Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi1g1v0060400 |
Transcript ID | LotjaGi1g1v0060400.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | 50S ribosomal protein L20; TAIR: AT1G16740.1 Ribosomal protein L20; Swiss-Prot: sp|B6IPJ8|RL20_RHOCS 50S ribosomal protein L20; TrEMBL-Plants: tr|I3T7U6|I3T7U6_LOTJA 50S ribosomal protein L20; Found in the gene: LotjaGi1g1v0060400 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:8405746..8415286) extracted from Lotus japonicus Gifu genome v1.2.
GCCCTATATTAACTCCGTTTGGATTAGCTCAATAGGGTTCACTTTGTCACCAACACTCTCACTCTTCACAGCCTCTCTCG TCGGACACAGATCGCCGCCGCGCCTCCGTGCTTCCGGCCACCACCGCCGCCGCCTTCATCAGTGACCTACCAAGCGGAAA TCACCAATTACAGCAATCTCACAAGGTTAACTGTTGTTCTCATCGCTTGATTTTCATTGAATTTTGTCGACAATCCAAGT TTTGATGGAAATGGTGAATTGTGATTGCAGGGTAGAAAATGAATAAGGATAAGATTTTCAAGCTGGCAAAGGGGTTTAGG GGAAGAGCGAAGAATTGCATAAGAGTAGCAAGGGAGAGGGTCGAGAAGGCGCTGCAATATTCCTACAGAGACCGCCGCAA CAAGAAGAGGGACATGCGTGGCCTTTGGATTCAGCGGATCAATGCCGGTACCCGCCTTCATGGTGTATGTATTCGATTTC ATTTTCCTGTTGAGTTTCCACTCATTATCATGATTTTATAGTTACATGATTTAGTTAAAAATGATCTCATTATCGATAGT ATGAGTATCCCTCGCAATTTAGTTTTTGATCGAGCTCAATGGCGTAGTGTGATCCATATAGTTAACCTCAATTAGTGAGA TAAGACTTTTAATGGCGTTCGATGATGTAGTGTGATCCATATAGTTGACCTCACTTAGTGGGATAAAACTTTTGTTGTTG TTGTTGTTAATTTTACAATTACATGAAATGATGGAAATACTAGTTATGAGGGTAAATGTGTCAGGGCATGCATGTTTGGT TTCACGGTTTGCATAGAATTTAAGGAATGTTTAGACAGAAGCTAAGAATTGTAGGTTTAAAATATTTTCTCAAACCAAAC AAAGCTTATATGTCCTATTGTTTTTGTCAAACTTCAATTATTGATTAATATCTTGGTGATGAGATTGGTATGATCTTTAT GAACCTTGTTGCTGCTCTGATATACATGATTTGCTGAACTAGGAATCAAACTGTTTAATCTTTCATTTAACGGCTCCTAT TAGGCATCATATTTGATTGGGAATCTGGTTTGTCTACAATCAGTTTTCTATGCAGCCACGGACTCAGAGTCGTTGTATAA AGATCAAACGACTCAGGTTATGGGGACACGTTTTTTATTCGATTTGCTGAACTTGGAATCTAACTGTTTAATCTTTCTTC CAAAGGCTCAAAGTTCGTGACTGCATAGAAAACTGACTTCAATAAATCAATTTCCATTTGATTTGCTAAATAACTTTTAA TGGCTTCCTTTCCCTTGTCTTATGTATCCAACATCTTCAAAATTGAATATGCTTTATTTTCCTCTCTATTGCTCTCTTAA AAATTCCTTTTTGTCAGAGGCTTGGTTACTTTTAAAGGGTGTAAGCTTGATTCAGAGATGGATTTTGTCTTTATTTTAAA TGGGATAGAAGGAAGCCATGAAAATGAGAAATGTGTTTCTTAGAAGCAAAACTGTTGGCTTACTTTTCTCATATGTTAAC ACTTCCATTGCTCCTATTGTTGAGTTTGTATGGAGCATGGTCTTGTTCTTCTGCATGCACTATGAGGTGCCTAATCTTGT GCCAATTCCAATGTCAATTGATATTTGTCTTGTATTTGCCAGGTCAATTACGGAAACTTCATGCATGGGTTGCTGAAGGA