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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0378600 |
Transcript ID | LotjaGi1g1v0378600.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | ATP-dependent chaperone ClpB; TAIR: AT2G25140.1 casein lytic proteinase B4; Swiss-Prot: sp|Q8VYJ7|CLPB4_ARATH Chaperone protein ClpB4, mitochondrial; TrEMBL-Plants: tr|I1JU82|I1JU82_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0378600 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:85840257..85852851) extracted from Lotus japonicus Gifu genome v1.2.
AGGTGGTTCTCACTTTCTTCTTGGTGCGGTCAGTCTGTTCCTCTTCGTCACTTGGTGGCTGGCGGTACTCCCCTCCGATG GTGCTTGACGGCGCCATGGAGGAAACAAGGCGGTTGTTCGACAGGGTCAAGGGGAGAATCAGATAGGGTTTGACTCTAGA GAGAAGGCAGACTTTCTCTCTCTAACCCACCATCTTAATTTTACTTAAGCCTCTATTGTACACATCATATATTTTCCTTT TTTCTTTTTCTTTCCCCCTTCCCCAAGCTTCCAGAGAATTCGTTTCTAAAACCCAAACTCCACTGTCTTGTAACCGAGTG AGTGTACGCAACCAAAAACAATCCACGCTCTAGCTCCGTCATCAATGGCGACCAGAAGAACACCGTCGCTAACCAAATCC ATTCTCACCGCCGCAACCGTTTCCAGAACCAACCCACGGCGAACCCCTCTCTCCTCCCTCTCTCGCTCCGCCGCACTCCT CCCCCCTCACACCACAAACCCTCTCTCACGGTCACCACCAACCAATGTCTCCTCCGCCAACTTCCTCTCCCACTCTTTCA CCCTCTCTCGCTCCTTCCACGCCTCCACTCCCTCCCTCCGCTCCGCCGGAACCTCTCAGCAGGTACTCCAATCCCTTCAC ACTCCCATTTCCTTCAATTTCTTCATCAATTCAATTCTGATAGGGTTTCTGTTTCGTCGAATCTGTAGGTAACACCGACA GAGTTCACAGAGATGGCATGGGAAGGCATTGTGGGTGCTGTTGATGCTGCACGAGTTAGCAAACAACAAATTGTGGAATC TGAGCATTTGATGAAAGCACTCTTGGAGCAAAAAGATGGTTTGGCCAGAAGGATTTTCACTAAGGCTGGATTGGACAACA CTTCTGTTCTTCAGGCTACTGAGGATTTCATAGCTCAACAACCTAAGGTGTGTTTCTTGGTGGTGGATTTCATTTGATTT GATCTCTATAGGTGATTCTTACTTTGCTGTTTTGTTTGGCAGGTTACTGGTGATACTACTGGTCCTTTCATGGGTTCACA TGTTAGCTCACTCTTGGACAATTCGCGAAAGCACAAGAAAGAAATGGGTGATGAGTTTGTGTCTGTGGAGCACCTTTTGC TGGCTTTTCATTCAGATAAGAGGTTTGGGCAACAATTATTTAAGAATCTTCAGCTTAGCGAGAAGGCCTTGAAGGACGCG GTACAAGCTGTTCGTGGAAGCCAAAGAGTGACTGATCAAAGTATATATTTTACTTACATTTGAAGGTTTTTTATTTTTGC AACCAAGATAGGATGACATCATTTGTTTTATCTCACTATGACAGAGCTTTAAATCTTTGAAATTTTGAAATAAACATGAC ACCAAATTGTATCAAAACTAAAAAGTATCAAGTTTGATTGGTGACAAGAAAAAAGAATAGTGATTGTTTATGATTAATTA CTTGTAAGCTATAGTTTAAAACAATAATGGAACATACTAAGCTCAGCAGTGAGTTATAAATTTGTGTCATGTTGATATGT ATGACACTTGTTGTTTCAATTGGCTTCTATGCAACTCCAAAGCATATTTGATTTCTCTTATGCCTGATCCACAAAATTGA ACTTAGACTTGTTTTAAAATTATTTCTTTACATTTGACCTCCTGTTATCCTTTCTAGTTGCTTTTGTTTTTTGGATTTTC TAGTTGTATATTTTTCTTTCTTATTTGGAAATAACTGTCTATAGATCCTGAGGGGAAATATGAGGCATTGGACAAGTATG GAAGTGACCTGACTGAACTTGCTAGGCGTGGCAAGCTTGATCCTGTCATTGGTCGAGATGATGAAATTCGACGCTGTATC