2018
Structural and biochemical insights into inhibition of human primase by citrate
Lee JG, Park KR, An JY, Kang JY, Shen H, Wang J, Eom SH. Structural and biochemical insights into inhibition of human primase by citrate. Biochemical And Biophysical Research Communications 2018, 507: 383-388. PMID: 30446220, DOI: 10.1016/j.bbrc.2018.11.047.Peer-Reviewed Original ResearchConceptsDNA replicationSmall catalytic subunitShort RNA segmentReplicative DNA polymerasesPhosphate binding siteMammalian chromosomesReplication forksCatalytic subunitAccessory subunitsBiochemical insightsOkazaki fragmentsRNA primersKey regulatorRNA segmentsBacterial enzymesHuman primasePrimaseDNA templateBase pairsDNA polymeraseInactive formDNA strandsBinding sitesPolymeraseSubunits
2009
RB69 DNA Polymerase Mutants with Expanded Nascent Base-Pair-Binding Pockets Are Highly Efficient but Have Reduced Base Selectivity
Zhang H, Beckman J, Wang J, Konigsberg W. RB69 DNA Polymerase Mutants with Expanded Nascent Base-Pair-Binding Pockets Are Highly Efficient but Have Reduced Base Selectivity. Biochemistry 2009, 48: 6940-6950. PMID: 19522539, PMCID: PMC2847438, DOI: 10.1021/bi900422b.Peer-Reviewed Original ResearchConceptsBase pairsCorrect base pairReplicative DNA polymerasesRB69 polRB69 DNA Polymerase MutantsNascent base pairDouble mutantSingle mutantsTriple mutantNumber of substitutionsWild typeMutantsBacteriophage RB69DNA polymerase mutantsPolymerase mutantsDNA polymeraseBinding pocketsNegative selectionDNA polRapid incorporationCatalytic centerLow incorporation efficiencyG mutationSulfolobus solfataricus Dpo4Base discrimination
2008
Structural basis for base discrimination by RB69 DNA polymerase
Wang M, Klimenko D, Steitz T, Wang J. Structural basis for base discrimination by RB69 DNA polymerase. The FASEB Journal 2008, 22: 593.2-593.2. DOI: 10.1096/fasebj.22.1_supplement.593.2.Peer-Reviewed Original ResearchTriple mutantApo formStructural basisBase pairsDNA polymeraseReplicative DNA polymerasesWild-type enzymeTernary complexTemplating baseHelix PBase selectivityNascent base pairRB69 DNA polymeraseBase discriminationWild-type PolType enzymeMismatched base pairsMutantsPol mutantsRB69 polPolymeraseComplexesS565Y416Pol
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