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Field | Value |
---|---|
Gene ID | LotjaGi6g1v0183800 |
Transcript ID | LotjaGi6g1v0183800.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Prefoldin subunit, putative; TAIR: AT1G26660.1 Prefoldin chaperone subunit family protein; Swiss-Prot: sp|Q54ND3|UXT_DICDI Protein UXT homolog; TrEMBL-Plants: tr|C6SY11|C6SY11_SOYBN Putative uncharacterized protein; Found in the gene: LotjaGi6g1v0183800 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:47681491..47691006) extracted from Lotus japonicus Gifu genome v1.2.
AAAGAACTAGAAGACACATAAAGTAAAGTGAAAGAGAGAATCTTTGACTAATGTAATGCCAACAACATCAAGCTTCATAA TTCAATGTCAAGTGGTCCACACATCCACACATTCAGAATACAAAATGGTTCTAAACAAAGCTTAAGTGGTCCAAATTACA TAAAAAACAACAGCAAACACTTCAACCCATGTGCTTCCTAAACGATATCAAAATGTGCACCCATGTGGTGTCAAAAGTAA TGCCAACAAACCACAAAATATTCCCACTTGGTCTGTTCACATTAAATATCTTTCAGCCCTCCATTATTGCTCCACAACCG AGCCCTTACTAACCACAACAACCTTCAACCCTCTCATTTAGCAACTTGAGATTGGAGTGCCTGCACAACTTGAGATGGCT CCTCTTGAACAGCAGCAGATCCACCAGCAGATCCACTTCCACCACCAACATTAGATGGCCCTGCTCCATGAACATAGTGC AATCTTGCCATGTCTTGATCCCATTGTTCCCTTAGCATGGCAGGTATTTCATCAAACTGGATCTGATGTTGAACAATATG AATATTAATCATTATTTTTGATGAGAAACTTGTAGATCTGTTTAAAATAAGACCACATGTTATAAGTTTACTTACATTTG CATCTTGTGTGGCATTGATGACCTGAGATGCATCCTCTTGTGTTTCAACTGGCTGAGATCCTTGTCCTGCTGCAACTGGA TCTTGTCCTGGTTCAGACCCTTGTCCTGCTTCTGGTTCTTGACTCTCCACTGGATTTGGGCATCTCCTTGAATTATGGCC ATGCTGACCACACCTACTGCATTTGTGTTTAGCAACAGTCCTGCTGAGTCTTGTGCTACCTAAATCTTCAAAGGGGTCCC TTCTTCTCAGCTTCTTAGGCCTTCCAGGCCCTCTCTTCTTTATGGGAGGAAGTATCTCAGGGTCATTTGTAGGCTGCCAT AACTCTTGGCCATTGATAGGAGTGATCTCATGCCCATATGTAGCTTCATATGCAGCTCTCTTATAGTATGGATGCACAAA ATCTTCTGGTTTCATCCTTTTACATGCTATGGCAGCCACTGCATGCCTGCATGGTATGCCAACCAAATCAAACAGATTGC ATGTGCATGAACTTTTGCTCAAGTCCACCACAAATCCCTCACCTGTTTGCAACATATTGCAGGATTAGGACAGCCATTAT CCATGAAAGTAAACAATGTGTATAAATTCTTATTGGAAACCATACCTGATACAATGTGCTTCACTTCAAACCTCCATTCT GAGGACATTGTTGGAAACCAATGAGAAGCCTTATCAGTCTCCCATGCTAACCTCCTCAAAGGCTTAGGCATTACCTCCCC TCTATACTTGTGAAACTTCTCCCTCAAGGTTGCAAACCTTCCCATCAAGTATGTTCTGATCCAGTCCATCATGGTCAGAA