CAGATATTGTCAAGGAGAACTAAAAACAATCCAGTTATTATTGGTGAACCTGGTGTGGGGAAAACTGCAATTGCCGAAGG GTATGGCTAATATAATTTTATGACAGTTCTTTCAGATGTGTTAGACAATATGACTTCTTCTTGTTGTTTTTATTTCTGTA TGCTTTGTACATTTTTTCCTTCTTGCATGATTAGGTTTATTCGTGTATGGTGAAAATTGAATTAGGCTATAGGTAGCCTT CTCCTATTTGCTTAGAGGAATTTTTTTAACAACTACTTTGGGTTCTTGATTTATTTGTGTCTTAATTTTTTGCCTTTAAG ATCCTTGTTTGACGCTGAACTTTCCCAACAGGTTGAAGTTTGTTTTTCGTCATTTGTGCCTCTTTATGACAAGTATTTGT TGCAATCTAGCTTCATGAGATTAAGTGAATCAAGGCTAAAATCCTTAACATGAATTGCTTGCTAAATTTTCTGATTTTTA ATTTCTATGAAGCATAGAGCATGATTTAAGTGGTACTTTTTGACAAATTGCTTCAACCAAGTTTCAATAATATTTAGAAA GTGCAACAATTAAATTTTTGTCTTGTTAATTCAAAGTGGAAGTAGCTTGTATGTTCATATGATTATACTTAAAGCTTTTT CGTTGCTTTGCAGATTAGCTCAACGTATTGTGCGTGGAGATGTTCCAGAGCCATTGATGAACCGAAAGGTTGAATTCTAT TGTTTCTTCCCTTTATGTTATCTTGAAAACATTAATTGAGTTACTTGGTTGGCTTCGTGTCAAGTCCCAATACAGGCTGC AAAAGTTACTGAATAAGTCTAATAAAGCTACTAACACTTTGTTGAACTGTCATGTTCTCGAGAAAACCCGAAACTAATTG ATAGGAACTCAAGGTTAGAGGTTAGTTAGTTAGTTATACTTAGTGAGTTAGTTAGAATGTTATTGAGGCATGTAGCCTAT AAATAACAGACATTAGAGATTTAGGGGTATCTTGTTATTCAGTTTAGGAATTGGGTTAGAGAGAGAAGTGGTTCTCTCTT AGGCTTGGAAGGGTGTTTGGTATCCTTTCCTCTTGTATCTCTCCCTAGTTTCCAATTGGGAATTAGGGTTTTTCTATCAA TAAAAATCAGGTTTCTAACATTGGTATCAGAGCCTTCCACCATGTCTCTGAGCTGCAAACGAGCGGCGCGGGTGGTGACG CCGGCATTGCAGTGTTCGCCCGGGACTAGTCGTGGGGCTAGTGCACAGCCAGCCCGCGTGGGCGCCGGGGCTGCGGAGCG TGGTGGGATGTTAGGACCCCATTGCAAGGTATGGGACTTCAGTCCCACATTGGAAGTATGGGATTCTAATGTGGGGTTTA TAAGGCCTTGGGCTCTCCAACTACAACAGCTAGCTTTTGTGGTGTGGTTCTCCCAAGGTTCTTATCAATGGTATCAGAGC ACCGATTCAGGTGCCTGGCCAAGAAGATCCCACAGCAAAACAACATCAAGAAGGAGATGGCTGCAGATTTCGGGAATTTT CTCTCATCAAGGGAAAAGAAGGAAATCATTGGCATGTTGCGAGAGTTGCAGAAAGAATTCGCAGAGAGCAGAAAGGAACA CGAATCACTTAAAGAGCAGTTGAGAGAACTGAATGAGCGAAGGCAGAAGATGGAACAAGAAAGGCAAGAATCAGAGACGG CGGTCCAGGCGGAGCGAACGGCGACAGCGGCGGCGTTGTTGAGGGGAAGTGAGACCGCAGCGGTGGCTGGGCAGGCTTCT GAAGCAGGAGAATACTCAACCTCTGCGATTCAGAAAGCCAATCTTGGAACAGAGGGTGAATCGGAGACGACGGTGGAAGA AGAGAGAGACGCCACGGTGGATGAGCAAGCGTCTGAAACAAAGGGGGTTTTCATTTCTGAGATGAAGCAACTCAATCTTG AACTAGTGGAGGACAATCGAGTAACAGAGGAGTGGCAGAAGAAATCGAGGTCTGCATCAATGGCAGAGAAAACCCGCACC TTTGAAGCAGAGGCGTCGCCGGAGAATCTTGAGACCACGACGGTAAGGGCGATTCAGGGGGAAACAAAGGTTGAAGCGTC GCAGAAACCAGAGCCTGAGGCGGAGGAGAAAGAAAGAGTTGCGGCAGAGACAGAGCGAGCATCGTCGACGGTGGCGATTG AGCGATTTTCGCCGAAGCTGTCGCACCAGGGCGGTTGGGATTTCATTGGTGAACCATCACATCTTGGTTTTCCGTTAATG GTGATGGGCTCGTTCCAATGGCTGCCACCGACGCTATCTGATCACGCAGTGCGATTACTGCATGAGGGAGGTCCATCGGA GAGGAGCAGAAGGCTGGCGTCAAGGTTGTTGAACCCATATCCTTGTAGGCCGCCTGAGGGAAATCAGCCACCGCCGGAAC CGCCGGATTTATCGGTTGGCTCCGGTGAGGTTTTTCCGTTGCTGGTTGGTCACGCTGAGAGGGAAGGGGAAACGCACAGA