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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0438900 |
Transcript ID | LotjaGi1g1v0438900.3 |
Related isoforms 4 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | T-complex protein 1 subunit beta; TAIR: AT5G20890.1 TCP-1/cpn60 chaperonin family protein; Swiss-Prot: sp|Q940P8|TCPB_ARATH T-complex protein 1 subunit beta; TrEMBL-Plants: tr|I1LRE4|I1LRE4_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0438900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:93416614..93426805) extracted from Lotus japonicus Gifu genome v1.2.
ATGGAGTCTCGGGAGAGTTTATTATCTCCACTAAATGTGCTGTATGATTTGGTCTTGCGCAGGCTTCTTTTGTTGGAGGC ATGGCTATCGCTGACTTGGTGAAGACTACCTTAGGGCCAAAGGGAATGGTAAGATCTCTGTCGCCCTCCTTCACACTTCC ATTGTATACAATTTTATTCTCTACTTCTGAGTCCTAACTAATTCATATTTTGTTGGATGTGATAACTGCAGGATAAAATT TTGCAGTCAACAGGCAGAGGACATGAAGTTACTGTCACTAATGATGGTGCTACAATCTTGAAGTCTCTGCATATTGATAA CCCAGCTGCTAAAGTCCTTGTCGGTATCCTTATCATTTTTAATTGTTGTGATGAAAAAATCCATAGGAATACATACCAAG ATGCACTTACCTCCTTCTCAAATCCACAAAAAGTTTAGAAAAATGCTATGATACGGTTCACCACTGAATGGAATTTGCCA ATGTGCTGCTGATCTATTCATGAATCAAGATAGCAATCCTTAATGTAAACTAGACATATCAAAAGTTCAAGATGATGAAG TTGGGGATGGAACCACATCTGTTGTTGTATTGGCTGGGGAACTTTTAAGGGAGGCAGAAAAGCTGGTTGCAGCTAAGATT CATCCCATGACAATAATATCAGGTTCATTTCTATGATTTTTAACATTGGCTCAACTTGCCTTATGATGCAAATTTGTTTC ACGTTTTCATGGTGACAAATTTTAGTAACAACTATATTGACTATATTGATTCACATTCTGAGTGCTAGGAAATTTTACCT CATAAGTAACTTACATTGGTAAAGAAATCAATAATTTCCTTTTTGTGTATCTGTTATTAGTTTGTATTTTGTATAGTTGG TATTTCTTTAAGGGTGATATTGAACAAATAAATATAGGCTCTATATTTGGGTTCCAGTTACGTTGACGTAACTCCAACAA AGGGTAGATGCCACTTTCACATTTCCAACATTGGGAAGTCTTTCCAAGATAAAATAGAAGTACGTTGAGGCTAATCCAAA CATATACATAGAAGTTAATTTTTTGCTCTTAAAATGTATTCATTCCATGTGATTGAAGGGTGGTAACAGAAGCAGTCTAT GAAAAAAATTAATTTTCACTCTCTTGCTTTCATTCCAAAGCTTCCTTATATATACTTAGTTTGGTTTATGGACTGTTCCT CCTTCCAGAAATATGAGTTAAAATGAGCACAAATTGTGGGAAGCCTAAAAACTTACAACCATAATATTTTGATGGTGATG TTTTGAAAACCCTTTACAATTCTGATGGGTTTTGCATGAATATGTTTTGCTACTTTGTTTCAAATGATTTTGTTTCCAAT GATGTCCTTGTTACTGTTGCAAACCCGAGAACCAGGCCCAGGTTTGGCAACGTCTACAATAGGAGGCCCGAGATGATGCC