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Field | Value |
---|---|
Gene ID | LotjaGi2g1v0264100 |
Transcript ID | LotjaGi2g1v0264100.2 |
Related isoforms 6 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | ATP-dependent chaperone ClpB; TAIR: AT5G15450.1 casein lytic proteinase B3; Swiss-Prot: sp|Q9LF37|CLPB3_ARATH Chaperone protein ClpB3, chloroplastic; TrEMBL-Plants: tr|G7KLS1|G7KLS1_MEDTR Chaperone protein ClpB3; Found in the gene: LotjaGi2g1v0264100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:73346757..73357132) extracted from Lotus japonicus Gifu genome v1.2.
TTTATCAGTGCTAATTTTTAATTTTGCTAAATGTTGATGGAAATTTTAAGTAAAAATTAAAAATTAATGAAGGTCAAAAT CTTCTTTGATTTCATTACTAAACATTGAGGAAGAGAGAATATTGATTTGATATAGAAGTTTGTTAGACATGTGCCACAAC AATGAGGAAGAGATAATTCAAGTTCATTTGTAATTATGGTGATCTGAGTTGTTTGTAATATTGGGTCGACGCATTGGAGC TTCAGAGGTGTAGTGGTATGTGGTTGATATTGGATTTTGTTGCAATGGCAGATTACGCAGCAGGAGTTCACGGAAATGGC ATGGCAAGCAATTGTCGCATCACCAGAAGTGGCAAAGGAGAACAAGCATCAGATTGTGGAGACAGAGCACTTGATGAAAG CTTTGTTAGAGCAAAAGAATGGGCTTGCTCGCCGGATCTTTTCCAAGGTTGGGGTAGATAACACTCGGCTTCTAGAGGCT ACTGATAAGCATATTCAGCGGCAACCCAAGGTGATTACCCAAGTCAAATAATTCGAATTCCTTCAAATATGCTTTGGTTC TTCTAGTTATGTGAATGTCTTTAGCTTGTTATAGTTGTCTTACTTCCTTTTTAATAGCGTTCATTTTAAGTGTGTTATTT TATTGGTTTTTCCCATATTTTTGCAACCTTTTTTAAGCTTGTTATAGTTGGAAGGAAATAATGGGGGAAGTAATATCAAT AGAATTTTGTTTTTGGAATGACTTAAATTGCGATGAAACTGGTATAGCAACATTACATAATGATTTACAGCTGTTGGCTG TAGATTAGATCCAGTATTTACTGGACTCTGGATCCTTGAGATGGTTCTGCTATAATAGTTGCCCCTGATAATTTGATTTT GAATTCCTAAGAACACTGAACACTATTAGATGTCATTATATGGCTTTGAGCAGATGCCAAATGCAAATTATATGGAGCAA ACAGATGGACAGTCATTGTTTCTTTTGCGATGCTTATAAATTATTGTACTTTATTAGCTGGTTGAGTAAACTACCACCCA AGAAACTGATTAATTATTGAACTCTTGTCAAATTATGTTAGGTTCTAGGGGAAACAGCTGGTGCAATGTTGGGGCGTGAT TTGGAGGCATTGGTTCAGAGAGCCAGGGACTTCAAGAAAGAATATGGGGATTCATTTGTGTCTGTTGAGCACTTGGTTCT TGGTTTTGCCCAGGATAAACGATTTGGGAAGATATTGTTTAGAGATTTTCAAATATCTCAGCAAGCTCTAAAATCTGCCA TAGAGTCCATAAGGGGACGCCAGTCAGTTATTGACCAAGGTCATTTACTATTTATCTGCTTTTGTAATTATAATCTATAA TATATAATGGACAATAATGTGTGCTTTTCCTGTTCCGGGGAGTTGTTAATTGTCTGCCATTGGATAGTGCTGTTAACCTG