AAGCTGGGATGGAGGAACACGGAGGTCAAGGTTTGGACTTACAATCCAAATGGGCCAAGACCAACTCTAAGTTGGCAGGA ATTGGGCCTTGATGAATATTGGGCCAACTTTTCAGCTTTTGGGTTAAAATCCAATTTACCCATTTACAAGGGACAACGGG GAGCCATATTTCAGGTTACAAAGTCTCAAAGAATTTTACAGCAGCTTTGGGAAAACGATTCAGGTAATCTACAAGCTTTT GCTGAAACTATGAAGTTGTTTACAAACCTGAGCAATGAACAGGAGAAGTGGGATCCGGGTGGAAATTATTTTGTTCCACC ATCTCTAACACAGGTTCACTCAAGTTTTTGGTCATGCCAACTACATGTTTTTGCTGAATTTGTTGCTGGGTTTCAAAGTT CGAATTCTCAAATTACTAAGTTCAATGTTTGGGTTTGGAGGCATCACCAGATTGCTGATAGTTGGACATTCACCCAATTT GGGTCACTTGGAGGAGAGTTTATTTTTGGTGCTGATTCACTTACTGGACTACTTGTGAGCTTGTTGGCTGGTTATGGGAA GTTGCCCACCAATTCATTTGTATATGGGTTTGCTTTGAAGGATTCTGCTATCTTGCTGGCTCAACCTGTTTGCATCAATG GGATCTTCTGCAAATTGTTTTGGACTCTTTGCTTTAGGTTGTGGGATCCAGGTGGAAGCTATGATTGTCTCCATTTGATC TGTGGTGAGGCTGCTCCTTTAGATTGCTTGTCCTGTTGTCCTTCACCTTGAGGACAAGGTGAATTTTCAGGGGGGGAGTA TTGATAGGAACTCAAGGTTAGAGGTTAGTTAGTTAGTTAGTTATACTTAGTGAGTTAGTTAGAATGTTATTGAGGCATGT ATCCTATAAATAACAGACATTAGAGATTTAGGGGTATCTTGTTATTCAGTTTAGGAATTGGGTTAGAGAGAGAAGTGGTT CTCTCTTAGGCTTGGAAGGGTGTTTGGTATCCTTTCCTCTTGTATCTCTCCCTAGTTTCCAATTGGGAATTAGGGTTTTT CTATCAATAAAAATCAGGTTTCTAACACTAACTTGTCTTTCATTGAAAGTATAAGGACTACTTTGTTCCTATAACTTTTG CTCACACACACACATAAAGAAGATTTCACAGTAATTCTAAAATGCAAAGCTGGTTTCTTTCTTACATTAAACACATGACA AATAAGGTGGTGTGGAAAGTATAATTTCAGAATGGTGTGATTACAATTAGCTTAAAAAAGATTTACCTTATGCTATTTGG GACTCAGAGGCAGTTTCCTTGACCCTTCTCTAGATTGTGAAAAATTATGACATTATCAATTAACTTGGAAAATTTAATGA AATGTATTACATCATTCTCTCTCTCTCTCTCTCTCTCTCTCTCTAAATTTTCTTTGAAGTCTAATGTTGTAATAAAGGAC AGCTTGGTGTTGTAAAGCTCTACCTAATCTGCTATGTGCAGAGTCCAGGGAATGCAATGCTGTAATATTTTTGCCGAAAT TTGTATTGAAATTTTACTTTTTTTTTTTCGTGTTTTGTAGCTGATCTCCCTTGATATGGGGTCATTGCTTGCTGGTGCCA AGTTTCGTGGAGATTTTGAAGAAAGATTGAAAGCTGTCCTTAAAGAAGTTACTGCATCAAATGGACAAATAATTTTATTT ATCGATGAAATTCATACCGTTGTTGGTGCAGGTTGGTACCTCATTCTTGTTCTTGAATCAAAATTTAGACATTGGGAGTA TTGTCTACTTTGTATTTGGTAGAGAGTAGACACATCATATAACTTTTCATGCATTCACCTAATAGTTTAAATTCTTAGGC TAGTTGGTTTGTGACTTGTTATAGAGTTTGTATAGCCTACTAGTCAACAGCGAAAATGTTGGTTTCAGTACATGGTAGGA GGTGGGCTTCCAATATATGCGCACTTCAAACCCAAAAAGCTGTTTTTTTTTGGGGGGTTTTGAGATGATGGGATTGGGTT CAGGTCCTCTAGGGACACTGTATTAGAACCCATCTCCAGTGCCCCCTCCCATCGCTGAAAATCAGAAATATTTGTTTGCT ATTCTTGGCCATAAATTAGTGAATGCAATAATTGATTGCTTCTGTTAAAAAGCAATCCAATCTGGATGGATGGGGAGAAC TGAATAATAGTTGAGTACCAACTGCGGAATCTGACACCTTAAACAATCATATTGTCTATAGCTAATCTTTTTATTGGTTG AACACCAAAATTTGCTGTTTTGAAATTTGTGCATATATCGTTAATTGTCTGTACTTTTAACAGATTGGAGTGACATTTTT ATTCACCAATCACCATCAACTCTAGTTTTGTTCCAGCTTTGCAATTTAATCAATTAGTAATATCTTCTCATTGGTTCACC