AGCAGGATCACCTAATGATCACTCTTCTAGAATGTAGAATTCCTAAATAACCTCCTGGTGAGGTGGCAGCAATCAAGAGG GGAAGGGGGGACCATTGTACCAGCTGAGAGAATATAATTTAGTTATGGAGAGAGTATTGTTTTTTAGGCTGGAATTGGCT AGGACTAGGAGAGAAGGAGCACTCTCGAATTTGCTCATCTTTGTCTTTTCATTTCCTTTGTTATTTGCAATTCCCTAAAC ACTGCTTCTGGAATTTCTCCAGAGGATTTAGTGCTATCTAATACATTTGCATTCTCAGTTCAGTGTTATTTTCTGGTACC TAACATTGGTATCAGAGCTCCCGATCCAGAGGGAGCTTGTATGGTGCTTACCCGCAGCGCCATGGAATCTCGAGTTGACA GTCTTGAACGCACCATCACTGAGATGAAGGAGGTGGCTCACGAGCAGTTTGAGGAACTCCGGCGACTCTTCATGAGCCGC GACCGGAGGAGAACCAGAGGACGCTCCAACACCCCTCGTCATAGGAGGACTTCGCGGGATCCGGGTTCCGTTTCTACCGT AAGAACACACGGTGGGTCACGAACCGGGTCGCGAACCGGGTCGCGTTCTACAACATGCAGCCGCGAGCGTTTCGAACCCC ACCATCATCGTAGTCATTTGAGAGCGGTGACTGGAAGGAGGGTAGACATTCCAATGTTCAATGGTGAAGACGCTTACGGG TGGCTCACCAAGGTTGAGAGATTTTTCCGCCTCAGCAGAATCGAGGAGGGAGAAAAAATCGAACTCGTGATGATTGCTAT GGAGGAGCGAGCTCTGAGTTGGTTTCAATGGTGGGAGGAACAAGCTCCTATGCGTGCTTGGGAACCCTTCAAGGAAGCTC TGATTCGTCGTTTCCAACCTGCTTTGGTTCAGAATCCCTTTGGACCTTTGCTTAGTGTAAAACAGAAGGGAAGCGTGATG GAATACAGGGAGAGCTTTGAGCTATTGGCAGCACCGATGAGGAATGCTGATAGAGAGGTGTTGAAAGGCGTTTTCCTGAA CGGGTTGCAAGAAGAGATTAAGGCAGAGATGAAGTTGTATCCTGCAGAGGATTTGGCAGAGTTAATGGACAGAGCTCTTC TGTTGGAAGAGAAAAATCTGGCAGTAAAAGGGGGTAAAAGTAGAGAGGATGGCAAAAGGGGATGGAAGGAAAAAGGGGGT GGGGGAGGGAGAAATTTCTCTAGTTATGGGGAAAACAGGGGAAGATTTCCTAGTACTGCAGTGGGCTACCAGGGTAAAGA AGGAGCTGGAAATCAGGATAATGAAGGGAAAAATCCTATGAACAAGGGGAATACTGGGAATCAGGTGCAGGAGGGAAAAC ACCAGAGAGAAGATGGAATGGTGGGCAGAGACTTTCCCAATCTGAGTTGCAGGAGAGAAGCAGGAGGGGGTTGTGCTTTA AATGTGGGGAAAAATGGGGAAAAGAGTACATCCTTGCAAAGAAGAATTACCAGTTGATTTTGGTGGAAGAAGAAGAAGAA GAGGTGTTTGAGGAAGCTGAAGATGGAGAATTTGTGCTGGAAGGCAAGGTCCTACAGCTGTCACTGAACAGTAAGGAAGG ACTGACTTCAAACAGATCTTTCAAGGTGAAAGGAAGGATTAAAGACAGGGAAATTCTGATCCTTATTGACTGTGGAGCCA TAAGTAATTTTATTTCCCAGGAACTAGTAGCAGAGCTAGAAATCCCAGTCATAGCAACTTCTGAGTATGTGGTGGAAGTG GGAAATGGTGCCAAGGAGAGAAACTCTGGGTTGTGCAAGAACTTGAAACTGGAAGTTCAGGGCATACTAATCACCCAACA TTTCTTCATTCTCGGATTGGGGGGAACTGAGTTAGTTTTGGGAATGGACTGGCTAGCAAGCTTGGGGAACATCAGGGCAA ACTTCCAGGAACTCATAATTCAGTGGGAGTCAAATGGACAGAAGTTGGCACTACAAGGAGAACCATCCTGGTGTGAGGTT GCAGCTGACTGGAAATCAATTAAAATGACAGAACAGAGAGAGGCTGAGGGGTATTTTTACTCTTATGGCTGTTTGAGTGA