2020
The mechanism of β-N-methylamino-l-alanine inhibition of tRNA aminoacylation and its impact on misincorporation
Han N, Bullwinkle T, Loeb K, Faull K, Mohler K, Rinehart J, Ibba M. The mechanism of β-N-methylamino-l-alanine inhibition of tRNA aminoacylation and its impact on misincorporation. Journal Of Biological Chemistry 2020, 295: 1402-1410. DOI: 10.1016/s0021-9258(17)49898-x.Peer-Reviewed Original ResearchAmino acid activationSerine codonsProtein synthesisHuman protein extractsHuman seryl-tRNA synthetaseAminoacyl-tRNA synthetaseSeryl-tRNA synthetaseAmyotrophic lateral sclerosisAlanyl-tRNA synthetaseN-methylaminoNonproteinogenic amino acidsCotranslational incorporationTRNA aminoacylationAlzheimer's diseaseProtein extractsBiochemical assaysAmino acidsExchange assayBMAAAcid activationSynthetaseCodonAminoacylationNeurodegenerative diseasesMultiple different mechanisms
2011
Expanding the Genetic Code of Escherichia coli with Phosphoserine
Park HS, Hohn MJ, Umehara T, Guo LT, Osborne EM, Benner J, Noren CJ, Rinehart J, Söll D. Expanding the Genetic Code of Escherichia coli with Phosphoserine. Science 2011, 333: 1151-1154. PMID: 21868676, PMCID: PMC5547737, DOI: 10.1126/science.1207203.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acyl-tRNA SynthetasesAnticodonChloramphenicolChloramphenicol O-AcetyltransferaseCodon, TerminatorDrug Resistance, BacterialEscherichia coliGenetic CodeGenetic EngineeringHumansMAP Kinase Kinase 1Peptide Elongation Factor TuPhosphoserineProtein EngineeringProtein Modification, TranslationalRecombinant Fusion ProteinsRNA, BacterialRNA, Transfer, Amino Acid-SpecificRNA, Transfer, Amino AcylRNA, Transfer, CysTransfer RNA AminoacylationConceptsGenetic codeEF-TuMitogen-activated ERKQuality control functionTransfer RNAProtein engineeringEscherichia coli strainsKinase 1Phosphoamino acidsMolecular biologyEscherichia coliO-phosphoserineColi strainsGeneral utilityDisease researchCanonical positionPhosphoproteomePhosphoserineRNABiologyERKProteinSynthetaseColiResidues