2014
Exploring the Substrate Range of Wild‐Type Aminoacyl‐tRNA Synthetases
Fan C, Ho JM, Chirathivat N, Söll D, Wang Y. Exploring the Substrate Range of Wild‐Type Aminoacyl‐tRNA Synthetases. ChemBioChem 2014, 15: 1805-1809. PMID: 24890918, PMCID: PMC4133344, DOI: 10.1002/cbic.201402083.Peer-Reviewed Original ResearchConceptsAminoacyl-tRNA synthetasesSubstrate rangeDifferent amino acid sitesAmino acidsE. coli tryptophanyl-tRNA synthetaseE. coli aminoacyl-tRNA synthetasesAmino acid sitesCanonical amino acidsNonstandard amino acidsTyrosyl-tRNA synthetaseTryptophanyl-tRNA synthetaseAnticodon sequenceTRNA synthetasesSynthetasesSynthetaseSequenceAnticodonNSAAsTrpRSProteinAminoacylAcid
2012
Yeast mitochondrial threonyl-tRNA synthetase recognizes tRNA isoacceptors by distinct mechanisms and promotes CUN codon reassignment
Ling J, Peterson KM, Simonović I, Cho C, Söll D, Simonović M. Yeast mitochondrial threonyl-tRNA synthetase recognizes tRNA isoacceptors by distinct mechanisms and promotes CUN codon reassignment. Proceedings Of The National Academy Of Sciences Of The United States Of America 2012, 109: 3281-3286. PMID: 22343532, PMCID: PMC3295322, DOI: 10.1073/pnas.1200109109.Peer-Reviewed Original ResearchMeSH KeywordsAeropyrumAmino Acid SequenceAnticodonCatalytic DomainCodonCrystallography, X-RayEscherichia coliEvolution, MolecularLeucineMitochondriaModels, MolecularMolecular Sequence DataProtein ConformationProtein Structure, TertiaryRNA EditingRNA, Transfer, Amino AcylSaccharomyces cerevisiaeSaccharomyces cerevisiae ProteinsSequence AlignmentSpecies SpecificityStaphylococcus aureusSubstrate SpecificityThreonineThreonine-tRNA LigaseConceptsThreonyl-tRNA synthetaseAnticodon loopAnticodon sequenceEscherichia coli ThrRSSet of tRNAsDistinct recognition mechanismsAnticodon-binding domainAminoacyl-tRNA synthetasesCUN codonsDetailed structural comparisonCodon reassignmentYeast mitochondriaGenetic codeTRNA isoacceptorsSaccharomyces cerevisiaeIsoacceptor tRNAsEditing domainTRNAMST1Anticodon tripletStructural comparisonNatural tRNAAmino acidsDistinct mechanismsRecognition mechanism
2000
Transfer RNA Identity Change in Anticodon Variants of E. coli tRNAPhe in Vivo
Kim H, Kim I, Söll D, Lee Y. Transfer RNA Identity Change in Anticodon Variants of E. coli tRNAPhe in Vivo. Molecules And Cells 2000, 10: 76-82. PMID: 10774751, DOI: 10.1007/s10059-000-0076-7.Peer-Reviewed Original ResearchConceptsMutant tRNA genesMutant tRNAsTRNA genesAnticodon sequenceAnticodon mutantsHost viabilityE. coliAmino acidsMost aminoacyl-tRNA synthetasesOpal stop codonAminoacyl-tRNA synthetasesSite-directed mutagenesisE. coli tRNAMajor recognition elementAnticodon variantsSuch tRNAsTRNAStop codonAminoacylation specificityAnticodonSimilarity dendrogramVivo evolutionGenesAcceptor specificityAnticodon change
1979
Identification and nucleotide sequence of the sup8-e UGA-suppressor leucine tRNA from Schizosaccharomyces pombe
Wetzel R, Kohli J, Altruda F, Söll D. Identification and nucleotide sequence of the sup8-e UGA-suppressor leucine tRNA from Schizosaccharomyces pombe. Molecular Genetics And Genomics 1979, 172: 221-228. PMID: 289895, DOI: 10.1007/bf00268286.Peer-Reviewed Original ResearchConceptsSuppressor tRNANucleotide sequenceTwo-dimensional gel electrophoresisS. pombe strainRabbit globin mRNAGel sequencing methodsWheat germ extractUGA suppressor tRNASchizosaccharomyces pombeAnticodon sequenceUGA codonOpal suppressionPombe strainGlobin mRNAC-AOHTRNALeucine tRNAGerm extractAnticodon loopSequencing methodsG-m5CGel electrophoresisSequenceSuppressor assaysSchizosaccharomyces