AGAACCAAGAGCAGAAGTTAAGACATCAGATGCGTTAAAGAGAGTGTTAGCTGAGTTCCCTGTTGTGTTCCAAGAACCAC AAGGATTGCCCCCAAAGAGAGACACTGACCATGCCATTTTACTACAAGAAGGAGCCACTATTCCAAACAGCAGACCTTAC AGGTATCCTTTCTACCAAAAGAATGAAATTGAGAAGTTAGTTAAAGACATGCTGAAATCAGGGATTATTAGACCTAGCAC TAGCCCTTTTAGCAGTCCTGCAATTTTAGTAAAGAAAGAAGATGGTGGATGGCGATTCTGTGTAGACTATAGAGCCCTAA ACAAGTTTACAATTCCTGATAAATTCCCAATACCTATTATTGATGAATTGTTAGATAAGATAGGGTCAGCCATGGTCTTT TCTAAATTAGATTTAAAATCAGAGTATCATCAAATAAGGATGAGGGAAGAAGACATACCAAAAACAGCTTTTAGAACCCA TGAAGGGCATTATGAGTACTTGGTTCTTCCATTTGGGCTGTCTAATGCACCATCTACTTTCTAAGCACTCATGAATCAAG TTTTGAAACCTTATTTGAGGAAATTTGCTCTTGTATTCTTCGATGACATATTAATCTATAGCAAGACTGAAGAGTTGCAT ACAGAACATCTGAGGATAGTATTGCAAGTACTGAAAGACAATCACCTAGTGGCAAACAGGAAGACGTGTTCTTTTGGGCA GTGTGAGATTGCCTACTTGGGACATATTATCTCTAAAGAAGGAGTTGCAGCTGATCCAAGTAAGATCAAAGATATGCTAA ATTGGCCAATTCCTAAAGAGGTAAAAGGGTTGAGGGGATTTCTGGGATTGTCTGGATACTATAGGAAGTTTGTGAAGAAC TATAGTAAATTGGCTCATCCCCTAAATCAGTTACTAAAGAAAAATAGTTTCAGCTGGAGTATGGAAGCAACCAAAGCTTT TGAGAAGCTTAAGGAGGTCATGACAACAGTACCAGTGCTTGCTGTTCCCAATTTTGATAAAACATTCATCTTGGAAACTG ATGCCTCTGGGAAAGGATTAGGAGCTGTCCTCATGCAAGAGGGAAAGCCTGTAGCCTACATGAGCAAAACCTTATCAGAC AGAGCCCAAGCCAAATCAGTCTATGAGAGAGAGCTGATGGCCGTAGTATTTGCTGTTCAAAAATGGGGGCACTATCTGCT GGGCAGCAAGTTCATCATACACACTGACCAAAAGAGTCTGAGGTTTTTAGCAGAGCAAAGGCTAATGGGGGAGGAACAAC AGAAATGGGTATCCAAATTGATGGGGTTTGATTTTGAGATAAAATACAAACCAGGAATTGAAAATAAGGCAGCTGATGCT TTATCAAGAAAGATGCAATTCTCAGCAATTTCATCAGTACAGTGTGCAGAATGGGAAGATTTGGAAGCTGAAATCTTAGG AGATGACAAGTACAGAATGATCATGCAAGACTTGGCCACACAAGGTCACACTACAGCTGGTTATAAATTGCACAGAGGAA GGCTGTTATACAAAGACAGAATAGTCATCCCTAAAGGATCTGGGAAAATTCTCACAATTCTCCAGGAATTTCATGATTCT GCTATTGGAGGCCATGCAAGTATATTCAGAACATACAAGAGGATTTCAGCCCTTTTCTTCTGGGAAGGAATGAAGTTGGA TATTCAAAACTATGTCCAGAAGTGTGAAGTGTGCCAGAGGAACAAATATGAGGCTCTAAAACCAGCTGGTTACCTTTAGC CATTACCTATTCCTTCTCAGGGGTGGTCAGATATCTCCATGGACTTTATTGGAGGGTTACCTAAGGCTATGGGAAAGGAT ACTATCTTAGTTGTGGTAGACAGATTCACAAAATATGCACACTTCTTTGCACTTGCTCACCCTTACAATGCAAAGGAAGT AGCTGAGTTATTTATAAGAGAAGTGGTGAAATTACATGGATTCCCCACTTCTATTGTCTCTGATAGGGACAGAGTTTTCC TTAGCACCTTCTGGTCAGAAATGTTCAAACTAGCAGGAACAAAGTTGAAATTTAGCTCAGCTTACCATCCCCAAACAGAT