GAATATCCAACTTAACAGGAAAGTGCTCTCAGAGTTATCCATGCATGAACCGTACACTTTCAAGTCGCTGGTCGACATAT CCCGAAATTCATTTCCAGGAAACAAGAATGTGGTGATCCCTCCAAGAAAGGCAGCCATTTAGAGCATTTGGCACTTTAGC AAACATTTAGAAGTAGTTTATGTTAGCCTTTTCAACTATTTTGAAGATTTCTGGTTTAGCACGCTACAAATGATCATCAC CTGGAGCCTATGTTTGATGGGAAGAACCTTCGTCTTTAACTGAGGCTATATGGTTCATATGCTATCTTTAGTTTCCGTGA AAAATAAAAAAATTCTTTTTTTTGTCAACAAAGATTTCTTGTGAACATTTACAGAACTTGTTCTAAACCTAGAATTGCCT GTTAAAATTAGGAAGAACAATCATATGGTTCTAGACACACCCTCAGTTTTTTTTGGTAATGATAAGTTGTGGTTGCTCTT GTCCTTTTAGCAATGACATTTCTGTGATATCACTTGCTTGTGGTGCTTTCTCAATAACTGTTTCGTTGTGATATCACTTT GTATTTCACTTCATTCAAGGGTGAAAAAACGATTCAAACACCATTATCTTGTAAAAAACAACTTCTCTCATTTGTGCTTA AACTAGGATTCGACTCGTGCCATGTAAATTTAAGTAATGCAATATCTTAAAAATATAATTTGGTAGAACCACCGGAACTC ATTACTTAATATAAAGATCGCTAAAATATAAAATAGATGAATTCATGGTGAAAAATTAATATGACACATTCTTATCAATA TACCTCCAACAAATAGATGTCAAATACAACTCATATAATATCTGTTACCATTCATGAGGCTTAACTCTTTGTCATTGAAT GAACCAATCGAAACATGATTTGTATAAAATTATATTGATTAGTTTATTCAACGTTTGTCCACACTACATATACCATAAGA GAAAATTCTAACCTCTGTCTCAGGCTAGTGCTGAGTAAAGTAACCAGAATAAAAAAGCACTTAGCAATTCATGTTGGAAA GAATCAGGCTTCCTGATAGTAATAAGAAGGACAATTACTCATGCAAAGAATCCCATCACAGATGTAAAAGAGTGTGAGAA ACAAAGTACTAACTAAATGATTAATATATCTTTAATTTAGTGAGAAACAAAGTATCTCACTAAATGATTAATATATCTTT AATTTGCCTCCTGGCATTAGAAACAAATTCTATATAGAATCAAGGTTTTTCCGTGATCACTTCTCACCCCAATGTGAAAA ATATATTGTATTTCCAATCATCCAATAATTTAATTTAGTGAGGAACCAAATGGTGAGTCATGCCAGTCAAATCAAGAATA GAGACCCTCCAAGACCAGATTTCTTACTATTTACAATGGAGAAAGCAATACAACCAAAATATTAAAAAGAACATGGAAAA TAATTTATCTTTTGAAATAACTATCTTCTGTGCCTGAATTGTGGTCCATGCCTGCCTCCATCGAATTAGAATCTGGTGGT TCAGTGAGGAACTCATCATCTTCATATTCAGGAGCAATATCTACAAGGTCTTCAAGCAAGCCTGTGGAATTCTCTCTTAC AATGAAATTCCATGAAGGAATTCTTCTTGAAGCACTGAATTTGACAATAGTGGACAAACCATGAGAAGTAGAAAGGATCA ACCCTCTCAGCATTTCATTCATCGAGAGCAAGCTCAATTTGACAGATTACTTTTATGGCTGAAAGCTTCTCCTAGGTGCA TCATCTTGCTCCCTTTGGTTGGCTCTGCCTTTTGAAGCTCCCCATATGAAGGGTTCTTTTGAGTACTGAAGCAGTAGATA AAGGTTACAATATACACAAAATGTATTAAAATAATAAATTTGCCACACATTTGAACCAGTAGAATTGCCTGCACAACCAA GCTAGTGAACTCACACAACTCCCCCAAACCAGCAAAACTACATTATTGATGAAACTAAACCAAAATGTGCGGCAACATTC AGAAAGTTTAAATTCAAGTTCAAATATGCATCAACAAATCAATGAGTTATGACAGATCAATATACATTATCAATTTTCAA TCTAATCTTACCAACTTCACAAACAACATACACTACCATATAGCAAGCAAAGCAATTCAAATTGTAATTTTGCTCTTCAG