TTGGCTTGTCCCTTGCCAATAGAATTGTGGAGTTGAATGACTCTGACAAGTTGTTCATGAGCACATCACACTTGGGGTAG AAGGTGAAGTCATGCTTGCACCAAGTCCTGGTAGGTATTCCCATCATCCACTCCCATGCTGCATTATTTTGTTCCCTCAG CTCCAACATTTTTGCTTCCCACTGCTGGCGATAAGTAGCCTTTGCTGCTGCCATCATAATGTTTCTAATTACAACCCCAC CTCCAAACCTCTTTTTGAAGTTTGCATAAAGATGCCTCAAACAAAACCTGTGTTCAAATCCCTCCAAACAGCTCAGTAGC CCCTATTAGCATGTACGCAAGCAGAAATTCATAATCATGTAGTATAATGAAATAAGGATGAACATGATAACAAAGAAAGA TAAATTACTTTACCTTCTGTTGGTCAGATATGAAGATCCACCTTCTATCTGGACCAATATCAAGCAGTAGCAGATCAAGG AACCACTGCCAGCTTTCCTTGCACTCTGACTCCACTACAGCAAAAGCCAAGGGAAAGTTTTGGTCATTAGGATCCCTTGC TACAGCACATAAGAGAATACCTCCATACATTGTCTTTAGATGACAACCATCTAATCCAATAAAGGGTCTACAACCCTGAA GAAATCCCCTCTTACAACCTTCTAGACACATATAGAATCTGCCAAACCTAGGTTGTATGCTTCCAGCAGGATTCTCCAAC TGCATTTTGCATGTATTTCCTGCACAAACCCTCCTCAGTTCAGCACTGAATTTATATAGCAATGTGTATTGTTTGCTTGC ATCTCCCTCAACTATCTGCAAAGCAAGCTGTCTTCCCTTCCAAGCTCTATACCTTGTGATGCCAGTGGAAAAACCCAACC TCATCTCATCAACAACATCATTGAGCCTCATTGTCCTTGAACCCCTCAGTTTCTCCACCAATTTCTTAGCAACAAATTTG GAAGTAGCATTCTTATTGTTGAATACTCTGGCACAAGTATGAGGGCCACTCAATGTCTTAATTGCAAAATTTTGTCTCCC ACCCACTTTGCTACACATCATAACCCATTTACAATCCTTCTTGCAAGCAGCCCTAACCCTGGTTGTGTCATTTTTGGGGA AATAAATGTCCCTTCCCGTGAGAACAGCATGGTCCTTAGCAGCAACCTTAAACTCTTCCAATGAAATAAATTCCATACCT ACTCTAAAGTTAAATTCTGCCCTCATATCCTCATCATGAAACCTCATACTCCTGTTCCTCACAATAACATCATCATCATC ACCTTCAGACATACTATGTAACTCTTCATCTTCCCAAGTAGCCTCCATTTCATGGTCACCATCAAAAGCATCATCATATT GAGGAAGCACATTTTCTGCCCCACCACCATGTACTTCATAGGTACCTTCTTCCATTTGCCTTATCTGCTCATTTAACAAA GCTTCAGCAACACCAACTGGTATGCCTTCAAATCCGTCATCATTAACCTTTGCAGCTCTTTCCTCTTCACTATCACTGAA ATGTACAGAAGCTGTGGAATCCTCAGTGTCACTTGATGGATTGAAAGAATCATCATCTTCATATACATCATCAAATGTAG GATGTTTTCCATTCTTCTTTCCAGTAACAACCACATGCACATTGCCAACAGTTGGATCATTGGCAGCAACTCCATCAGCA ATGGGATCATTGGCAGCAACTTCATTTACATCTCCATTTGCAATGGCATCATTGTCACCACTAGCATCTACATTTGCAGC AGCATCTACATTACCATTATCAACAACGGTCTCCCTTTCATCATCACTATCTAGAAGCAACAATACAGGTAACCTCTTAT TGGACTTTGACTTGAGAACATTGCTTCTTATCCTATCAGACTTCCTCACTGGCAACTTGAATTTGGCAGGCCTCTTTGTT GGAGAAAATTTTTCAACACAAAAATTATCAAGACCAGGTAACTTCAGTGGTGCATCCACTTGCTTCTTGGATGGAGGTTT