GGGCAAACTGAAGTGGTCAATCGTTGTGTGGAGACCTATCTGAGATGTGTGACAGGGCTAAAACCCAAGCAGTGGCCCAA GTGGTTATGCTGGGCAGAATTCTGGTATAATACAAACTGTCATTCAGCAATCAAAACCACTCCCTTCAAGGCTTTATTTG GGAGGGAGCCTCCTGTAATCATCAGGGGAAATGATTCCTTGACTTCAGTGGATGAAGTAGAGAAAATGACTGCTGAAAGG AATTTGATAATTGATGAATTGAAGGAAAACTTAGAGAAGGCACAGAATAGGATGAAACAGCAGGCCAACAAACATAGGAG GGATGTGCAGTATGAGGTTGGGGATTTGGTGTATCTCAAAATACAACCTTACAAACTCAAGAGTTTAGCCAGGAGGAAGA ACCAGAAACTGAGCCCTAGATATTATGGACCCTTTCCAATCATAGAGAAAATTAATCCTGCAGCTTACAAGTTGAAGCTA CCAGAGGACAGTCAAGTGCATCCAGTTTTCCACATTTCCCTGCTCAAGAAGGCTTTGAATGCAGGAGCAACCAGCCAACC ACTACCTGTCTCTCTCACTGAAGACTGGGAGCTCAAGGTTGAACCAGAATCAATTCAAGACTCTAGAGCAAAAACTGATG GAGACCTAGAGGTATTAGTGAGGTGGAAGGACTTGCCGGAATTTGAGGATTCCTGGGAAGATTTCAACAACCTACTGGAA CAATTCCCAGATCATCAGCTTGAGGACAAGCTGATTCTTCAAGGAGGGAGAGATGTTGCAAACCCGAGAACCAGGCCCAG GTTTGGCAACGTCTACAATAGGAGGCCCAAGATGATGCCAGCAGGATCACCTAATGATCACTCTTCTAGAATGTAGTATT CCTAAATAACCTCCTGGTGAGGTGGCAGCAATCAAGAGGGGAAGGGGGGGACCATTGTACCAGCTGAGAGAATATAAGTT AGATATGGAGAGAGTATTGTTTTTTAGGCTGGAATTGGCTAGGACTAGGAGAGAAGGAGCACTCTCGAATTTGCTCATCT TTGTCTTTTCATTTCCTCTGTTATTTGCAATTCCCTAAACACTGCTTCTGGAATTTCTCCAGAGGATTTAGTGCTATCTA ATACATTTGCATTCTCAGTTCAGTGTTATTTTCTGGTACCTAACAGTTACTAACATGATTGTCCTTGATATTATTGGTTA TGATATATAGGTTTCCGAATGGCAGCGGAGTGTGCTCGTAATGCATTGTTACAGAAGGTGGTGGACAACAAAGCAGATGC CGGTATTTAGTTTTTTTCTTATGATGGTGTATTTTTGGAATTCTATTGTCTGCTCTATAGCCTTTTAACACATTGTCATT GTTATAGAAATGGAAATAGGGTTTAGATATAGATCCTCTATTTTAAATTAGTATTTAGTTTCTCTATTATAGATTAGTAT GTATTAAGATAGAGATAGATTTAGTTTTTATCTCTTTGGTATGTTATAAATTGTACAAGTATATTGATAAAATACACACA CAAATATTTTCATCAGATTCAATTGTTATAATCATCAATCATCATTGTTGTTACACACTTAGCAGGGCCAGGTATAAAGG CATTCTTGTGTCTTAATATCTAAAACATGAATATACTGTAATATGCAGAGAAATTCAGATCAGACTTGATGAACATTGCA AGGACTACTTTGAGCTCTAAGATTCTCTCACAGGACAAGGAGCACTTTGCAAAATTAGCTGTAGATGCTGTCATGAGACT GAAGGTGAACTGTGGCTAATTTCTGAATGCAGATTTCAAGCCTGCTGGATTTAGCTAATTGTGTATTATTTGTAGCAAAG TATTCTCCTTTGGACCATGCGTGCAAGAACATGAGCCTAGATACATCAGATTCAATTTAGACTTTTAGTTAGAAATTAAA TTACAAAGCTTATCCTACAATTTTATAATCCATTTTTGCAACAGGCATGGGGCTTTGTGAATTTGTTCCCATCCTTAATC ATCTTTTTTTATATGATTTGATATTAGTAAGTTTGGAATGCTTTGTCAAATCATTCACTGAAATAATGCGGTAAATTTGG