ATAAATGTTTTAAGCATCATGAATTAACATGACACGACACATAAAGCATGAATAAAGAACACACTCACACAAATCATCAA AGTTTCCTACACTACTTAACCTACAATACCTCAAAAATTTGCAGGTCCAACAAACATCATCAATCAAAATAATTCAAGTT CACATAAATACTGCAAAAAGATTGTAACAGGCCATACCATATTCATCAAACCCACACACAAAGTCAAAAATTGAAAACAA TAAAAAACAAATAATTATAATAGAGGATTGTAATATTTATCACACACCTCGATTGAGAGTTGGTCAGGGAATCCAGTCTC CAAAAGGAAGATCAAAGACATCTGATATGTATTAACCAAAAATAGAATCAGAAATAGCAGAGTACCCAAATTGTTGTTCA AGTTCTCCCCCATTAGGCAAAATTACGCGTTGCAGAATTCAACTTTGGGAACGTGCGCTATCTTGTCCGAATCCACCTCT GTTCCCTCCTTACACCTCTCAGCTAATGTTGGGCAGTCCTGAATTCTCAAAAGCTGGAGTGAAGTGAGGTGTTGGACACC ATTCGGCTAATTCCAGGAACTGAAAAATCATCCATGATTACTTTCACATCTGTTGAAGACTTGAAGTGCCAACTACAATT TTTCTGTCTGTTGGTCACCTTGGAAATGACCTTTTCCAGTTTCAGGAAAGATTATACATGAGAAATCCATGTCACACTCT CTGCAGCATTATAATTGTTAACAAAAAGTTCCTTTTCATCATGTTCTTCATATTCTGCAATTTTAGCTTGCTGTCATTGC TGGTTTTCTTTGTTATTGCAGGCCTTTTCCACCTCCTTTTCATCATGACTAATCAATTCTTATTTCCCTTCTTTGCTCCT GAGTTAAATTTCACAATATACACAAGGTAGTTAACCACTAATCCACTAAATCATCCTTAGAAAGTGATGCACAAATAAAT TCCTAAGAAGAACCAGTAGAAAGGTAATAATTTAGTAAATTTTCCACACATTTGAACCAGTAGAAGTGCATGCAGAAGCA GTATAATATTCAAAAAAGTTCAAATATACATTAACAATCACACACCTCGATTGGGTATTAACCAAAAATTGAATCAGAAA TAGCAGAGTAACCAAATTGGTGTTGAATTAGAATTACAAGCCTGCAAAAACATAAAAAGATATATGTATTACTTACATTA CTACCCAACGAGAAAAGTAATAAAAGAAAAAGCAGGTTCGGGAAAAGAGACCTTACCGAATTGAGAATCAACACTATCTT AATCGAAATCAATTTGTACTTCGGGAACGTGCGCTATCTTGTCCCAATCCTCCCCTGTTCCCTCTTTACACCTCTCGGCT AATGCTGGGCAGCTACTAATTTCCAAAACCTCGAGTGAAGTGAGGTGTCGAACACCATCCGGCAAGGATTTCAATTCACC ACATCCTTCAATCTCCAGAGTTCGAAGGGAGCGGAGACCTTCCCACCCTTGCTCTGGTAAAGACTCCAGCTTTCTACAAT AACGGATGTTCAAAAGCTGGAGTGAAGTGAGGTGTCGAACACCATCCCGCAAGGATTTCAATTCACCACATCCTTCAATC TCCAGAGTTCGAAGGGAGCGGAGACCTTCCCACCCTTGCTCTGGTAAAGACTCCAGCTTCCTACAATTACCGATGCTCAG ATACTCCATTTTGTTGAGGTTTTTGAAGAATTCATTTGGTAATTCCTTCAATACCTCGGAACTAGATATCCCCAGAGTCT GAAGACAAGTCAATGTTCCCACCGGGAAGGATGTCAGGTCTACATCGCCATCGTAAAGCCAAAGGGAGGTAAGGCCATTG AAACCTGAGAGTGACCTCAGTAACTCATTCGTATAATTACTTAACTCGAGCATTTTCAGTGATGGAATGCATGGTAACTC AAGTTTAGGGCATTTCTGAATTTCCAAACAAGAAAGACAGGGGAAATTCTCTCCTCTTTCCACTTTCAACAACCGCTCTA ACTTTGAGCATCCTGATAGTGAGAGTGTTTCTAAAGACGGGAAAGCTTTCACCTCCACACCATCATCAGATTCGTCATCA TCCATGTACTGCACATCACCCATTTCCCTTATATAAATTCTTCTTAGATATGGTAGTTTACCAAGTGAGGGAAGCCGCAC