AAATGGCTGGTTTTTCTTCTTTGGAGGCTCCACAGCCACTTGCTTCCCCTTGTTCTTTGGTTCTTTTGCTTCTCCTTTCT TCTTTGTAGCCTCCACAGCCACTTGCTTCCCTCTCTTCTTTGAACCATCCAACTGCTTGTCCTTATTCTTTGGATCACCT GATTGAACTTTCTTGGCTTTCTTCTTTGAACCATCAAGTACCCTGAGGAGATCAATTGGAGTAGTTGGCAGTTCATCAGG AGCATGCTTAACAAAGAGATGTACTTCCCCCCTCTTTACAGCATATTTACCCAACTCTATTGCCTCTTTATCAGTGGACA AAGGCCTGAAATTGTGAATTGCAAAATCCTCGTCTTTCATCCAAAACACCTGGAACTTTCCTTTTGTATACCCCAGCTCA GCAACTACATCAAGACTCTCAAAATAACTCCACCTATCACTATCAGCATCCACAGTGTTTTCTTTGACATCTACGTAGTG CAACCTTGGCTCCTCAACAAATTGTCCAGAGTGATGAATAATGGCTTTGAAAGCCATCCTGATAGAAATGCAGATTAATT ACATGCAACATCATGATAGAAATAGAAAGGACAAAGGAACATAATGCTAACATTGGAGTCTACAAATTGATGAACAACAA CCCAATGCAAGAATGCATGACCCGACACAACCAAAGCCATACACCCTACCAAAATCGTAAGAACAGAGAGATAGGCAGAA ATAGAAACCAAGGTAGAAATAGAAACCATGTTGAGCTACAAAAGAGATAGGCAGAGCAGAGGACACACTAACCTTCGTCT CCGTCAATTCCAGTCGCCTTCCTCGCTGTCGCCGCTGTCAAAGTTCGTCGTCGCCGCCGTCAAAGTTCTTCGCTCTTCGC CTGGGATAGAAAGCTAGGTTTCAACTGAGAGAGATTGAAGGGTGGGTCGAGAGATGGGTGAATAGTAAGGGGTAAATGTC AAGTTTAGATTAGGTTTTAGGGTTAATTAGTTTTAGGATTATTTAGTTTAGTTAGGGTTAAATCAGAGGGCTTAATTATA ATTTTTAAAAGAATTTTTTTTTTATTTAAATGCCATGTCATTTCATTAAATGACGTGGCACGGCCACGTGCACGGCTGCC GGAGCTATACCGGCGGCAAGGACGGTTTCCGTACAAACACTTGAGTCTGAGGATGGGGTTAGGAAGATTTTCCGGCGAGG GACGGAAACCAGATCTCGCTCAAAGTTCAGGGACGGTGAACACATTTAACCCTATAATATAACTGTTCCAAAGCGAGTGA CAACGATATCTACAAAGAAAAAAAAAATGTTTGTTGTATAACTTGGAGTTGCCGTGTTTATATGACATCTTTCTTATTTA ATTTGTAGTATTTGACTGACTTCTAAAAATTGTTAGGGACCAGGGAGGAAAGAATGGTGAGGTATGGTTACACATGGATA CAAGACTGGTTTAAATTTTCCTTTAATAACATTATACTCTTTCCGTTCTTTTTTAACTGTTATTTTAGAAGAAATTTTTT GTTTCTATTTAACTGGCGTATTGATGTTTTAAGATCTATTTTGTCAATTATACCCTTACTAGTAAGTGAAAATTAAATTC TTATTACATCAATTCAAAGTCTTGTCTAATAAGTGGAAATTAAATTACAATGGAAGTACCCAAAAGAGCTTTCAAAGTTA CATAAAAAAATGTGTTGACGTCATTCATAATTGAAGAGTTAAAATTCTATAAAAAGGATTAGTAACAAACATTAGAATTA ACAAGTTCTAAATAAAAAAATGGGAGGGAAGTGAATTGTTTATTTCATTGGAATTGGAGGGAGGTTATAAATGTTTATTG CTACTAGGGAGAGAAAAATGATAAATGGTTTAATGATATGAGAGAGTGGAAAAAATATTAATTATCCACTATCTTGATTG GAAAACCATATAACTTCATGATTAGAATGTGAGATGGTAGAATGGAAAGAAAAAAAACTCAAATAACTCACTATCTTGGT