TGGATTCAGATTGTCCTTTTCTTTTTCATGACCTTTTAGAGATATACATTATATTTTCATTCTAAGCATCTTGTTGTGCT TACGTGCTTAAGCTCAATTTTGACTTGCTATAGATCCTGAAGGAAAGTATGAAGCCTTGGAGAAATATGGGAAAGATTTG ACAGCGATGGCCAAAGCAGGAAAGCTTGATCCAGTCATAGGAAGAGATGATGAAATACGCAGGTGCATTCAAATTCTCTC CAGGAGAACAAAGAACAACCCTGTGCTAATTGGTGAGCCTGGTGTTGGAAAGACTGCAATTTCTGAAGGGTAAGTTTTTC TTCCTTATAACTGTAGCCTATGTTTGTATTCCTGTTTAGGATTTATAGAGTTCGTATGTTTTTTGAATTAAAGTCTACAG GCCACAAGTATTTGTTACCTGAATTTCATGTGATAACATGCTTCATAAATAGAAGAATGACACCCGCAATGTAGGCGAGT GTATTTGTGTGATGGTACAATTCTTTCTATATTTCAAAACAAGATAGGGTTCATTGTAGAAAAGATGCAACTCTCCTCTT TAGGTGGGTTGGGCATGTGTGGGGAGACTAGTAGAAGCACTAGTAAAAGGGTAGCTAGTCCAAGAGGTAGAGGTGGAGGA GACCAAGAAAAATATTACGTCAAGTCATTAAGAGAGATTCAGATTTAAATGGTCTAAACAATAAACATGATTCAAGGTAG GACATTGTGACATTCTTTGATCCATGAAGAAGCTCATCTAGTGGAAAAATGTTTTGCCTGTTGTTGTTGTATACTACTCC CTCTGTTCCTAAATATAAGACCTAGTTTCAAAATTTTGAAGTTCCTAAATATAAGACCTAGTTACAATAATCTAACAAAA GGTTTTGTACTCTTCCATTTTTACCCTCCACATTAATTATATATTTTCAATTCCCAAGTTTTGATGACCACTTACCATTA ATTAGTGAGAGAAAATGACAAAGGGTAAATATGGAGGAATGTATGCATTTTTAAAAAACCAATACACTAATTGAACACAT TTAATGTTTTCTTAATAAGCGCAATTTTTTGTATTAGGTCTTATATTTAGGAACGGAGGGAGTAGTATTTTAAGTAACAA AAGGTAATAGATGGGAAGTGGTTTTGGTTGTTGTTGTGCTGTGTAAATATAATATTTACAAAGAGAAGTTCCTTAAAAGT AGGAAGTGCTGTAGGTGCTCCTTTTTTTTGAAATAATAACAATAGCCGCATCATGTTAGATGATGTGGTTCATAATTAGA AACCTTGCAGTACGCATGGAGATTGATGCCACTGATATTTTTATAAACCAAAGGTCCAGTTCTTTTCATAAATTTTTTGT AGGACGAGCAGATCTAATACACGTGTTAGAAACCTTAAGCTTTTGGGATAGTTGGTTCATGACATAGTATCAGAGCCTCA ATGACCAACTGGTCTAGAGTTTGGTCCTTCTTGCCCCCATTATTCAAATAAAAAGTTGATTTTCAGCGTATGGTAGGTGG GCCTGTGCATTGTTCACGCTTCAAGCCTAATGTGCTCTTGCGTGAGGGGGCATGTTTGAAAGATGCTTTTGGGATAGTTG GTTCATGACAACTTGCTTGTGTGTGCCTTATGTGGGTTTTTTTTTCTTTCATTAATATGTTCTGCATATTGATCTAACTC TTCCTTTGAAACAGACTTGCTCAGAGAATTGTTCAAGGAGATGTTCCTCAAGCTTTGATGAATAGAAGGGTATATGATTT ATCCTATTAGGCTACTGTAATATTCTTGATATCACTGAATAGAAGAAAAGGGGCAAGAAGGGGACCGTGGGATTACAATG ACTTGCTTTTTAATTTTTTTATAGGAACTGCATATATTGAATGTAGAAAAACACAAGGTTGCTGAGTAATTGGAGAGACT CAGCCACTCTTCCGAAGTCCCAAACCCCAAATGATCCGAAAGATAACAATATTCACCCTAAACTCTGTATTTATAGGCAA