A preliminary CD and NMR study of the Escherichia coli DNA polymerase III theta subunit.

The theta subunit of DNA polymerase III, the main replicative polymerase of Escherichia coli, has been examined by circular dichroism and by NMR spectroscopy. The polymerase core consists of three subunits: alpha, epsilon, and theta, with alpha possessing the polymerase activity, epsilon functioning as a proofreading exonuclease, and theta, a small subunit of 8.9 kD, of undetermined function. The theta subunit has been expressed in E. coli, and a CD analysis of theta indicates the presence of a significant amount of secondary structure: approximately 52% alpha helix, 9% beta sheet, 21% turns, and 18% random coil. However, at higher concentrations, theta yields a poorly-resolved 1D proton NMR spectrum in which both the amide protons and the methyl protons show poor chemical shift dispersion. Subsequent 1H-15N HSQC analysis of uniformly-15N-labeled theta supports the conclusion that approximately half of the protein is reasonably well-structured. Another quarter of the protein, probably including some of the N-terminal region, is highly mobile, exhibiting a chemical shift pattern indicative of random coil structure. The remaining amide resonances exhibit significant broadening, indicative of intermolecular and/or intramolecular exchange processes. Improved chemical shift dispersion and greater uniformity of resonance intensities in the 1H-15N HSQC spectra resulted when U-15N]-theta was examined in the presence of epsilon186--the N-terminal domain of the epsilon-subunit. Further work is currently in progress to define the solution structure of theta and the theta-epsilon186 complex.