TGATTGTTGCTGGGCCTGGGTTATAGCGGACTTTTATTTGGAGCATGGGGTTTTGACTATCTTTAAAATTGTCTAAAAGT ACAGAATGTTTTTATTCAGTTTTTGTAGTCCTATACAACCCAAGGATTTTATATAGTGATTTGTATTGTTACAAAGTTAA CTATGTCTTTTCCTGTTTTCATTTCCTTGTATCTTGCTTTTTAATGGTAATGCTTCAAATTGCAGGGAAGCACTAATTTA GAAGCAATCCAGATTATAAAGAAACCAGGAGGATCACTAATAGACTCATTTTTAGATGAAGGGTAATGTTAATGAAATCT TGAATTAGTTTTTAGTTTGCAAAACTTCCCTGAATCTGGTGTTTTTTATTGTGTTGAGTTGCATAGGCACTCTTAAAGGA TTTTGTATAAACTCTAATGATTATAAACTTGCACTGTCCTGTATAACAAAACATTTTCTTGATATGTTATTTATTTTCAG CATTCTCATAATTGTAATAGTCTTGGTAAAAAACAATCTTTATGAATTGGATTATATTTTTGTATAGATTCATCCTTGAC AAGAAAATTGGTATTGGACAACCCAAACGCATAGAGAATGCAAAGATACTGGTTGCAAACACTGCTATGGACACAGACAA GGTGAAGATATATGGTGCACGCGTTCGTGTGGATTCAATGTCCAAAGTTGCTGAGATTGAAGGAGCTGAGAAGGAGAAAA TGACAGAGAAGGTGCAGAAAATAATTGGTCATGGTATCAACTGTTTTGTTAACAGACAGTTGATTTACAATTTTCCAGAG GAGCTCTTTGCTGATGCTGGAATATTGGCTATTGAGCATGCTGATTTTGATGGTATTGAGCGACTAGCCCTGGTGACTGG TGGTGAAATTGCATCTACCTTTGACAACCCTGAGTCTGTTAAGCTTGGGCATTGTGATCTTATTGAGGAAATTATGATTG GCGAGGATAAACTGATTCATTTTTCTGGTGTTGCAATGGGCCAGGCATGTACAGTAGTTCTGAGAGGCGCTAGGTACTTC TTATTCTTCTCTTGAAAATACCTTTCCAGTGTTGTTCTAGACTTCTAGTACACTTTCAGGTATTTAAACTTGTTGGTATA TTACTTCAAGTCATCCCTATTCTTCCATGAGGTTTTCATATTCTGGCTGTAGGATTTGCTTGCTTTGTTTTGTACTTTTG TTCCTGTCAATTATAATCACTATCTGTTCATGGTGGATCATAGTACTTAGTATTTAGTATGGGTTACGCTGTTTCCTTGA TGATCTTTTGAAAGTTTAAATCCAGAATCCTAGAAAAAAAATTCCTTTCAGAATCTTAGATAAATATCAACTTACAAAAA CTGACTATATTATCAAATGTTTATTGTAGGCAGTTGGACTATATGTTACTTGTTTTTATGCGTGCTTTCATATAAAATTA TTTTGCGCTTTCATGTATGATTATGTTAAACTATTTTACAACTTTATGTTGCCCTGCTCTTTTATTGTTTCAGTGATTGC ATAGTGGGCTGGCATGTATAAGAGTGTTTTCTTTGGATGAGTAGTCTTGTGTTTTTCAACAGACTTGAATGAATTTTTTG TTTTTATGTGTGCTTTTAGTTTGACATATCCACTTGTGTTGCAGCCACCACGTTCTTGATGAGGCCGAGAGGTCATTGCA TGATGCCTTGTGTGTGCTATCCCAGACTGTCAATGACAGCAGGGTGGTTCTTGGAGGTGGGTGGCCTGAGATGGTGATGG CAAAGGAAGTTGATGAATTAGCTAGGAAAACCCCTGGAAAGAGGTCTCTTGCTATTGAGGCGTTTTCACGGGCACTCTTG ACTATCCCAACAATAATTGCTGATAATGCTGGTTTGGACAGTGCTGAGTTGATTTCTCAGCTTCGGGCAGAGCACCAGAA GGAGGGGTGTACTGCTGGAATTGATGTCATCTCTGGTTCTGTAAGTACTGAGACTGAGAATTGGGTGGATTTATTTGAAT