Molecular Mechanisms of Human DNA Polymerase B Catalysis, Fidelity and Selective
University Of Southern California, Los Angeles CA
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Abstract
DNA polymerase mechanisms of base selection and catalysis are explored using a tool-kit of dNTP analogs that have bisphosphonates in place of the B,Y-bridge oxygen. These analogs are Pol B substrates that have leaving groups with widely dispirate electronic properties, pKa4 values ranging from 7.8 to 12.3, enabling us to use presteady state kinetic measurements to determine the selection of right and wrong deoxynucleotides occurring at the chemical transition state. Especially important members of the toolkit include all four individually synthesized (R)- and (S)-B,Y-CHF and B,Y-CHCI diastereomers. Our recent observation of a pronounced stereoselection for (R)-CHF in Pol B involving an electrostatic interaction of F with Arg183, unique to family X pols such as Pol B, serves as the impetus for a
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