CATGCCTCACTCACTAACCCCCCACTAATTAATAAACTCTCACTAATTGAGCATGTCTAACAATTTTCCTCACATTTTCG CTGTATTGGTCTTTATTATACCCTCTACAACTCCTGCTCTTATATCCTTTAATGTGTTCTATAAGAATGTAATATTTATC TTGTTTTATTCTCCTTTTTGAATTGTGACTTGGCCAGGAGTTGTAAACTTGATCTGATTATTCTTGTCATTTTTTCAGCT TATATCACTTGATATGGGAGCACTTATTGCTGGAGCAAAATATCGGGGAGAATTTGAGGATAGGCTGAAAGCTGTTCTCA AAGAAGTAACAGAATCTGATGGTCAGACTGTTCTTTTCATCGATGAGATTCATACGGTTGTTGGGGCAGGTAATGGGATT TAAAGTTTTCCATTTAAAGGCAGCTGATGTTTTTGGTATTTAAAATCTGTTTGAAGGGTCTAGACAATTGTTCTCTATTT CTTTTGACTTCTGTTTTTGTAACGCCCCGATTTCTCGAGTGTTACACAGTAACTAATTAACCAATTTTCGTAAAGAGTTT TCGTCGATTCACTTATTAATCTTGAATTAATGATAAAAGTTCAATTTTACAAAATTCTCGAAACTTAACCATTTCAAACT TGCGGAAATAAACATCAACCTAAACCTCAAACTTTATTAATCATTGAAAAGAGTATGAAATAAATATCCGGAAGAAAACT TCAAAGTAAATTACATCAAGTTAAACTATCTCAACTAAAATAAAGTAATGGTTCAATACTTCCAAAACTCGGTACTCTCA ACCCAAAAGAAAAATGGATGTCTCACAACCCAACCATATCCTTGGCCCCTTCCTCTTTATCTTCTTCCTCTTCATCAGAA GTGTAGTCGTCCTCCGGTATTGGCACGTCACATAGCATCAACTCCCAAGAATGAGTCATCGCCATTATCTTCACGACCAT CTACCCCCCCAAATAAACACATAGCAAACAAGCAGGGTCAGGTCCAACAAAAAGAATGATAATGACAAAATCAACAACAA CATATATAATATAAGTACATTATATGTCTTTTATGGGAAAGAGTCAGTTACTAACGGAATCTCACTTCACACAACCCACC AAAACTTCCATGGCCATCTTCGTGCTTCCGCAGAGGCACGGTTATCACGGTGACCGCAGTCAACCAAATCACGTGGAGCC GCAATGATCCACAAAAGTTCACGGTGACCGCAGTCAACCAAATCACGTGAAGCCACACCGGCCCACAAGGTTCACGGGAG ACCGCAGTCAACCCAAATAACTCCCTCGCGTGCAAGGTACCATCGTTCTCATGGACCATAGTCTACCTGACCTATGTCCA AATTATTCACATTTACTTGCAAGCGAGTTTATTACACTTTTCTCTTTGTTAAGTCTCTAAAGTCAATCCTAGAGTCTTAT CATACTCTTTATACAACAACCTTCACAACACAACATTCACGGGTTACAAGGGAATTACGGCTAGGTGAGCGACCCTTGAA CCATTAACTGAGAAAATAAATATAATCCACGTAAAGGAACGCAAGAACATTCACTCATGCATAATATATCATCGCAACTT CAACATATTGACAGCAGAAACAACTTTCACAAAAATAGAGCCACAGAATGCATCTTTCAACCAAAAATCACGTATGATAC CTTTCTAGAAAGCTATTTTAAATATCTACAACTCTCTAGTTACACACTTGTTCATTTGAGTCCTATAATTAGGTGATATT AGGCCTTAAAGCTAACTGTCCGGAACAGGAAAAACAGCAGGTGTGACAGTTACTAAACACGACCCCCAGATCACATTACT AAACCAAAAATTATGTTCTTTATATGCATAGAAAGCCAATTCGAAAATCTACAATTTTCCAGTTTATCCCTTTTTCATTT GAGACCCCGAATTAGGTGTAATTAAGCTCCAAAACTCGCTGTCCAGTACAGGAAACTGGCAGAGATACTTTTGCCTTCAA