TGGAGAACTTTTTACTAGAATGACACTTCAAAATGAACGGAATAAGTAATGATTTTATACAAAAGGGTAAAATGGTAATT AAACATATACTCATTCTTATCACTATTACTTTTCCTTTTATTATCTATTCTTTTTCTTTTAATTCAAATAACTTAAAAAC ACCTCATTTTTATCTTATATTCTTTTCTCTCATATTATTTCCATTCATATTCTTTCTTCTCATTTTTTTCTCTTCATATG AAAGTGAACATGTATTTTAACTGAAAATGAGTTCACAATACAACAAGAATTTGAAATTAGCAAATAAAAACTTTCAACAC TAGTTTCACTTAAAGTAAAATACATGTTCACATATAGAGTTTTAAGCTTTTATTTTCCGATGCATTATAAAAAGAGTTTT AAGCTTTGGATGTGAAACAGAAATGATAGGGAAGAAAATAAGAAAATTAAATAAAAGGAAGACAAAATGAATAGAAATTA AGTGAATTTAAGGAAAAGGAAGGGAAAATAAAAGGAAATCAGAGTAAAAATTTCTCTTCACTTGTTTGGATTGATGAAAA AAAGAAATGAGGATAAAAGTGCATATAATATATTATGACAATTTTACCCCTAGATACCATTTAAATTATTTATTTTGTGC ATTCAAAATGAAAGGTTAAGAAAAAAAAAACTAAATAAATAAAATGGGTAGTGGCACTGGACCTACTGGTTACTTTTTCT TTTCTCCAAAACCCCATTACTTGACGACGGAGCACGGTGCTTCACGACGGAGCTCCGCTGTAGAAGAAGGTTAACTGCGG TGTGAAGGGAACAAGGAGAACGAAGGAGGAACACTACACTGTCGTCATTCACCACCGTGGTATCTTTATCTATCTCACTG TCTTTCCTCAAATTTTTCGAAACATTATATGTGTTATTATCTTCCAATGAATTCAAGTAGCTAAAATAGAAGCAATTCAT TGTTTCATGTCCTGTGTGATCATCATGTTCCAGAAACTTGCTCTGTGTGTTTATTTGAATTATGAAGCAAATGGTTTTTT GTGATTCATTATATACATATATATACATATACAAGTATAACTGATGGATGATTCATAATTGGCTTGGCTTATGCTTTTAC TAGGACCCTTTTCAAATGGGTACCTTACGCCACGAAAAAGTTCAAAAATTTGAAGAATTTGTTGATAAGCGCTTGAAACC TGATATTCTTCATGCTATTGCTCAGAGGTAAACTGTTCACTCCTCTGGATTTTACATCAGGTTTCACAATCTTTACATAT TTATTTTTCTAATCTCTTTATATTGCAGGGACAAGGTCTTTGAACAACAGAAAACTTTGTATCCTTTTTCACTCTTTTAT CATATAGACTTATATTTTTTTTTAAAGAACACATTTCAAAATATATCTGATTCATGTGAAACATGGTATGTTACTTAAAG TCCGCTTTATCGATATTGCATTCAATGAAGGACCATTGTTATGCTTGACTTGTACCCCCTCAGTGCGGATTTGCGAAAAA ACATTGAAAACCTAGAGAAGAATAGTGTAACCAGTCTAAGAACTTTGGTCAATCTTGGGTCTGAGGTATACCTGCAGGCA GAAGTGTAAGTAATCAACCATTCTTCATGATTTCTTTTGATTGTTTTAAAGCACATTTGGATAATGTATATTATCAGTTT ATCACCAGTATGTGTGAACCATGTTGTTCCTTCATCATATGATCACTTTTATAATCATTAATCACCACCATTTTATACAA ATAATCTTTTAGCATCCTTCTTCACCATGTTATCTAACTAAGATTTGTGCTATATGGCTCTAATGTATACTCTCCCCTCG TCCCCCCTCCAGGATACAATTGGTATATTGAAGTTTAACCCTAGATCCTCCGACAAATTAATTGCTAGTGCTTTTCATCC ATAGACTTATTATTAGATCTTCCTTGTTTGGCCTTTAGTTCTGTGATATATACATCTCTTTCATATTTTTTCTACTTCAT