Structure of the unusual seryl‐tRNA synthetase reveals a distinct zinc‐dependent mode of substrate recognition
Bilokapic S, Maier T, Ahel D, Gruic‐Sovulj I, Söll D, Weygand‐Durasevic I, Ban N. Structure of the unusual seryl‐tRNA synthetase reveals a distinct zinc‐dependent mode of substrate recognition. The EMBO Journal 2006, 25: 2498-2509. PMID: 16675947, PMCID: PMC1478180, DOI: 10.1038/sj.emboj.7601129.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAmino Acid SequenceAnimalsArchaeal ProteinsBinding SitesCrystallography, X-RayDimerizationEnzyme ActivationHumansMethanosarcina barkeriModels, MolecularMolecular Sequence DataMolecular StructureProtein Structure, QuaternarySequence AlignmentSequence Homology, Amino AcidSerineSerine-tRNA LigaseSubstrate SpecificityThreonineConceptsSeryl-tRNA synthetaseTRNA-binding domainMinimal sequence similarityResolution crystal structureAmino acid substratesActive site zinc ionSequence similaritySubstrate recognitionSerRSsSerine substrateMotif 1Methanogenic archaeaMutational analysisProtein ligandsEnzymatic activityArchaeaAminoacyl-tRNA synthetase systemsDistinct mechanismsAbsolute requirementRecognition mechanismSynthetase systemSynthetaseIon ligandsZinc ionsEucaryotesA Molecular Tunnel Required for Cooperation of an Asparaginase and a Glu‐tRNAGln Kinase in Gln‐tRNA Formation
Sheppard K, Feng L, Oshikane H, Nakamura Y, Fukai S, Nureki O, Söll D. A Molecular Tunnel Required for Cooperation of an Asparaginase and a Glu‐tRNAGln Kinase in Gln‐tRNA Formation. The FASEB Journal 2006, 20: a503-a503. DOI: 10.1096/fasebj.20.4.a503-a.Peer-Reviewed Original ResearchGlu-tRNAGlnMolecular tunnelMost prokaryotesCo-crystal structurePresence of ATPGln-tRNAGlnSequence similarityEvolutionary linkHeterodimeric enzymeStructural insightsGatDEGatDEnzyme showEnzymatic analysisKinaseAmide donorCrystal structureActive siteATPGlnGluProkaryotesArchaeaTransamidationTight coupling