ATTAATTTTTCAACCATTCAAGTCCCAAAGTTTTAAACCATATTCCAGCAGCAAGAACCACATATCATATATCATATATC ATGCTTAAATTTCCAGAACCAAGATAACCATCAATTCTAGCACAAAAGGCAGATCTAAGCATATAAATCTTCAATCATTT TAATCAAGCAAAGTCATAGAAGAAACGGTAGTTGTAGTGATGATTAATGGAGAATCATGGCATCAACATTTCATCTCAAA TCAGAAGCAAAACATCAAGATCTCAAGGCAGAAAAAAAACAGCAAGCATCATGAACATAAAACTCTTGCAAAAGCAATCA TGTTCATGGCTTTTCTCATAGTAAAACATGGCAAATACCCTAGGCAATCTACCCAATCCTAGGACCAGCCCTTACCTTTG TCCTTAGGCTTGAAGAAAAGATGAAATTGAAGAGCAACGTTCTGGTTTCTCTCCTCTTCTCCCACGCGTGACCTTCCTCT CTCCCTCTCGCTCGCGAACTCCTTCTCCCTCTTGTGCGAACACGTCGACGGTGGTGGGGCTTGGGACGGTGACGGCTAGG GTGCAAGGGGAAAGTTTCTCTCACTCTTTCTCCTCTGTTTTACGTGTTTCAGAAGTGCACCAGGTTTCTTTCTTCAGAAT AGTGTGAAAAGAAACCCCTTTTCCCCCCAAACCCCTACATAGCCCGCGTCCCCTCTCTCCCTCTCTTGGGCTAGGGTTTG TTTTCCTTCAAGCCCGACCCAAGTCAAAACCCTTGACCCCATCACTTAAGAACTTACTCAGGTCTGAAACTAATCAAAAC CCTCAGCCCTTTTTAGTAATATCACGATCACACTCGGAATTGAAAGGAAACAAAACAATTAAATTCGCTGGTACTGTACA GCCAGGACCATCGTCACTAAACCGATGATATCTCGAGCTACAGAGGTCGGAATGACCTGATTCCACTTCGAGAATTTTCT AGACTTAAAGGGCTACAACTCTCATGAAGGAAGTTTTCCCAAATGAAGTCGTTAAGACCCTCTAAAAATTCACCCAAGTT GACAGTTCAAATCTGCCAGTTATCAAACATAGCCAAAAACTTCAATTTTATTCAAACTTCCATAAAATTTGTTCCAAGTT GAACTTAGGGCCTTACAGTTTTTCTCTCTCTCTAGCACATGATTGGCATATGAAAACTCTTTAGATCAATGAATGTTCAC AATTCACATCATAGAATACGATACGTTTCAATTCATTTATTTTCGTAACATGTTGCATATAGTTTTAGTTGAGGCCTGCA AATGGTGACTTGAAATTGATGTTGAATTTTAATTTGATTGCTATTATAATCTATCATATGCTAGGTGCTACAAATGGTGC TATGGATGCTGGTAATCTCTTAAAGCCTATGCTGGGTCGTGGAGAGCTGCGATGTATTGGTGCGACAACATTAGACGAGT ATCGGAAGTATATTGAGAAGGACCCAGCATTGGAGCGTCGTTTCCAGCAAGTTTTTGTTGACCAACCTTCAGTTGAAAAT ACCATTTCAATATTAAGAGGACTGCGGGAAAGATACGAGCTACATCATGGAGTTCGCATTTCTGATAGTGCACTTGTGGA AGCTGCAATTCTCTCAGACCGATACATAAGTGGGAGGTTTTTGCCTGACAAAGGTAGTAACTACTAGAAACAAACTCTAG TAAATAGTTACTGTTTTAATATCATGAAACCTTATAAGTTTTGTAAGAATGAGGTTTGGATTCTTGATTTGAACATTTTC ACTTATTTAAGCGTGCAGTATGAAAATATGTGACTTCAATAGAGGGATTATGTGAAATTTACATATGTCTGTTAAAGGAC AAGTCATTGCTGTTGCTCGTGAAGCTGTGGGAACACCAATGCTAAGGGAATATAATATCATCATGTTTAAAGAATAAATT TTGTCAAGTGTTAATTGAAATTGTTTTGTCAAGATCTTGAAAGCTAAATAGCACTTCCAAACTGGTGGGAATATGCACAT