Ji Yeon Yang scite author profile

The core of DNA polymerase III, the replicative polymerase in Escherichia coli, consists of three subunits (alpha, epsilon, and theta). The epsilon subunit is the 3'-5' proofreading exonuclease that associates with the polymerase (alpha) through its C-terminal region and theta through a 185-residue N-terminal domain (epsilon 186). A spectrophotometric assay for measurement of epsilon activity is described. Proteins epsilon and epsilon 186 and the epsilon 186.theta complex catalyzed the hydrolysis of the 5'-p-nitrophenyl ester of TMP (pNP-TMP) with similar values of k(cat) and K(M), confirming that the N-terminal domain of epsilon bears the exonuclease active site, and showing that association with theta has little direct effect on the chemistry occurring at the active site of epsilon. On the other hand, formation of the complex with theta stabilized epsilon 186 by approximately 14 degrees C against thermal inactivation. For epsilon 186, k(cat) = 293 min(-)(1) and K(M) = 1.08 mM at pH 8.00 and 25 degrees C, with a Mn(2+) concentration of 1 mM. Hydrolysis of pNP-TMP by epsilon 186 depended absolutely on divalent metal ions, and was inhibited by the product TMP. Dependencies on Mn(2+) and Mg(2+) concentrations were examined, giving a K(Mn) of 0.31 mM and a k(cat) of 334 min(-1) for Mn(2+) and a K(Mg) of 6.9 mM and a k(cat) of 19.9 min(-1) for Mg(2+). Inhibition by TMP was formally competitive [K(i) = 4.3 microM (with a Mn(2+) concentration of 1 mM)]. The pH dependence of pNP-TMP hydrolysis by epsilon 186, in the pH range of 6.5-9.0, was found to be simple. K(M) was essentially invariant between pH 6.5 and 8.5, while k(cat) depended on titration of a single group with a pK(a) of 7.7, approaching limiting values of 50 min(-1) at pH <6.5 and 400 min(-1) at pH >9.0. These data are used in conjunction with crystal structures of the complex of epsilon 186 with TMP and two Mn(II) ions bound at the active site to develop insights into the mechanisms of pNP-TMP hydrolysis by epsilon at high and low pH values.

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Preliminary X-Ray Crystallographic and NMR Studies on the Exonuclease Domain of the ϵ Subunit of Escherichia coli DNA Polymerase III

Hamdan

Brown

Thompson

et al. 2000

Journal of Structural Biology

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NMR solution structure of the θ subunit of DNA polymerase III from Escherichia coli

et al. 2000

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The catalytic core of Escherichia coli DNA polymerase III contains three tightly associated subunits~a, E, and u!. The u subunit is the smallest, but the least understood of the three. As a first step in a program aimed at understanding its function, the structure of the u subunit has been determined by triple-resonance multidimensional NMR spectroscopy. Although only a small protein, u was difficult to assign fully because approximately one-third of the protein is unstructured, and some sections of the remaining structured parts undergo intermediate intramolecular exchange. The secondary structure was deduced from the characteristic nuclear Overhauser effect patterns, the 3 J HNa coupling constants and the consensus chemical shift index. The C-terminal third of the protein, which has many charged and hydrophilic amino acid residues, has no well-defined secondary structure and exists in a highly dynamic state. The N-terminal two-thirds has three helical segments~Gln10-Asp19, Glu38-Glu43, and His47-Glu54!, one short extended segment Pro34-Ala37!, and a long loop~Ala20-Glu29!, of which part may undergo intermediate conformational exchange. Solution of the three-dimensional structure by NMR techniques revealed that the helices fold in such a way that the surface of u is bipolar, with one face of the protein containing most of the acidic residues and the other face containing most of the long chain basic residues. Preliminary chemical shift mapping experiments with a domain of the E subunit have identified a loop region~Ala20-Glu29! in u as the site of association with E.

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Aspects of core subunits of DNA polymerase III holoenzyme in Escherichia coli

Yang¹

1997

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Ji Yeon Yang

Hydrolysis of the 5‘-p-Nitrophenyl Ester of TMP by the Proofreading Exonuclease (ε) Subunit of Escherichia coli DNA Polymerase III

Preliminary X-Ray Crystallographic and NMR Studies on the Exonuclease Domain of the ϵ Subunit of Escherichia coli DNA Polymerase III

NMR solution structure of the θ subunit of DNA polymerase III from Escherichia coli

Aspects of core subunits of DNA polymerase III holoenzyme in Escherichia coli

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