ACACATCTTGCATCCATAAAGATCAAGAGAAACTAAATTGGTGAGCATTTCCATCCAGGTTGGGAATTGTAATCCTGCAT AGTATACAATTTCCAAATTTGTACTTTGGGAACGTGCGCTATCTTGTCCCAATCCTCCCCTGTTCCCTCTTTACACCTCT CGGCTAATGCTGGGCAGTTACCAATACTCAAAACCTGGAGTGAAGTGAGGTGTCGAACACCATCCGGCAAGGATTTCAAT TCACCACATCCCACAATCTGCAGAGTTCGAAGGGAGCGAAGACCTTCCCACCCTTGCTCTGGTAAAGACTCCAGCTTCCT ACAATAACGGATTTCCAGATACTCCATTTTGTTGAGGCTTTTGAAGATTTCATTTGGTAATTCCTTCAATACCTTGGAAC CACGTATCCCCAGAGTCTGAAGACAAGTCAATGTTCCCACCGGGAAGGATGTCAGGTCTACATCGCCACGGGAAAGCCAA AGGGAGGTAAGGCCATTGAAACCTGAGAGGGAGCTCAGTAACTCATTCGTATAATCAAATAGACGGAGCCTTTTGAGTGA CGGAATGCAGCAGCTTGGCAACTCAAGTTTAGGGCAATCAGAAATTCCCAAATAAGAAAGAGAGGGGAAATTCTCTCCTC TTTCCACTTTCAACAACCGCTCTAACTTTGAGCATCCTGATAGTGAGAGTTCTTCTAATGACGGGAAAGCTTTCACCTCC ACACCATCATCAGATTCGTCATCATCCATATACTGCACATCATTCATTTCACTTATTTCAATTATTCTTAAATATGGCAG TTTACCAAGTGAGGGAAGCCGCACACACATCTTGCATCGATGAAGTTCAAGAGAAACTAAATTGGTGAGCATTTCCATCC AGGTTGGGAATTGTAATCCTGCATAGTACCTTATTGTCAAATTCTTGAGATTTGAGTGTGGTTGAAGAGCATTAAGTACT AGCTCCGGATTAGTAGCATATGACTTTGAGTGGACCTCCTTGTCCCATCTCAACTGTAATTTGTGGATGTCTTTTTTACC CATCAAGTTGGCCTTTTGAGCTTCGGATAAACTGCCAACGTTTTCTAGTCCTTCAATGCGCAAATTTCCTCTGAGTTTTA AGTCATGTAATTCTGCCAGGCTATGCCCAATCTCTGAACTGACAATGTACTTACTTAACGTTCTCAGACGGGATAGTTTT CCAATGTTAGGGAACATACAAGACAATGAATTACAACCTTTAATTACAAGATGTCTAAGATCCTGTAAGCAAGTCAAGCC TTTAGGTAGACAAACAAGTTTTTTCAAATTAATCAATTTCAAGATTTCCAATTTCTGCAAGCTATAAATTGAGTCGGGCA TGCTTTCTATCTCAAGCTCGGAAAGTTCCAAATACCTCAAATGAATTAAACTCTTGAGTGATGATAAGTTGGAAGAACTT GTGCGTAGTACCCGAAGACTGCGGTGGGTTGGGATGCAACCAGAAACACGGTCGTAGACATTTAACTGATAAAATGTTCG CATGGATTCAACTTTCTTGAAGGCGCGCTTGTGCAGCGAGGATAGATCCCAACCAGAGCCAAAACCAACATGGTGGGTGC TTCTTGACATATCAGTCATGTTTGCACTGCCCAAAACAATGCACTCCTGCCCCATTATTGACTGAGCAAGATCATGGACA AGATCATGCATCTTGAAATGAATGTCACCTGAATAATCATCCAACCTCATATCTTGAAAGAATGATTTTTGATACAATTC ATTCCAAATCATATTTCCAACATCTTCCACCTCCAAGTTCTCCCTTGGTGATATAAACCCATTAGCCATCCAAAGATGAA TTAAATCTTCCTTCATGATTTCTGTATCTTTAGGAAACATGGCACAAAATGCAAAACACTGTCTTATTGTTGGCGTTAAA TGAAAGTAGCTCAATCTCAAGACAGCAAAAATAGAATTTTCACCCGCTAAATTCCAAATCCCACTTTTCATAACTTCAAG CCATTCTTTTTCTTCATTCCTTGAGTGTAAGAGACCTCCTAGTGCTTGTGCTGCAAGAGGTGATCCTCCGCATTTCTTTA CTATCTCTTTGCCAATAGCTACAAGCTCTGCACGTTCTTCTTTTACAGTTCCAAATGCATATTGTTTGAATAGCATCCAA