AACATGAGTCTATATCATTTTCAAAAGATTGCATTTGAATTATCAATATATAGCTGAGTTTGATTATTTTTTTAAATCTA ACTTGTTGAAATTGTTATTGGAAGTATATCATAATATCATTGTTGAATATTAGAATATCTGAAAGTATCTTGGATGGTCT CTTATGAGTGGTTTCCATATTTCATTATATCCTCATTTTATTAGGATTAGGAGTCTAGTACTGGTATAAGTAAGGGTTAA TACTTAATATATTTTCTTTTGTATTATCAAATCAATATCAATTTCAGAATATTCATAAGCTTACTCTATCTTTTACTTAC CCTCTATCTTAATCCTTGTAATTTTAACAATTAATGTTAAATTGTTGCATTTTCTTAGTAGACTGGCATCAATGAGCACT AATTGCTAGCTACTTCTAAATTACAGCTATTGATCTGGTTGATGAAGCAGCTGCTAAACTGAAGATGGAAATTACTTCTA AACCTACTGCACTTGATGAGATTAATCGGTCAGTCTTGAAACTAGAGATGGAGAGACTCTCTCTCATGAATGATACAGAC AAGGCATCTAAAGATAGGTTAAATCGTCTTGAGACAGAACTCTCTCTCTTAAAAGAGAAACAGGATGAACTGACAGAACA GTGGGAGCATGAAAAGTCTGTGATGACTCGTCTTCAATCAATTAAAGAAGAGGTGACTTTTATAAATGTTGCTACAGGCG GTCTTCCCTCTTTATTAATATAAGTGCACTTTTAAAGGATTAGCAGTGTGAATGTAGCTTTTTGCTTGGTTTCCTTACAT TGAACAATTAGTGCAGGTGTACATGTTTATTTAGTAATTATGCATAGCAGCATAGGGATGAATAATTTGTATAAAATATG ATTTTTATGAATTGGAAGATGAAAACCTGATTCTGATAATTTCCATATTTGCTAATGCAGATAGATAGAGTAAATCTTGA GGTTCAACAGGCTGAACGGGAGTATGATCTTAATCGTGCTGCTGAATTGAAGTATGGCAGTATAAACTCCTTGCAACGAC AACTGGAAAGTGCAGAGAAGGAGTTACATGAATATATGAACTCTGGCAAGTCTATGTTGAGAGAGGAAGTTACAGGCAGT GATATTGCTGAAATTGTAAGCAAGTGGACTGGTATCCCCATTTCAAAACTTCAACAATCAGAGAGAGAGAAGCTGTTGTT TTTAGAGGATGAGCTCCATAAACGTGTTGTAGGTCAAGATCCTGCTGTCAAGGCTATAGCTGAGGCAATTCAACGGTCAA GAGCAGGTCTTTCAGATCCCCATCGCCCAATCGCCAGTTTCATGTTCATGGGACCCACGGGTGTAGGAAAGACAGAGCTA GCCAAGACCCTTGCTTCCTTCATGTTCAATACAGAAGAAGCACTTGTACGAATTGATATGAGTGAGTACATGGAAAAACA TACAGTTTCGAGATTGATTGGGGCTCCACCTGGATATGTTGGGTATGAAGAGGGAGGGCAGCTAACAGAGACAGTTCGCC GCAGACCATATGCGGTAATTTTGTTTGATGAGATTGAGAAGGCACACTCAGATGTTTTCAATGTATTCCTTCAAATTTTG GATGATGGAAGAGTAACCGATTCACAGGGTCGCACCATAAGTTTTACCAACACTGTTATCATCATGACCTCAAATGTTGG ATCTCAGTACATTCTCAACACAGATGATGACACTGTGCCCAGTGAGTCCAAATATGAAACCATGAAGCTGCGGGTAATGG ATGCTGCAAGATCTATCTTTCGCCCTGAGTTCATGAACAGAATTGATGAGTATATTGTCTTCCGGCCTCTAGACCGTGAC CAAATAAGTAGCATTGTCAGGTTACAGGTAATTCCACCCCCACTGATCCATTCATGATCAGACTCCCCCCCTTATATCCT GTGAAATGACTTAAGTCTATGTTGATAATGAAAGCCACATAAAATGCTGGTTAGAATTATTTTTATAAATTTAGGATGCA TGGGTCAACTTGCATTTTCTTTAAACTAGTCTGAGATTAAGTTGATGCACTGCCAAACTTTGTGAAGCTTGATCTTAAAA