2021
Structure of New Binary and Ternary DNA Polymerase Complexes From Bacteriophage RB69
Park J, Youn HS, An JY, Lee Y, Eom SH, Wang J. Structure of New Binary and Ternary DNA Polymerase Complexes From Bacteriophage RB69. Frontiers In Molecular Biosciences 2021, 8: 704813. PMID: 34869578, PMCID: PMC8639217, DOI: 10.3389/fmolb.2021.704813.Peer-Reviewed Original ResearchDivalent metal ionsMetal ionsT duplexSecond divalent metal ionSingle divalent metal ionDimeric complexCrystal structureTernary complex structureBinary complexIonsSpecific interactionsTernary complexDimeric formAdditional conformational changesComplexesInitial bindingDNA complexesConformational changesNew binaryClosed ternary complexRB69polDNTP-binding pocketStructurePolymerizationBiological relevance
2016
Different Divalent Cations Alter the Kinetics and Fidelity of DNA Polymerases*
Vashishtha AK, Wang J, Konigsberg WH. Different Divalent Cations Alter the Kinetics and Fidelity of DNA Polymerases*. Journal Of Biological Chemistry 2016, 291: 20869-20875. PMID: 27462081, PMCID: PMC5076500, DOI: 10.1074/jbc.r116.742494.Peer-Reviewed Original ResearchConceptsMetal ionsWater moleculesTransfer reactionsDifferent divalent cationsOctahedral coordination geometryB metal ionsThird metal ionDifferent metal ionsAttacking water moleculeDivalent metal ionsNucleotidyl transfer reactionPhosphoryl transfer reactionsNon-bridging oxygen atomsOctahedral complexesCoordination geometryCarboxyl oxygenDivalent cationsOxygen atomsSixth ligandHydroxyl groupsTransition stateEffective nucleophilePhosphorous atomsIonsB-site
2012
Bidentate and tridentate metal‐ion coordination states within ternary complexes of RB69 DNA polymerase
Xia S, Eom SH, Konigsberg WH, Wang J. Bidentate and tridentate metal‐ion coordination states within ternary complexes of RB69 DNA polymerase. Protein Science 2012, 21: 447-451. PMID: 22238207, PMCID: PMC3375444, DOI: 10.1002/pro.2026.Peer-Reviewed Original ResearchConceptsCoordination complexesMetal ionsCoordination stateSecond metal ionMetal ion coordinationDivalent metal ionsTernary complexTridentate coordinationBond formationPhosphorus atomActive siteRelevant conformationsStructural studiesSelectivity mechanismIonsTriphosphate tailComplexesRB69 DNA polymeraseÅ resolutionBase selectivityGround stateSubstrate alignmentPolymerase active siteCatalysisCoordination
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