGTCCTCAAAAGAGACGACATCAACATCTTGTACACCTGCAAGGTTTC TTACATTGATGCAATCTTGGGGACTACAATTAAGGTTCCTACAGTAGATGGAATGGTGGATTTGAAAATTCCATCAGGGA CCCAACCCAACACTACACTTGTTATGGCTAAGAAAGGTGTTCCCCTGCTGAATAAAAACAACATGAGAGGAGATCAATTT GTTCGTGTACAAGTTGAAATTCCTAAGAGACTGAGCAGTGATGAGAGAAAGCTTATAGAGGAACTTGCTGATTTAAGCAA AGACAAGACTACCAGCAGTACCAGATAACATATGGTGGGAACCTCTGTTTTTATTTATCGATGTAAATTATGCTCCTTTC ATGGATGCATCATTCTTCATTACACTCTTAAACTCTGGGAGGGACTTCAATGTGTTGGTAGATGCAATTGGTTTATTTGT CCTTGGAATAAAAGGTGGTACCAAGAGCCGAAGAAATAAAAGATATTTTTTCATTGCAACTTATACGCTTCTTGTAATTT ATTTTTGGGGAGGGTTGCTATTCACTAAAAGGGCATTATTATTGGTGACCCTTAAATTTTTGTAAAATCTGAAAAGACCT TTACTATTTTTGTTGTCC
CDS sequence (LotjaGi2g1v0114200.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCCATAACACCTTTAGGTAGTACTTCTGCATCACAATGGGGAGTTCGTCCTCAGCTATTGCTCAGGTCCAGTTTGAC AGGCAAGGGTGCATCATCTAGCCACAATGTTACAACCAGGGTGAGCTTCATGGCTGCCCCAAGTTCTAGTTTTTTGTCTC CAGATTCCTTGCATATACTATTTAACGCTGGTCTCTATCAATCTTTGAAATGTCGGAAGGGGTCACGGTTGATTGTAAGA GCAAATACAGATTATTATTCTGTCCTTGGGGTTTCAAGAAATGCTAGTAAATCTGAAATTAAGAGTGCTTATCGGAAGCT TGCCCGCACTTACCATCCTGATGTAAACAAAGAACCTGGAGCGGAAACTAAATTTAAGGAGATCAGCAATGCTTATGAGG TCTTATCAGATGATGAGAAACGATCCATTTATGACAGATATGGAGAGGATGGGCTTAAGGGTTCTGGATTGGGCACAGGG GATTTCAGCAATCCTTTCGATCTATTTGATTTGTTTGAAAAGATGAATCGTGGTGCAAGTCCTAGAGGTTCTTGGAATGG AGCAATTGCAGGCGAAGATGAATATTACAGTCTTGTTTTGAACTTTAAAGAAGCAGTTTTTGGCATAGAGAAAGAGATAG AGATAAGCCGATTAGAGAGCTGTGGAACTTGCAATGGTTCTGGTGCTAAACCTGGGACTACACCATCCAAATGTGGCACT TGTGGAGGTCAAGGCCAAGTCATCTCATCAACAAGGACTCCATTAGGTATCTTCCGGCAGACCATGACGTGCTCGTCATG CAATGGGATGGGGGAAATTTCAACACCTTGCAGTACATGTTCTGGGGATGGTCGAGTGAGGAAATCAAAGCGGATAAGCC TGAAAGTCCCAGCTGGTGTGGATTCGGGTAGCCGTTTAAGGGTTAGAAACGAAGGAAACGCCGGAAGGCGAGGGGGTCCT CCTGGCGACCTCTTTGTTGTTATTGAAGTTATCCCAGATCCTGTCCTCAAAAGAGACGACATCAACATCTTGTACACCTG CAAGGTTTCTTACATTGATGCAATCTTGGGGACTACAATTAAGGTTCCTACAGTAGATGGAATGGTGGATTTGAAAATTC CATCAGGGACCCAACCCAACACTACACTTGTTATGGCTAAGAAAGGTGTTCCCCTGCTGAATAAAAACAACATGAGAGGA GATCAATTTGTTCGTGTACAAGTTGAAATTCCTAAGAGACTGAGCAGTGATGAGAGAAAGCTTATAGAGGAACTTGCTGA TTTAAGCAAAGACAAGACTACCAGCAGTACCAGATAA
Protein sequence (LotjaGi2g1v0114200.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAITPLGSTSASQWGVRPQLLLRSSLTGKGASSSHNVTTRVSFMAAPSSSFLSPDSLHILFNAGLYQSLKCRKGSRLIVR ANTDYYSVLGVSRNASKSEIKSAYRKLARTYHPDVNKEPGAETKFKEISNAYEVLSDDEKRSIYDRYGEDGLKGSGLGTG DFSNPFDLFDLFEKMNRGASPRGSWNGAIAGEDEYYSLVLNFKEAVFGIEKEIEISRLESCGTCNGSGAKPGTTPSKCGT CGGQGQVISSTRTPLGIFRQTMTCSSCNGMGEISTPCSTCSGDGRVRKSKRISLKVPAGVDSGSRLRVRNEGNAGRRGGP PGDLFVVIEVIPDPVLKRDDINILYTCKVSYIDAILGTTIKVPTVDGMVDLKIPSGTQPNTTLVMAKKGVPLLNKNNMRG DQFVRVQVEIPKRLSSDERKLIEELADLSKDKTTSSTR