CATTCATCCTCAGAGAGACCACACAAATGATGAGCTTGGCATGTTCCCATAATTGTTGCAACCTCCATATCGCGAGTGGA TACTAAAATGGAAGCTCCTTTGGATGCACATGACAACAAACATTTCAGCTTATTCCATTTGTCTTGGTTTAAACCAAATT TTATTTCTTCATCTTTTCTCCACACGTCATCCAAAACCAGAAAATATCTTTTACCTTGCAACAGCTCTTGCACCTTTCTT TCTGTTACATCTAAATTCAAGCAATCATGTTTTGCTTTTGTAATAGATTCTATGATGGAGCACAAAATCCTTTGGACAGA GAAATTCTCAGAAACACAAATCCAAACTTTGATGTCAAAATTGCTTGTTACCTGATCATCATTGTAGACCATTTGAGCAA GTGTTGTTTTTCCCATGCCACCTAAGCCGACAATGGGATAGATGGAAAGGAAATCAGACTCGCGTGCTTGGCTGAGAAGA AACTGCACAATCTTCTTCTTATCATCTTCTCTTCCATATAGTTTAGGTTGGGGAATGAACGAGCTGGTTTGGCGCCATTC AGCAACTTCAGTTGACCTTTCCCTAACACCCTCTTGCAGAGCAAACTTGTTCTTACAGTCAGCAATCTCATCAAATCTCC TTGCAATCTCTTTCAGCCTGTTGCCAATCTCATAGCGAAACTTGATGTTCTTTGGTTTTAAAGAGGACAATCCCTTAAGT CGAAGTGATTCTATGGAACATTCATCAAGGATATCATCTAGGATGTAGACAGCATCTTTGAGCTGCTGCAGCCAAACCTT TATAGATTTGTTTGTTATCTCTTTCTTCTCAGCATCTTCAACAACAGCCTTGATCAGTTCAAGAGTGTGTGATAGCTTCT CAGCCTTTCCCTTGATTCCAGAGATGGTTGCAAATTCATTCTGAGCTAGAGAGATCAATTTCTCAAATACAGCTCCAAGT AAAGCCTCAGCCATTTTCAGAAATGCAAAAGTTGGAAAGGAAACAATATCGGGGACTGGTTTTGCTTGGATGAGATCTGA AGCAAAGTGTGGATAGTGGTAGCAAAAGTCTGCAAAGAGCTAGTTAAATGCTGTCTTTATCAAGGAAACTTCAATGAAGC TACGAGTGTCATTGGATTCCAATCATGAAGGCTGAAAAGACCAAAGTCACCCTGCTTAGCAATGAATATACAAAAGTTAG CAACATGTTGTAGTACCAGCGAGCTTTATTGTGATTACTTTATTGTTTGGAACTTTGAAAAGTCAAAAAGAGTGGCTGTC CATTAGTACATCTGCATCAATGAAATTCATGAGAGTTGCTACATCAAATTTAGGGGAGCTTCTAAACAATTGTTAAGGAC TTTCACTTAAAAAGAAAAGAG
CDS sequence (LotjaGi1g1v0060400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAATAAGGATAAGATTTTCAAGCTGGCAAAGGGGTTTAGGGGAAGAGCGAAGAATTGCATAAGAGTAGCAAGGGAGAG GGTCGAGAAGGCGCTGCAATATTCCTACAGAGACCGCCGCAACAAGAAGAGGGACATGCGTGGCCTTTGGATTCAGCGGA TCAATGCCGGTACCCGCCTTCATGGTGTCAATTACGGAAACTTCATGCATGGGTTGCTGAAGGAGAATATCCAACTTAAC AGGAAAGTGCTCTCAGAGTTATCCATGCATGAACCGTACACTTTCAAGTCGCTGGTCGACATATCCCGAAATTCATTTCC AGGAAACAAGAATGTGGTGATCCCTCCAAGAAAGGCAGCCATTTAG
Protein sequence (LotjaGi1g1v0060400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MNKDKIFKLAKGFRGRAKNCIRVARERVEKALQYSYRDRRNKKRDMRGLWIQRINAGTRLHGVNYGNFMHGLLKENIQLN RKVLSELSMHEPYTFKSLVDISRNSFPGNKNVVIPPRKAAI
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 | 112 | 112 | 3.3E-71 | – | |
PRINTS | 1 | 30 | 30 | 1.1E-31 | ||
Hamap | 1 | 104 | 104 | 22.036 | ||