AACAGGGGCTACAAGTGGTGCAATGGATGCTGGAAACTTGTTGAAACCAATGCTCGGAAGAGGTGAACTTCGATGTATAG GAGCAACTACATTGAATGAGTATAGAAAATATATTGAAAAGGATCCAGCACTTGAGCGTAGATTTCAACAAGTGTTTTGC TGTCAACCATCTGTAGAAGATACAATATCCATTCTTCGTGGGTTGCGTGAGCGCTATGAGTTGCATCATGGTGTCAAAAT ATCGGATAGTGCACTTGTTTCGGCTGCAGTTCTAGCAGATCGATACATCACAGAACGCTTCTTGCCAGACAAAGGTGAGT TTTGACTATGGCACTTATACGACAAGGCTCGTCTGATTATAACAGTTTATTATATCGTTTAATTTAGTACTTGAAAGAAG TTAGTCCTCACTAGAACAACATAAAATTTCCCTTTTGAAAAGTAATCAGTCTCTCTGTCTCCCCCTCTCTGCCATCAGCT TTAAAAATATCTAGTTGATTTACTGCTTCCAATATCTAATTAAATTTCTCTCTTTTAGCTATTGATCTTGTCGATGAAGC TGCTGCAAAGCTGAAGATGGAGATCACCTCTAAGCCTACCGAATTGGATGAGATAGACAGAGCGGTCTTGAAATTGGAGA TGGAAAAACTCTCTCTGAAAAATGATACTGACAAGGCATCTAAAGAAAGATTGAGTAAGCTTGAAAATGATTTGAGTTTA CTTAAACAGAAGCAAAAAGAACTGACGGATCATTGGGACAGTGAAAAAGTGTTAATGACTCGGATAAGATCTATCAAAGA AGAGGTAATGCTTAGTTTGTGTGTTGCCATATATTAGATTTTTAATCTAAATCTATGGGTCTTAACATGTTTTAAGCATG TGTAGATTGATAGAGTCAACCTAGAGATGGAAGCTGCCGAACGTGATTATGACTTGAACCGTGCGGCCGAGCTTAAGTAT GGAACTTTGATGTCCCTTCAACGCCAATTGGAAGAAGCTGAAAAGAATCTAGTTGATTTCCGAGAATCTGGACAATCTTT ACTTCGAGAAGAAGTCACTGACCTTGATATCACTGAGATTGTATGTAAATGGACTGGTATACCATTATCAAACCTTCAAC AAACAGAGAGAGAAAAATTAGTTTCGCTGGAACATGTTCTTCATAAGAGGGTGGTCGGTCAAGACATTGCTGTGAAGTCT GTAGCTGATGCGATTCGCCGTTCAAGGGCTGGATTGTCTGACCCAAATCGTCCAATTGCAAGCTTCATGTTTATGGGTCC AACTGGTGTTGGGAAAACGGAGCTTGCCAAGGCTTTGGCTGGTTACTTGTTTAACACAGAAAATGCTCTTGTTAGAATTG ATATGAGTGAGTACATGGAGAAACATGCTGTCTCACGTTTAGTTGGGGCCCCTCCTGGTTATGTTGGTTATGAAGAAGGT GGTCAGCTAACTGAAGTGGTCCGGCGAAGACCCTACTCTGTGGTATTATTTGATGAAATAGAGAAGGCACATCATGATGT CTTCAACATCTTGTTGCAGTTGTTGGATGATGGAAGAATTACTGATTCTCAAGGAAGGACTGTTAGCTTCACAAATTGTG TTGTGATTATGACTTCAAATATTGGGTCTCATCACATACTTGAAACCCTTCGTAGTACACAAGATGATAAAATTGCAGTT TACAATCAGATGAAAACGCAAGTTGTTGAGCTAGCTAGGCAAACATTCCGCCCAGAGTTCATGAACCGCATCGATGAATA TATTGTTTTCCAGCCTCTAGATTCCAAAGAGATCAGCAAAATTGTGGAGCTTCAGGTAATTGATGTGCTCATAATACTTT ATCCTTTTAATCTGGTTTCATATCTCACTTTCATTTCCTTGGCATCCATAGAAAATTTCTGATGTTTTGAGATTATAAGG TTTTGGAAAGAAGGATGAAAAATGAGAAATACTTCAAATATTGTTTTGTGTGATGCAATGCGATACAAAACACAAAACAC TAACAAGTAATCCTGTAATAACTCTTGATTTTAATTAAATAAGGAATCAAATAATTACTACAAATAAGAAAATATTTGAG CATAAGAGAAAGTTCATAACAAGATAAGATTTCAAAAGACTAGGTGATGCTGTTATCCCTAGAATAATATAACCTAGGAA ATAACAACACACCTGGCAACCACTGTTGCACTAAAGCACGCTAGTATTTAGAATAGCTTACTATAGAATATTGGGGCTTG AAGATGACAGATGCTAGTGTTAGTTGTTTCAGTGATAACCTTACTCATTACTTTGGATATCTTAATGTCCGTTCTTAGAA TCACTTTCACAAACAGTCTCCATTGAAACCGTATTATGTCTTGAAAAAGTTAAAGTTAACTGATATTCCTCTAGAGAAGT