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NMR dynamical characterization of WT and cancer-associated DNA polymerase

$307,850R01FY2015GMNIH

Yale University, New Haven CT

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Abstract

DESCRIPTION (provided by applicant): The long-term goals of this project are to characterize and understand how conformational motions in DNA polymerase ? (Pol ?) participate in its catalytic reaction. Pol ? is an essential enzyme in the repair process of DNA, a process that maintains the integrity of the human genome and ultimately protects against cancer. To advance the current understanding of this enzyme, solution NMR experiments in combination with steady- state and pre-steady-state kinetics will be brought to bear on Pol ? with focus on three specific aims. 7 To determine if WT Pol ? motions in the apo, binary, and ternary complexes correlate with rate constants observed for the catalytic reaction sequence and to determine at what step these motions occur. 7 To test the hypothesis that tumor-associated Pol b mutations (I260M, K289M & E295K) have altered millisecond motions compared to the WT enzyme. 7 To characterize how WT and cancer-associated mutants, described in Aim 2, differentially interact with oxidatively damaged DNA. Aim 1 will be met by solution NMR relaxation dispersion experiments on enzyme complexes that mimic discreet steps on the Pol ? catalytic reaction coordinate. In Aim 2, Pol ? mutations that are known to be associated with human cancer will be investigated by enzyme kinetics, and NMR dynamics measurements to elucidate at what stage on the reaction coordinate altered motions or conformations occur. Lastly, Aim 3 will compare enzyme kinetics experiments that monitor the incorporation of dNTPs opposite oxidatively damaged DNA with NMR dynamics experiments. These experiments will focus on differences between WT and cancer- related mutations in their enzyme kinetics parameters and conformational changes when faced with damaged DNA.

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NMR dynamical characterization of WT and cancer-associated DNA polymerase · GrantIndex