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 | 32 | 438 | 407 | 3.3E-224 | – | |
PANTHER | 32 | 438 | 407 | 3.3E-224 | – | |
SUPERFAMILY | 80 | 170 | 91 | 4.97E-33 | ||
Gene3D | 81 | 185 | 105 | 8.8E-35 | ||
Hamap | 81 | 432 | 352 | 35.99 | ||
SMART | 83 | 140 | 58 | 2.4E-31 | ||
Pfam | 84 | 145 | 62 | 1.0E-27 | ||
CDD | 84 | 137 | 54 | 6.18458E-26 | ||
ProSiteProfiles | 84 | 148 | 65 | 23.933 | ||
TIGRFAM | 84 | 427 | 344 | 2.6E-128 | ||
PRINTS | 86 | 104 | 19 | 4.1E-29 | ||
PRINTS | 104 | 119 | 16 | 4.1E-29 | ||
PRINTS | 120 | 140 | 21 | 4.1E-29 | ||
ProSitePatterns | 125 | 144 | 20 | - | ||
PRINTS | 140 | 159 | 20 | 4.1E-29 | ||
SUPERFAMILY | 190 | 344 | 155 | 3.66E-17 | ||
Gene3D | 191 | 326 | 136 | 1.2E-34 | – | |
CDD | 192 | 414 | 223 | 6.35866E-64 | – | |
Pfam | 196 | 411 | 216 | 1.9E-38 | ||
SUPERFAMILY | 208 | 288 | 81 | 4.19E-17 | ||
ProSiteProfiles | 208 | 289 | 82 | 24.344 | ||
Gene3D | 221 | 284 | 64 | 1.2E-34 | – | |
Pfam | 221 | 284 | 64 | 6.2E-11 | ||
CDD | 221 | 284 | 64 | 7.64591E-27 | ||
Gene3D | 331 | 438 | 108 | 6.8E-26 | – | |
SUPERFAMILY | 336 | 422 | 87 | 2.35E-21 |
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 | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Biological process | Protein folding | The process of assisting in the covalent and noncovalent assembly of single chain polypeptides or multisubunit complexes into the correct tertiary structure. | ||
Biological process | Response to heat | Any process that results in a change in state or activity of a cell or an organism (in terms of movement, secretion, enzyme production, gene expression, etc.) as a result of a heat stimulus, a temperature stimulus above the optimal temperature for that organism. | ||
Molecular function | Heat shock protein binding | Interacting selectively and non-covalently with a heat shock protein, any protein synthesized or activated in response to heat shock. | ||
Molecular function | Unfolded protein binding | Interacting selectively and non-covalently with an unfolded protein. |
Expression pattern of LotjaGi2g1v0114200.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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