TAATTGGAATTGCATTAAAAGCAGTTTTCTAGAAACAATTATTTCTGCTGCTGATACTGATTTTGTTAATTTTTCTTGTT GTAAACTTGCTTACTCCTAAATTTGTTCTTTCAAACTGAGCCTGTGGCAATTATTCTTTTCATATGAAATTATTCTGAAT GATTTAAGTGTTTGAGTGAACATCTTCAATCTTAAATTGATGTGAATGCACATGCACTGATTATGTGTTATCGTGTATTT AAGATCAATATATGTATCTCTAGTTTGTGCTTCTCTCTACTTGCTGAAGATCTCATGTTTTTTCACCTGGTACAGATGGA ACGGGTGAAGAACAGGCTCAAGCAAAAGAAAATCGATCTCCATTACACACAAGAAGCCCTTGAACTTCTTAGTGTATTGG GTTTTGATCCCAATTTTGGAGCAAGACCAGTTAAAAGAGTAATACAACAATTAGTTGAGAATGAAATTGCGATGGGAGTC CTAAGGGGAGATTTCAAAGAAGATGACTCAATCATTGTTGATGCTGATATGACTTCATCAGCCAAGGAAGGTCCTCCCCT TAATAGACTACTTGTTAAGAAGCTGGACAGCCCGGTTGCTGATGCCATGGTTGCCAATGACTAATTTTGCTCACTGGTCT CACATCACAGTTTCACTTAGGTAAAACCCACGGTTCATGCTTTTTGGAATAGTCAATGATTAATAATTGATAAACTCCTA AGGTATAAACTTGTATTTTATTTGAGTTTTTTTTGTGATGGGTGTCCTAACGAGTTGAGAAAATAATTACATATTCTTAG TTGTTTAGATGATTTTTTTTTTCTAGTATACTCATTTCTCTTGAACATCATTAACAATGCCAAAAGTTTTTTTAAGGAGG GTTGAACCAAAAAGATAGGAAGTACTTATATTAGTTTTATCTCACCCAAAGATAAATATATGTGAAAATAAATATTTTAA AAAGATATATGTACTTATATTGATTTTATCCTTCCAAAAAAAATAAGAGGTTCAACTGTTCAAGCTTTGCTCCACTAATC CCGTTAAATACATCAACTTTTCATTCTCACTTATAAAATTGTTCATAACAATTAGTGGTGCATCCAGTAACTGAGTTGGG GCACTATACACATGTAAATATAAAGCATTAAAATCGCAACATTTTATTAGTAAAATATTTGGTACACATCATAATTGTTC GTTCTTATATTTTAAAAATAGGCAATTTCTAAGGTACTCATCTAAAAGTGGAGGAATTTTATGTTTTTTACTTTAACTTG TCATGGTTTTTAATTTCCAACATATGAAACAAATAGTAGCAAGTAGCAATTTGAGCATGAGACTATCATCTTATCAACAA AAAATTCAGTTCACCATTAAGTTATACTCCCTCATTCTCCTATTATAAGTCACTTTTTTTTAGATTTTTTTAATAAACAA TTCATTATGAAAGAAAAGGGATCCTGAGTTCTACCAATTGCAACAAATGATGAGCAAAATTAAAGTTAATATGTAGCACT GAACAGAAGTAGAGAAAATAAAGTGAATATCAAACAAGAAGCAACTACATTATAAATCAGTGCATACTGCATAAGCAGCA TTGAACCTTCCAAGCACAAATGGTTTCTCGGTCTACAATAAAAAACTACATTCAAGATATTGTAAGAATTCAAGTAATGA ATCCTTCACCAGTAATCCCCACAAGAGCATTTTCCATCCTTGAAATGATGAAACCTTTTGTTATCTCTGACAATCAATTC CCTCCCTACAATCCTGGACATGATCTTAATGGCATTGTGACAGTCACCACAGACACGAAGGTTCTTAATGATTCTAAGAG GTGTTCTTGGTGGAGTACTAATGAGGCCATATGCAATAGCTAGACGTTCATTGTGGTAGAGCAAAGCCTGCTCCTTTGCT TCCTGATCAATGTCATGAAGAACAAATCTCGTATCAGGAACATACCCTGCTTCCTTCATCCCAATCAAAGCCTTCAACTT TTCATCATCCTTGTAGAGAGTAGGATTCTTATACTCAATGATTTTGTTCCTGCCATCAAGCATGCTAATATGATTGTACT TTTTCGGAGGCGGGGTAGGGATCATATTGGCAACAACCTTTGATGGCTCAAGATTAACCATCAACTCTTCCACATGGTCT TCAAGATCAATATCTCCATGAATGCGAGCATAACTCATCAGTGTCTCCCACACAGTCACAGTGAGTTCAAATGGCAACTT CTCAATGAACTCCACAGCTTCCTTGAGATATCCAGATTGTCCAAGAACATCCAAAAGCCCAATGTAGTGCTCCACCCGCG GTTCAATTCCATACTTGCTTTTCATGGACTCAAAATGAAGGAAAGCATCCTCCATAGCCTCAGCACTGCCACAAGCTGAT AACACTGCAAGCAAAGTCTCGGACGTGATCTCCAAACCCAGCTCATTCATCTGCTCAAACAGTTGCAAGGCGTCATCTCC