CAAAACTTTACAGGCCCAATACAGAACACATATTTGTGGATGTAGGATTGGGATTCCATGTGGAGTTTACTTGGTCTGAA GCTTTGAAATACATAGAAAAAAGGGAAGAAAAGATAGCCAGGTATAAGCTTTTCATTTAACATATCTTGCTTACTTTAAA CTTGAAAGATTAGTCTGTTTATTATGGCCTTCCAGGTCTTCTATTTTGAAGTTTATGCAACAGTATGACTTGCTTCAATT ATTCAAATGACATCGAAATTGACTTTTAAATCGATTGCAGTCCAAGATTGTCATGTTTTTTGTCAAGCATACTCTAAAAT AACCACCATGAGTTTGGTTATCCATCTACATGGAGCACAATGCTAAAAATGGTTTTCTATTGTTGAACCAATCGTGAAGT TCCGGATTTTTTTTTGTGCGGATTAAATTGAACCAGTTAATAGTTATGCTGAAAATTGAACTGGTTCTTCCAGTTCATGA TTGGTTGGTTCAACAGTTTATCATCCAATTCTTAGATTACCAGTCTGATAGGCATGAGCAAACAAAGTTACGGCCTTGAA ATTGTTCCAGTTATGGTTTCTGTGTTGGTAAATTTCTCATGACCATTGTGGGCTAGTTTATCTCCATTATTCTCTCTTTT TTATGCCTTAAAATACTCAATTAATTTTCTTTTGGTTGAAAATGTTGTTGTATATTTAAACTTAAGGCATGGCTTCTATC ATGCAGGCAGATAGAGGAGTACACCCAGTTAATTGCATCAATTAAAGCCCAAATTAAGCTGGTATGTTCACGGTTTTCTT CAACTCTTTGGCTTCCTAATGCTTGCTACTTCATGCAATGCTTCTCATGTAAGGCATGTTGTTTGTCAAATAGATATTAC ATAATAGTCCATATGAGCCAGCCTACTTGGCTATCTCTAGTTCACATGAGATAGGGAAAATGCTCATGAACCCTAGCTTA GGTGGGTTGGGGAAAATGCTCTCAAAGTGCCAAAAGCTATCGGGGTTAAAAGCAGATATGTCGGGTTAGGGCCAACCCAT GGGTCAGCCCATTAAATTTTAAAAAATTAATACTCCTCTCAAAGGAGCTGGCCTTATGCATTAACAGTAAGCCTGCAGAT GTGCTATGCATGCCAATTATCAAGAGCAATAACTATGGATATTAAAATATGATCTAATTATTGTTGTATTTCTATTTGTA TTGATATAAAAAAAAAGTATAGCTACTATTTTTGAAGTATCCACGCTTCTTTGGTCGTTGCTATTGTTGATTGGTTAGCA TTTTAGCATATACATAGACTAGTTGCTAATCAGAGGGACAGCTCATATAAGTGATGTGCTAAATTTATTATTTAGTGGTT GGTCCTAACCCACTTCTCTTAGCTTTTCGGCCCTATGGGTTTTTTACCTTGACCAATATGGGCTAGGGCTTAGTGGGTGT GCAGGCCCATAATTATCGCTCTACTTCTGAGAGTATCAAGGTAAATGTTGGGTAATGTTTGACATAATTCTAAGATAATA TATGAAAGTTGTAATCTGTTTTATCCAAATAATAATGATTTTACTTGGGAGTTTCAAGAACTTTTCACTGTTTCAATGCA GGTTTGCGAAGGGATTAGAGAACTACTTGAATTTCCAGCAGAAAAACCCTTACCCGAGCGGATATTTTGATAGTTACTGT CTTACTGAGTATATACCAAATTGCTTAATCTTTGCAGTCACAAGTGCTATGGATAAGTGCAAATATGTGTGAATCCTGAC AGAGATTGATATTTCGCCAGTCTGGAAGACTGCATCTCTTTTGTGGCTTAAGTTGTCTTTCTAAATTCTAATTAATTCTT GTTGGTCATGTTGATTGTAAAGGATATGCATTTGCAATCACAAGAATTTGAATGACTAACCGTGAATAGTAGTAACATGC AAGGCATCCAAGTCCTCACATCTATGATTTTCTGTACTCAAAACTTGGAACTAAGTTTCTGCAAATGCTTATCTACAGAA CGAAGTGTGTGTTTGCAAACACATTCCAACTGATGATAACGTCCGTTTTTCTAATTCAACAATTTCTTCCGTCTCA