GAGCACAATTTTTGAAATACTAATCCTAATGTATAGGCCATTTTTTCCTTTTCTCTGGGGTGGGTTGCTATGGAATTGAC TCTTGCAGGAACTTATTTGACTTGATTATAATGTTTTGCGGCTGTCTTTTCATATGGGTAGGATATCTATTTCTAATATT CCCATTTACTGGTAATGTCAGTGATTTTTGGGATCTGAAGTGAAATGACTAATTGAAATTTCCAAGTATCTATCTGCTTC TTACATTCATTTCCAAGGTTTATGTTAGCCCTAGAAAAGTATCCTATAGGCTGCTAGCTCGCCATGCTTTCTTTCTATTT TCAGTTTGGCTTAACATACTCTGACCTTTGTTGTATTTCTGGAAGGTTGGAGACATGGCTGAACGGGGAATATGTGAAGC ATTCAAAGTCAAGCAGGCTATATTGCTATCTTCAACGGAGGCAGCTGAGATGATCCTTAGAGTTGATGAAATCATTACAT GTGCTCCAAGGAGGAGAGAAGACAGAATGTAA
CDS sequence (LotjaGi1g1v0438900.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTATCGCTGACTTGGTGAAGACTACCTTAGGGCCAAAGGGAATGGATAAAATTTTGCAGTCAACAGGCAGAGGACA TGAAGTTACTGTCACTAATGATGGTGCTACAATCTTGAAGTCTCTGCATATTGATAACCCAGCTGCTAAAGTCCTTGTCG ACATATCAAAAGTTCAAGATGATGAAGTTGGGGATGGAACCACATCTGTTGTTGTATTGGCTGGGGAACTTTTAAGGGAG GCAGAAAAGCTGGTTGCAGCTAAGATTCATCCCATGACAATAATATCAGGTTTCCGAATGGCAGCGGAGTGTGCTCGTAA TGCATTGTTACAGAAGGTGGTGGACAACAAAGCAGATGCCGAGAAATTCAGATCAGACTTGATGAACATTGCAAGGACTA CTTTGAGCTCTAAGATTCTCTCACAGGACAAGGAGCACTTTGCAAAATTAGCTGTAGATGCTGTCATGAGACTGAAGGGA AGCACTAATTTAGAAGCAATCCAGATTATAAAGAAACCAGGAGGATCACTAATAGACTCATTTTTAGATGAAGGATTCAT CCTTGACAAGAAAATTGGTATTGGACAACCCAAACGCATAGAGAATGCAAAGATACTGGTTGCAAACACTGCTATGGACA CAGACAAGGTGAAGATATATGGTGCACGCGTTCGTGTGGATTCAATGTCCAAAGTTGCTGAGATTGAAGGAGCTGAGAAG GAGAAAATGACAGAGAAGGTGCAGAAAATAATTGGTCATGGTATCAACTGTTTTGTTAACAGACAGTTGATTTACAATTT TCCAGAGGAGCTCTTTGCTGATGCTGGAATATTGGCTATTGAGCATGCTGATTTTGATGGTATTGAGCGACTAGCCCTGG TGACTGGTGGTGAAATTGCATCTACCTTTGACAACCCTGAGTCTGTTAAGCTTGGGCATTGTGATCTTATTGAGGAAATT ATGATTGGCGAGGATAAACTGATTCATTTTTCTGGTGTTGCAATGGGCCAGGCATGTACAGTAGTTCTGAGAGGCGCTAG CCACCACGTTCTTGATGAGGCCGAGAGGTCATTGCATGATGCCTTGTGTGTGCTATCCCAGACTGTCAATGACAGCAGGG TGGTTCTTGGAGGTGGGTGGCCTGAGATGGTGATGGCAAAGGAAGTTGATGAATTAGCTAGGAAAACCCCTGGAAAGAGG TCTCTTGCTATTGAGGCGTTTTCACGGGCACTCTTGACTATCCCAACAATAATTGCTGATAATGCTGGTTTGGACAGTGC TGAGTTGATTTCTCAGCTTCGGGCAGAGCACCAGAAGGAGGGGTGTACTGCTGGAATTGATGTCATCTCTGGTTCTGTTG GAGACATGGCTGAACGGGGAATATGTGAAGCATTCAAAGTCAAGCAGGCTATATTGCTATCTTCAACGGAGGCAGCTGAG ATGATCCTTAGAGTTGATGAAATCATTACATGTGCTCCAAGGAGGAGAGAAGACAGAATGTAA
