2022
Structural Insights into Binding of Remdesivir Triphosphate within the Replication–Transcription Complex of SARS-CoV‑2
Wang J, Shi Y, Reiss K, Maschietto F, Lolis E, Konigsberg WH, Lisi GP, Batista VS. Structural Insights into Binding of Remdesivir Triphosphate within the Replication–Transcription Complex of SARS-CoV‑2. Biochemistry 2022, 61: 1966-1973. PMID: 36044776, PMCID: PMC9469760, DOI: 10.1021/acs.biochem.2c00341.Peer-Reviewed Original ResearchConceptsReplication-transcription complexStructural basisCryo-EM structureAdenosine monophosphateRemdesivir triphosphateStructural insightsDuplex productsPrimer extensionNucleotide selectivityBase pairsNucleotide incorporationIncoming substrateRibosyl moietyActive complexSARS-CoV-2 inhibitorsNew detailed informationTriphosphateComplexesMolecular dynamics simulationsAdenosine triphosphate
2021
Mechanism of Inhibition of the Reproduction of SARS-CoV‑2 and Ebola Viruses by Remdesivir
Wang J, Reiss K, Shi Y, Lolis E, Lisi GP, Batista VS. Mechanism of Inhibition of the Reproduction of SARS-CoV‑2 and Ebola Viruses by Remdesivir. Biochemistry 2021, 60: 1869-1875. PMID: 34110129, PMCID: PMC8204756, DOI: 10.1021/acs.biochem.1c00292.Peer-Reviewed Original Research
2012
Using a Fluorescent Cytosine Analogue tCo To Probe the Effect of the Y567 to Ala Substitution on the Preinsertion Steps of dNMP Incorporation by RB69 DNA Polymerase
Xia S, Beckman J, Wang J, Konigsberg WH. Using a Fluorescent Cytosine Analogue tCo To Probe the Effect of the Y567 to Ala Substitution on the Preinsertion Steps of dNMP Incorporation by RB69 DNA Polymerase. Biochemistry 2012, 51: 4609-4617. PMID: 22616982, PMCID: PMC3437246, DOI: 10.1021/bi300241m.Peer-Reviewed Original Research
2006
The L561A Substitution in the Nascent Base-Pair Binding Pocket of RB69 DNA Polymerase Reduces Base Discrimination †
Zhang H, Rhee C, Bebenek A, Drake JW, Wang J, Konigsberg W. The L561A Substitution in the Nascent Base-Pair Binding Pocket of RB69 DNA Polymerase Reduces Base Discrimination †. Biochemistry 2006, 45: 2211-2220. PMID: 16475809, PMCID: PMC3373012, DOI: 10.1021/bi052099y.Peer-Reviewed Original Research
2005
Base Selectivity Is Impaired by Mutants that Perturb Hydrogen Bonding Networks in the RB69 DNA Polymerase Active Site †
Yang G, Wang J, Konigsberg W. Base Selectivity Is Impaired by Mutants that Perturb Hydrogen Bonding Networks in the RB69 DNA Polymerase Active Site †. Biochemistry 2005, 44: 3338-3346. PMID: 15736944, DOI: 10.1021/bi047921x.Peer-Reviewed Original ResearchMeSH KeywordsAlanineAmino Acid SubstitutionBase Pair MismatchBinding SitesDeoxyadenine NucleotidesDeoxycytosine NucleotidesDeoxyguanine NucleotidesDNA-Directed DNA PolymeraseEnterobacterHydrogen BondingKineticsNucleotidesPhenylalanineSubstrate SpecificityThymine NucleotidesTolueneTyrosineViral ProteinsConceptsRB69 polRapid chemical quenchHydrogen bonding networkSet of mutantsStopped-flow fluorescencePutative conformational changesPhosphoryl transfer reactionsPolymerase active siteRB69 DNA polymeraseDNA polymerase active siteChemical quenchMolecular basisBonding networkNoncomplementary dNTPsMutantsTransfer reactionsExo enzymesState kinetic parametersConformational changesMismatched basesActive siteExo formCrystal structureDNA polymeraseNucleoside triphosphates
2004
Pre-Steady-State Kinetics of RB69 DNA Polymerase and Its Exo Domain Mutants: Effect of pH and Thiophosphoryl Linkages on 3‘−5‘ Exonuclease Activity †
Wang C, Zakharova E, Li J, Joyce C, Wang J, Konigsberg W. Pre-Steady-State Kinetics of RB69 DNA Polymerase and Its Exo Domain Mutants: Effect of pH and Thiophosphoryl Linkages on 3‘−5‘ Exonuclease Activity †. Biochemistry 2004, 43: 3853-3861. PMID: 15049692, DOI: 10.1021/bi0302292.Peer-Reviewed Original ResearchMeSH KeywordsAlanineAmino Acid SubstitutionBacteriophage T4Base Pair MismatchDNA Polymerase IDNA-Directed DNA PolymeraseEnzyme ActivationExodeoxyribonucleasesGlutamineHydrogen-Ion ConcentrationKineticsMutagenesis, Site-DirectedPhosphatesPhosphorylationProtein Structure, TertiaryRNA EditingSubstrate SpecificityThionucleotidesT-PhagesViral ProteinsConceptsRate-determining stepDivalent metal ionsPH-activity profileB family replicative DNA polymerasesChemical stepMetal ionsSingle-turnover conditionsWild-type enzymeEffects of pHKlenow fragmentB-family DNA polymerasesFamily DNA polymerasesState kineticsDNA polymeraseThree-dimensional structureDomain mutantsExonuclease reactionExonuclease activityPhosphorothioate linkagesPhi29 DNA polymeraseElemental effectsReplicative DNA polymerasesRepair DNA polymerasesExo activityCatalysis