CDS sequence (LotjaGi6g1v0183800.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGTACCTTACGCCACGAAAAAGTTCAAAAATTTGAAGAATTTGTTGATAAGCGCTTGAAACCTGATATTCTTCATGC TATTGCTCAGAGGGACAAGGTCTTTGAACAACAGAAAACTTTTGCGGATTTGCGAAAAAACATTGAAAACCTAGAGAAGA ATAGTGTAACCAGTCTAAGAACTTTGGTCAATCTTGGGTCTGAGGTATACCTGCAGGCAGAAGTGCCCAATACAGAACAC ATATTTGTGGATGTAGGATTGGGATTCCATGTGGAGTTTACTTGGTCTGAAGCTTTGAAATACATAGAAAAAAGGGAAGA AAAGATAGCCAGGCAGATAGAGGAGTACACCCAGTTAATTGCATCAATTAAAGCCCAAATTAAGCTGGTTTGCGAAGGGA TTAGAGAACTACTTGAATTTCCAGCAGAAAAACCCTTACCCGAGCGGATATTTTGA
Protein sequence (LotjaGi6g1v0183800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGTLRHEKVQKFEEFVDKRLKPDILHAIAQRDKVFEQQKTFADLRKNIENLEKNSVTSLRTLVNLGSEVYLQAEVPNTEH IFVDVGLGFHVEFTWSEALKYIEKREEKIARQIEEYTQLIASIKAQIKLVCEGIRELLEFPAEKPLPERIF
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 | 3 | 143 | 141 | 2.3E-79 | – | |
PANTHER | 3 | 143 | 141 | 2.3E-79 | – | |
Gene3D | 6 | 141 | 136 | 7.2E-20 | ||
Pfam | 26 | 129 | 104 | 2.8E-22 | ||
TIGRFAM | 31 | 130 | 100 | 7.5E-18 | ||
Coils | 34 | 54 | 21 | - | – | |
SUPERFAMILY | 36 | 138 | 103 | 1.26E-18 | – | |
Coils | 106 | 126 | 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 |
---|---|---|---|---|
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. | ||
Cellular component | Prefoldin complex | A multisubunit chaperone that is capable of delivering unfolded proteins to cytosolic chaperonin, which it acts as a cofactor for. In humans, the complex is a heterohexamer of two PFD-alpha and four PFD-beta type subunits. In Saccharomyces cerevisiae, it also acts in the nucleus to regulate the rate of elongation by RNA polymerase II via a direct effect on histone dynamics. | ||
Molecular function | Unfolded protein binding | Interacting selectively and non-covalently with an unfolded protein. |
Expression pattern of LotjaGi6g1v0183800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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