CATGGTACTATTCGCATAGCCACGAAGCATCGAGTGCCAAGTATCCATATTCCTGTTAGACATATGATCAAACACCCTCC TTGCATCAATCATACTCTTACAATTCCCGTACATATCAATGACCTTGTTGATCAAATTGAAATCGCCCCTGCAGGTAGAT TGTAAGAAGTAGTCATGGACCTTCTTAGCATCCTCGAGGGATTTGGTCTGGCCACACAAGTCAAAGAGAAGATCAAAGCA ACCAGCATCAGCCTATCAAAAAAAAAAAGAAAAAAAGCATCAGCCTTGACCCCTTCATCCAGCAATTCAATCGCCTCTTT AAGCTTCCCTTCCCTGCACAAATCAATGATAGAAGGTGGTGGAGCTTGCACTTGAACCGGAGCTTGCTTCAGAAATTGGT TTTGTGGGGCTGGAGTCCGAGGGTTCCAGTTGTTATTGGGTGGCTGGAAGTTGGGGTTTTGAGTGTGTGGTGGTGGATGT TGTTGATTCCATTGATTGGGTGGCTTGAAGTTGGGGTTTTGAGGAGTGTGGTGTGGTGGTGGATGTTGTTGATTCCATTG ATTGGGATTCAAATGTTGAGAAGGGAATCTACCGTACCCATTTGAGGTACTAAGGGATTGGCTGAAGATGCAAGTAGGTC TGCACTTGAGCCAGTAAGGGAGCATGGTGATTACTCGAGAATGCCGAATCAACATTAGCGATTGAAAGCCGAAGATTGAA GGCTAGGGTTTTTTGTTTAGTTTTCAGAAATAGAGAACAACGAGTCGGTGTCTATTTTCCTTTCCTTCATTTCAGTGCTC CCTACATGAGAAAGAAAGAAAATCAACCAAATACCTTAACATGTCAGGTGTTAAAGCATCCTTTAAAAAACATATGCAAA GCACACAAGGAAACTTGAAATACTGAAAAATCGCTAGAGCGAATAACACAACATTCTAAAAGAGTGCAGCTTAACATATT TACTAGTACCAGTGTTAATTGCATATAATTTCGAC
CDS sequence (LotjaGi1g1v0378600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGACCAGAAGAACACCGTCGCTAACCAAATCCATTCTCACCGCCGCAACCGTTTCCAGAACCAACCCACGGCGAAC CCCTCTCTCCTCCCTCTCTCGCTCCGCCGCACTCCTCCCCCCTCACACCACAAACCCTCTCTCACGGTCACCACCAACCA ATGTCTCCTCCGCCAACTTCCTCTCCCACTCTTTCACCCTCTCTCGCTCCTTCCACGCCTCCACTCCCTCCCTCCGCTCC GCCGGAACCTCTCAGCAGGTAACACCGACAGAGTTCACAGAGATGGCATGGGAAGGCATTGTGGGTGCTGTTGATGCTGC ACGAGTTAGCAAACAACAAATTGTGGAATCTGAGCATTTGATGAAAGCACTCTTGGAGCAAAAAGATGGTTTGGCCAGAA GGATTTTCACTAAGGCTGGATTGGACAACACTTCTGTTCTTCAGGCTACTGAGGATTTCATAGCTCAACAACCTAAGGTT ACTGGTGATACTACTGGTCCTTTCATGGGTTCACATGTTAGCTCACTCTTGGACAATTCGCGAAAGCACAAGAAAGAAAT GGGTGATGAGTTTGTGTCTGTGGAGCACCTTTTGCTGGCTTTTCATTCAGATAAGAGGTTTGGGCAACAATTATTTAAGA ATCTTCAGCTTAGCGAGAAGGCCTTGAAGGACGCGGTACAAGCTGTTCGTGGAAGCCAAAGAGTGACTGATCAAAATCCT GAGGGGAAATATGAGGCATTGGACAAGTATGGAAGTGACCTGACTGAACTTGCTAGGCGTGGCAAGCTTGATCCTGTCAT TGGTCGAGATGATGAAATTCGACGCTGTATCCAGATATTGTCAAGGAGAACTAAAAACAATCCAGTTATTATTGGTGAAC CTGGTGTGGGGAAAACTGCAATTGCCGAAGGATTAGCTCAACGTATTGTGCGTGGAGATGTTCCAGAGCCATTGATGAAC CGAAAGCTGATCTCCCTTGATATGGGGTCATTGCTTGCTGGTGCCAAGTTTCGTGGAGATTTTGAAGAAAGATTGAAAGC TGTCCTTAAAGAAGTTACTGCATCAAATGGACAAATAATTTTATTTATCGATGAAATTCATACCGTTGTTGGTGCAGGGG CTACAAGTGGTGCAATGGATGCTGGAAACTTGTTGAAACCAATGCTCGGAAGAGGTGAACTTCGATGTATAGGAGCAACT ACATTGAATGAGTATAGAAAATATATTGAAAAGGATCCAGCACTTGAGCGTAGATTTCAACAAGTGTTTTGCTGTCAACC ATCTGTAGAAGATACAATATCCATTCTTCGTGGGTTGCGTGAGCGCTATGAGTTGCATCATGGTGTCAAAATATCGGATA