TATTAACACCCAAGTTCCTACTGAAATAAGATGCATTGTTTGCACTTTTTTTGTACGATTTCTACCGTATATTGGGCTGT TATAACTTTTTTTGTACATTCTATATAGAACGCTAAAAGCTTTTAAGCACACATTCTTTCATTGCTAAGTTTCCCTAGAT CTTATTTCTCATATATTGGGCTGTTAGAGAGTAGTGTTCATGTTAACTGTCACGTGTCTGGTGTCTTTGTTGTACTGATG TATTAAGTTACTAGGTGAAGAAATAGGAAATCTGTCAACTTCATTAACTCTTCTTCATTCGAATGTTTACTAGTAACTGT GTTGCATGGTATTTTGCATCCCAAAACTCACTTTTAAAGTACATTACAGTTGGAGCGCGTGCAGAAGAGAATCGCAGATC GCAAGATGAAAATCCAAGTAACAGAAGCTGCTATCAAACTTCTTGGAAATTTGGGGTATGATCCAAATTATGGTGCCAGG CCAGTGAAACGAGTGATTCAGCAAAATGTGGAGAATGAACTTGCCAAGGGTATTCTTAGAGGAGAGTTTAAGGATGAGGA CACAATTTTGGTAGACACAGAAGTTACAGCATTTGCCAATGGTCAACTTCCCCAGCAAAAGCTAGTGTTTAGGAGGGTTG AGACCGACTCTAAATCCACTGCTAAATACAGCCAGGAACCACAAATTCTGTGAATGCATTTTACTGTACCTTTTTATCAC ATGCTTAGTTTCACACAAATTTTGAGTATATAGATCCTTTTCTTATACCAATGAGAACTCTGATCATGTGTATAATAGCT TGCATAATATTTAAAGTTCTTGATTTGATAATTTTTATTGGTCCAGTCTGTCGTAA
CDS sequence (LotjaGi2g1v0264100.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCATGGCAAGCAATTGTCGCATCACCAGAAGTGGCAAAGGAGAACAAGCATCAGATTGTGGAGACAGAGCACTTGAT GAAAGCTTTGTTAGAGCAAAAGAATGGGCTTGCTCGCCGGATCTTTTCCAAGGTTGGGGTAGATAACACTCGGCTTCTAG AGGCTACTGATAAGCATATTCAGCGGCAACCCAAGGTTCTAGGGGAAACAGCTGGTGCAATGTTGGGGCGTGATTTGGAG GCATTGGTTCAGAGAGCCAGGGACTTCAAGAAAGAATATGGGGATTCATTTGTGTCTGTTGAGCACTTGGTTCTTGGTTT TGCCCAGGATAAACGATTTGGGAAGATATTGTTTAGAGATTTTCAAATATCTCAGCAAGCTCTAAAATCTGCCATAGAGT CCATAAGGGGACGCCAGTCAGTTATTGACCAAGATCCTGAAGGAAAGTATGAAGCCTTGGAGAAATATGGGAAAGATTTG ACAGCGATGGCCAAAGCAGGAAAGCTTGATCCAGTCATAGGAAGAGATGATGAAATACGCAGGTGCATTCAAATTCTCTC CAGGAGAACAAAGAACAACCCTGTGCTAATTGGTGAGCCTGGTGTTGGAAAGACTGCAATTTCTGAAGGACTTGCTCAGA GAATTGTTCAAGGAGATGTTCCTCAAGCTTTGATGAATAGAAGGCTTATATCACTTGATATGGGAGCACTTATTGCTGGA GCAAAATATCGGGGAGAATTTGAGGATAGGCTGAAAGCTGTTCTCAAAGAAGTAACAGAATCTGATGGTCAGACTGTTCT TTTCATCGATGAGATTCATACGGTTGTTGGGGCAGGTGCTACAAATGGTGCTATGGATGCTGGTAATCTCTTAAAGCCTA TGCTGGGTCGTGGAGAGCTGCGATGTATTGGTGCGACAACATTAGACGAGTATCGGAAGTATATTGAGAAGGACCCAGCA TTGGAGCGTCGTTTCCAGCAAGTTTTTGTTGACCAACCTTCAGTTGAAAATACCATTTCAATATTAAGAGGACTGCGGGA