Protein sequence (LotjaGi1g1v0438900.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAIADLVKTTLGPKGMDKILQSTGRGHEVTVTNDGATILKSLHIDNPAAKVLVDISKVQDDEVGDGTTSVVVLAGELLRE AEKLVAAKIHPMTIISGFRMAAECARNALLQKVVDNKADAEKFRSDLMNIARTTLSSKILSQDKEHFAKLAVDAVMRLKG STNLEAIQIIKKPGGSLIDSFLDEGFILDKKIGIGQPKRIENAKILVANTAMDTDKVKIYGARVRVDSMSKVAEIEGAEK EKMTEKVQKIIGHGINCFVNRQLIYNFPEELFADAGILAIEHADFDGIERLALVTGGEIASTFDNPESVKLGHCDLIEEI MIGEDKLIHFSGVAMGQACTVVLRGASHHVLDEAERSLHDALCVLSQTVNDSRVVLGGGWPEMVMAKEVDELARKTPGKR SLAIEAFSRALLTIPTIIADNAGLDSAELISQLRAEHQKEGCTAGIDVISGSVGDMAERGICEAFKVKQAILLSSTEAAE MILRVDEIITCAPRRREDRM
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 | 499 | 499 | 0.0 | – | |
TIGRFAM | 1 | 496 | 496 | 3.9E-258 | ||
PANTHER | 1 | 499 | 499 | 0.0 | ||
CDD | 1 | 495 | 495 | 0.0 | ||
Gene3D | 2 | 489 | 488 | 1.3E-188 | ||
SUPERFAMILY | 2 | 492 | 491 | 7.98E-78 | ||
Pfam | 3 | 490 | 488 | 8.9E-151 | ||
PRINTS | 5 | 21 | 17 | 1.0E-32 | ||
ProSitePatterns | 8 | 20 | 13 | - | ||
PRINTS | 29 | 47 | 19 | 1.0E-32 | ||
ProSitePatterns | 31 | 47 | 17 | - | ||
ProSitePatterns | 59 | 67 | 9 | - | ||
PRINTS | 59 | 78 | 20 | 1.0E-32 | ||
Gene3D | 115 | 372 | 258 | 1.3E-188 | ||
SUPERFAMILY | 125 | 372 | 248 | 2.35E-27 | ||
SUPERFAMILY | 179 | 345 | 167 | 1.47E-43 | ||
Gene3D | 184 | 336 | 153 | 1.3E-188 | ||
PRINTS | 340 | 362 | 23 | 1.0E-32 | ||
PRINTS | 374 | 386 | 13 | 1.0E-32 |
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 | Cytosol | The part of the cytoplasm that does not contain organelles but which does contain other particulate matter, such as protein complexes. | ||
Cellular component | Chaperonin-containing T-complex | A multisubunit ring-shaped complex that mediates protein folding in the cytosol without a cofactor. | ||
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. | ||
Molecular function | Unfolded protein binding | Interacting selectively and non-covalently with an unfolded protein. |
Expression pattern of LotjaGi1g1v0438900.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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