GTGCACTTGTTTCGGCTGCAGTTCTAGCAGATCGATACATCACAGAACGCTTCTTGCCAGACAAAGCTATTGATCTTGTC GATGAAGCTGCTGCAAAGCTGAAGATGGAGATCACCTCTAAGCCTACCGAATTGGATGAGATAGACAGAGCGGTCTTGAA ATTGGAGATGGAAAAACTCTCTCTGAAAAATGATACTGACAAGGCATCTAAAGAAAGATTGAGTAAGCTTGAAAATGATT TGAGTTTACTTAAACAGAAGCAAAAAGAACTGACGGATCATTGGGACAGTGAAAAAGTGTTAATGACTCGGATAAGATCT ATCAAAGAAGAGATTGATAGAGTCAACCTAGAGATGGAAGCTGCCGAACGTGATTATGACTTGAACCGTGCGGCCGAGCT TAAGTATGGAACTTTGATGTCCCTTCAACGCCAATTGGAAGAAGCTGAAAAGAATCTAGTTGATTTCCGAGAATCTGGAC AATCTTTACTTCGAGAAGAAGTCACTGACCTTGATATCACTGAGATTGTATGTAAATGGACTGGTATACCATTATCAAAC CTTCAACAAACAGAGAGAGAAAAATTAGTTTCGCTGGAACATGTTCTTCATAAGAGGGTGGTCGGTCAAGACATTGCTGT GAAGTCTGTAGCTGATGCGATTCGCCGTTCAAGGGCTGGATTGTCTGACCCAAATCGTCCAATTGCAAGCTTCATGTTTA TGGGTCCAACTGGTGTTGGGAAAACGGAGCTTGCCAAGGCTTTGGCTGGTTACTTGTTTAACACAGAAAATGCTCTTGTT AGAATTGATATGAGTGAGTACATGGAGAAACATGCTGTCTCACGTTTAGTTGGGGCCCCTCCTGGTTATGTTGGTTATGA AGAAGGTGGTCAGCTAACTGAAGTGGTCCGGCGAAGACCCTACTCTGTGGTATTATTTGATGAAATAGAGAAGGCACATC ATGATGTCTTCAACATCTTGTTGCAGTTGTTGGATGATGGAAGAATTACTGATTCTCAAGGAAGGACTGTTAGCTTCACA AATTGTGTTGTGATTATGACTTCAAATATTGGGTCTCATCACATACTTGAAACCCTTCGTAGTACACAAGATGATAAAAT TGCAGTTTACAATCAGATGAAAACGCAAGTTGTTGAGCTAGCTAGGCAAACATTCCGCCCAGAGTTCATGAACCGCATCG ATGAATATATTGTTTTCCAGCCTCTAGATTCCAAAGAGATCAGCAAAATTGTGGAGCTTCAGATGGAACGGGTGAAGAAC AGGCTCAAGCAAAAGAAAATCGATCTCCATTACACACAAGAAGCCCTTGAACTTCTTAGTGTATTGGGTTTTGATCCCAA TTTTGGAGCAAGACCAGTTAAAAGAGTAATACAACAATTAGTTGAGAATGAAATTGCGATGGGAGTCCTAAGGGGAGATT TCAAAGAAGATGACTCAATCATTGTTGATGCTGATATGACTTCATCAGCCAAGGAAGGTCCTCCCCTTAATAGACTACTT GTTAAGAAGCTGGACAGCCCGGTTGCTGATGCCATGGTTGCCAATGACTAA
Protein sequence (LotjaGi1g1v0378600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MATRRTPSLTKSILTAATVSRTNPRRTPLSSLSRSAALLPPHTTNPLSRSPPTNVSSANFLSHSFTLSRSFHASTPSLRS AGTSQQVTPTEFTEMAWEGIVGAVDAARVSKQQIVESEHLMKALLEQKDGLARRIFTKAGLDNTSVLQATEDFIAQQPKV TGDTTGPFMGSHVSSLLDNSRKHKKEMGDEFVSVEHLLLAFHSDKRFGQQLFKNLQLSEKALKDAVQAVRGSQRVTDQNP EGKYEALDKYGSDLTELARRGKLDPVIGRDDEIRRCIQILSRRTKNNPVIIGEPGVGKTAIAEGLAQRIVRGDVPEPLMN RKLISLDMGSLLAGAKFRGDFEERLKAVLKEVTASNGQIILFIDEIHTVVGAGATSGAMDAGNLLKPMLGRGELRCIGAT TLNEYRKYIEKDPALERRFQQVFCCQPSVEDTISILRGLRERYELHHGVKISDSALVSAAVLADRYITERFLPDKAIDLV DEAAAKLKMEITSKPTELDEIDRAVLKLEMEKLSLKNDTDKASKERLSKLENDLSLLKQKQKELTDHWDSEKVLMTRIRS IKEEIDRVNLEMEAAERDYDLNRAAELKYGTLMSLQRQLEEAEKNLVDFRESGQSLLREEVTDLDITEIVCKWTGIPLSN LQQTEREKLVSLEHVLHKRVVGQDIAVKSVADAIRRSRAGLSDPNRPIASFMFMGPTGVGKTELAKALAGYLFNTENALV RIDMSEYMEKHAVSRLVGAPPGYVGYEEGGQLTEVVRRRPYSVVLFDEIEKAHHDVFNILLQLLDDGRITDSQGRTVSFT NCVVIMTSNIGSHHILETLRSTQDDKIAVYNQMKTQVVELARQTFRPEFMNRIDEYIVFQPLDSKEISKIVELQMERVKN RLKQKKIDLHYTQEALELLSVLGFDPNFGARPVKRVIQQLVENEIAMGVLRGDFKEDDSIIVDADMTSSAKEGPPLNRLL VKKLDSPVADAMVAND