AAGATACGAGCTACATCATGGAGTTCGCATTTCTGATAGTGCACTTGTGGAAGCTGCAATTCTCTCAGACCGATACATAA GTGGGAGGTTTTTGCCTGACAAAGCTATTGATCTGGTTGATGAAGCAGCTGCTAAACTGAAGATGGAAATTACTTCTAAA CCTACTGCACTTGATGAGATTAATCGGTCAGTCTTGAAACTAGAGATGGAGAGACTCTCTCTCATGAATGATACAGACAA GGCATCTAAAGATAGGTTAAATCGTCTTGAGACAGAACTCTCTCTCTTAAAAGAGAAACAGGATGAACTGACAGAACAGT GGGAGCATGAAAAGTCTGTGATGACTCGTCTTCAATCAATTAAAGAAGAGATAGATAGAGTAAATCTTGAGGTTCAACAG GCTGAACGGGAGTATGATCTTAATCGTGCTGCTGAATTGAAGTATGGCAGTATAAACTCCTTGCAACGACAACTGGAAAG TGCAGAGAAGGAGTTACATGAATATATGAACTCTGGCAAGTCTATGTTGAGAGAGGAAGTTACAGGCAGTGATATTGCTG AAATTGTAAGCAAGTGGACTGGTATCCCCATTTCAAAACTTCAACAATCAGAGAGAGAGAAGCTGTTGTTTTTAGAGGAT GAGCTCCATAAACGTGTTGTAGGTCAAGATCCTGCTGTCAAGGCTATAGCTGAGGCAATTCAACGGTCAAGAGCAGGTCT TTCAGATCCCCATCGCCCAATCGCCAGTTTCATGTTCATGGGACCCACGGGTGTAGGAAAGACAGAGCTAGCCAAGACCC TTGCTTCCTTCATGTTCAATACAGAAGAAGCACTTGTACGAATTGATATGAGTGAGTACATGGAAAAACATACAGTTTCG AGATTGATTGGGGCTCCACCTGGATATGTTGGGTATGAAGAGGGAGGGCAGCTAACAGAGACAGTTCGCCGCAGACCATA TGCGGTAATTTTGTTTGATGAGATTGAGAAGGCACACTCAGATGTTTTCAATGTATTCCTTCAAATTTTGGATGATGGAA GAGTAACCGATTCACAGGGTCGCACCATAAGTTTTACCAACACTGTTATCATCATGACCTCAAATGTTGGATCTCAGTAC ATTCTCAACACAGATGATGACACTGTGCCCAGTGAGTCCAAATATGAAACCATGAAGCTGCGGGTAATGGATGCTGCAAG ATCTATCTTTCGCCCTGAGTTCATGAACAGAATTGATGAGTATATTGTCTTCCGGCCTCTAGACCGTGACCAAATAAGTA GCATTGTCAGGTTACAGTTGGAGCGCGTGCAGAAGAGAATCGCAGATCGCAAGATGAAAATCCAAGTAACAGAAGCTGCT ATCAAACTTCTTGGAAATTTGGGGTATGATCCAAATTATGGTGCCAGGCCAGTGAAACGAGTGATTCAGCAAAATGTGGA GAATGAACTTGCCAAGGGTATTCTTAGAGGAGAGTTTAAGGATGAGGACACAATTTTGGTAGACACAGAAGTTACAGCAT TTGCCAATGGTCAACTTCCCCAGCAAAAGCTAGTGTTTAGGAGGGTTGAGACCGACTCTAAATCCACTGCTAAATACAGC CAGGAACCACAAATTCTTCTGTCGTAA
Protein sequence (LotjaGi2g1v0264100.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAWQAIVASPEVAKENKHQIVETEHLMKALLEQKNGLARRIFSKVGVDNTRLLEATDKHIQRQPKVLGETAGAMLGRDLE ALVQRARDFKKEYGDSFVSVEHLVLGFAQDKRFGKILFRDFQISQQALKSAIESIRGRQSVIDQDPEGKYEALEKYGKDL TAMAKAGKLDPVIGRDDEIRRCIQILSRRTKNNPVLIGEPGVGKTAISEGLAQRIVQGDVPQALMNRRLISLDMGALIAG AKYRGEFEDRLKAVLKEVTESDGQTVLFIDEIHTVVGAGATNGAMDAGNLLKPMLGRGELRCIGATTLDEYRKYIEKDPA