PANTHER | 1 | 112 | 112 | 3.3E-71 | ||
SUPERFAMILY | 2 | 104 | 103 | 6.41E-44 | ||
Gene3D | 2 | 45 | 44 | 1.7E-16 | – | |
TIGRFAM | 3 | 102 | 100 | 3.0E-39 | ||
Pfam | 3 | 98 | 96 | 6.7E-42 | ||
CDD | 5 | 100 | 96 | 2.15929E-49 | ||
PRINTS | 31 | 60 | 30 | 1.1E-31 | ||
ProSitePatterns | 43 | 59 | 17 | - | ||
Gene3D | 46 | 105 | 60 | 3.8E-27 | ||
PRINTS | 64 | 90 | 27 | 1.1E-31 |
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 | Structural constituent of ribosome | The action of a molecule that contributes to the structural integrity of the ribosome. | ||
Cellular component | Ribosome | An intracellular organelle, about 200 A in diameter, consisting of RNA and protein. It is the site of protein biosynthesis resulting from translation of messenger RNA (mRNA). It consists of two subunits, one large and one small, each containing only protein and RNA. Both the ribosome and its subunits are characterized by their sedimentation coefficients, expressed in Svedberg units (symbol: S). Hence, the prokaryotic ribosome (70S) comprises a large (50S) subunit and a small (30S) subunit, while the eukaryotic ribosome (80S) comprises a large (60S) subunit and a small (40S) subunit. Two sites on the ribosomal large subunit are involved in translation, namely the aminoacyl site (A site) and peptidyl site (P site). Ribosomes from prokaryotes, eukaryotes, mitochondria, and chloroplasts have characteristically distinct ribosomal proteins. | ||
Biological process | Translation | The cellular metabolic process in which a protein is formed, using the sequence of a mature mRNA or circRNA molecule to specify the sequence of amino acids in a polypeptide chain. Translation is mediated by the ribosome, and begins with the formation of a ternary complex between aminoacylated initiator methionine tRNA, GTP, and initiation factor 2, which subsequently associates with the small subunit of the ribosome and an mRNA or circRNA. Translation ends with the release of a polypeptide chain from the ribosome. | ||
Molecular function | RRNA binding | Interacting selectively and non-covalently with ribosomal RNA. |
Expression pattern of LotjaGi1g1v0060400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…