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_GRAM_POSITIVE | 1 | 16 | 16 | - | – | |
MobiDBLite | 21 | 55 | 35 | - | – | |
PANTHER | 67 | 976 | 910 | 0.0 | – | |
PANTHER | 67 | 976 | 910 | 0.0 | – | |
Gene3D | 88 | 236 | 149 | 8.6E-32 | ||
ProSiteProfiles | 89 | 232 | 144 | 46.516 | – | |
SUPERFAMILY | 91 | 242 | 152 | 1.67E-37 | ||
TIGRFAM | 92 | 945 | 854 | 0.0 | ||
Pfam | 103 | 154 | 52 | 7.9E-13 | ||
Pfam | 182 | 231 | 50 | 6.1E-12 | ||
Gene3D | 243 | 433 | 191 | 1.3E-73 | – | |
SUPERFAMILY | 245 | 635 | 391 | 3.88E-100 | ||
CDD | 267 | 427 | 161 | 6.90316E-25 | – | |
SMART | 284 | 429 | 146 | 1.0E-9 | ||
Pfam | 290 | 423 | 134 | 1.4E-13 | ||
ProSitePatterns | 380 | 392 | 13 | - | ||
Pfam | 428 | 530 | 103 | 1.2E-34 | ||
Gene3D | 434 | 634 | 201 | 2.1E-69 | – | |
Coils | 498 | 518 | 21 | - | – | |
Coils | 520 | 547 | 28 | - | – | |
Coils | 558 | 578 | 21 | - | – | |
Coils | 585 | 619 | 35 | - | – | |
SUPERFAMILY | 636 | 942 | 307 | 1.51E-79 | ||
Gene3D | 639 | 860 | 222 | 6.7E-86 | – | |
CDD | 661 | 816 | 156 | 1.17189E-19 | – | |
Pfam | 686 | 855 | 170 | 1.9E-54 | ||
SMART | 687 | 828 | 142 | 2.3E-11 | ||
PRINTS | 691 | 709 | 19 | 1.3E-39 | ||
ProSitePatterns | 721 | 739 | 19 | - | ||
PRINTS | 736 | 754 | 19 | 1.3E-39 | ||
PRINTS | 765 | 783 | 19 | 1.3E-39 | ||
PRINTS | 798 | 812 | 15 | 1.3E-39 | ||
SMART | 862 | 956 | 95 | 2.8E-28 | ||
Pfam | 862 | 942 | 81 | 4.4E-22 | ||
Gene3D | 862 | 952 | 91 | 2.9E-24 | – |
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. | ||
Cellular component | Cytoplasm | All of the contents of a cell excluding the plasma membrane and nucleus, but including other subcellular structures. | ||
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. | ||
Biological process | Protein metabolic process | The chemical reactions and pathways involving a protein. Includes protein modification. | ||
Biological process | Protein refolding | The process carried out by a cell that restores the biological activity of an unfolded or misfolded protein, using helper proteins such as chaperones. |
Expression pattern of LotjaGi1g1v0378600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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