LERRFQQVFVDQPSVENTISILRGLRERYELHHGVRISDSALVEAAILSDRYISGRFLPDKAIDLVDEAAAKLKMEITSK PTALDEINRSVLKLEMERLSLMNDTDKASKDRLNRLETELSLLKEKQDELTEQWEHEKSVMTRLQSIKEEIDRVNLEVQQ AEREYDLNRAAELKYGSINSLQRQLESAEKELHEYMNSGKSMLREEVTGSDIAEIVSKWTGIPISKLQQSEREKLLFLED ELHKRVVGQDPAVKAIAEAIQRSRAGLSDPHRPIASFMFMGPTGVGKTELAKTLASFMFNTEEALVRIDMSEYMEKHTVS RLIGAPPGYVGYEEGGQLTETVRRRPYAVILFDEIEKAHSDVFNVFLQILDDGRVTDSQGRTISFTNTVIIMTSNVGSQY ILNTDDDTVPSESKYETMKLRVMDAARSIFRPEFMNRIDEYIVFRPLDRDQISSIVRLQLERVQKRIADRKMKIQVTEAA IKLLGNLGYDPNYGARPVKRVIQQNVENELAKGILRGEFKDEDTILVDTEVTAFANGQLPQQKLVFRRVETDSKSTAKYS QEPQILLS
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 | 1 | 876 | 876 | 0.0 | – | |
Gene3D | 1 | 142 | 142 | 1.9E-31 | ||
ProSiteProfiles | 1 | 138 | 138 | 45.26 | – | |
PANTHER | 1 | 876 | 876 | 0.0 | – | |
SUPERFAMILY | 2 | 148 | 147 | 9.71E-35 | ||
TIGRFAM | 3 | 851 | 849 | 0.0 | ||
Pfam | 11 | 60 | 50 | 6.8E-15 | ||
Pfam | 86 | 137 | 52 | 1.9E-9 | ||
Gene3D | 149 | 339 | 191 | 7.4E-75 | – | |
SUPERFAMILY | 151 | 541 | 391 | 4.0E-99 | ||
CDD | 173 | 333 | 161 | 6.85064E-23 | – | |
SMART | 190 | 334 | 145 | 1.4E-9 | ||
Pfam | 195 | 328 | 134 | 2.9E-13 | ||
ProSitePatterns | 286 | 298 | 13 | - | ||
Pfam | 334 | 436 | 103 | 1.3E-33 | ||
Gene3D | 340 | 540 | 201 | 3.3E-71 | – | |
Coils | 426 | 453 | 28 | - | – | |
Coils | 464 | 525 | 62 | - | – | |
SUPERFAMILY | 542 | 848 | 307 | 2.08E-81 | ||
Gene3D | 545 | 765 | 221 | 7.7E-87 | – | |
CDD | 567 | 766 | 200 | 1.18617E-16 | – | |
Pfam | 592 | 760 | 169 | 1.0E-56 | ||
SMART | 593 | 768 | 176 | 1.6E-8 | ||
PRINTS | 597 | 615 | 19 | 2.4E-40 | ||
ProSitePatterns | 627 | 645 | 19 | - | ||
PRINTS | 642 | 660 | 19 | 2.4E-40 | ||
PRINTS | 671 | 689 | 19 | 2.4E-40 | ||
PRINTS | 704 | 718 | 15 | 2.4E-40 | ||
SMART | 767 | 861 | 95 | 6.2E-34 | ||
Gene3D | 767 | 864 | 98 | 7.9E-28 | – | |
Pfam | 767 | 846 | 80 | 2.2E-25 |
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 LotjaGi2g1v0264100.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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