Abstract
DNA polymerases catalyze the incorporation of deoxynucleoside triphosphates into a growing DNA chain using a pair of Mg(2+) ions, coordinated at the active site by two invariant aspartates, whose removal by mutation typically reduces the polymerase activity to barely detectable levels. Using two stopped-flow fluorescence assays that we developed previously, we have investigated the role of the carboxylate ligands, Asp(705) and Asp(882), of DNA polymerase I (Klenow fragment) in the early prechemistry steps that prepare the active site for catalysis. We find that neither carboxylate is required for an early conformational transition, reported by a 2-aminopurine probe, that takes place in the open ternary complex after binding of the complementary dNTP. However, the subsequent fingers-closing step requires Asp(882); this step converts the open ternary complex into the closed conformation, creating the active-site geometry required for catalysis. Crystal structures indicate that the Asp(882) position changes very little during fingers-closing; this side chain may therefore serve as an anchor point to receive the dNTP-associated metal ion as the nucleotide is delivered into the active site. The Asp(705) carboxylate is not required until after the fingers-closing step, and we suggest that its role is to facilitate the entry of the second Mg(2+) into the active site. The two early prechemistry steps that we have studied take place normally at very low Mg(2+) concentrations, although higher concentrations are needed for covalent nucleotide addition, consistent with the second metal ion entering the ternary complex after fingers-closing.
Highlights
IntroductionHealth Grant GM-28550. □S The on-line version of this article (available at http://www.jbc.org) contains supplemental Figs
Health Grant GM-28550. □S The on-line version of this article contains supplemental Figs
Because Asp705 and Asp882 are ligands to divalent metal ions at the polymerase active site, we examined the effect of metal ion concentration on the polymerase activity of these mutants
Summary
Health Grant GM-28550. □S The on-line version of this article (available at http://www.jbc.org) contains supplemental Figs. The following step (step 2.2), detected using a FRET-based assay [3], is the closing of the fingers subdomain, which had been inferred from the comparison of DNA polymerase binary (Pol-DNA) and ternary (Pol-DNA-dNTP) cocrystal structures (Fig. 2) (4 – 8). The order of these two conformational transitions in the reaction pathway was deduced from the behavior of ribonucleotide substrates. With an incoming rNTP complementary to the templating base, the DNA rearrangement takes place normally, but fingers-closing is strongly inhibited [3] It follows, that the intermediate detected by the 2-AP probe is a Pol-DNA-dNTP complex with the fingers subdomain in an open conformation. The subsequent addition of a second metal ion to fill the metal A site is required before phosphoryl transfer can take place
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