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EPR and Mössbauer Characterization of Mn and Fe Enzymes, Biomimetic Models, and Intermediates

$267,659R01FY2018GMNIH

Carnegie-Mellon University, Pittsburgh PA

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Abstract

Title: EPR and Mössbauer Characterization of Mn and Fe Enzymes, Biomimetic Models, and Intermediates. Project Abstract Life for many organisms, including humans, depends on the activation of small stable molecules by metalloproteins to provide selective and rapid chemical transformations. Our goal is to give insight into how specific enzymes function through studies of the atomic level changes that occur at the metal active site as the enzymes turn over their substrate. These studies are augmented with investigations of relevant biomimetic complexes that allow specific states of activated complexes to be studied that cannot be easily trapped during chemical reactions. The results of rapid freeze quench techniques, spectroscopy, and density functional theory calculations will be combined to identify new catalytic intermediates. It is anticipated that our studies will provide a better understanding of the factors that determine the specificity and efficiency of enzymatic reactions. Three specific aims will be addressed by the proposed studies: ? Characterization of the catalytic mechanism of nitric oxide reductases. Humans possess defense systems that produce NO to combat the invasion of pathogenic bacteria. In response, bacteria can express scavenging NORs to protect the organisms against our defense systems. Knowledge of the NOR mechanism may provide targets for suppressing these defensive responses. ? Characterization of biomimetic complexes for dioxygen and water activation. Enzymes that break O-O bonds are critical for cleaving C-H bonds while those that catalyze dioxygen bond formation are key to photosynthesis. We will investigate biomimetic complexes of iron and manganese with the aim of pursuing reactive molecular states that have been postulated but whose existence has as yet eluded detection. ? Characterization of the catalytic mechanism of thiol dioxygenases. Enzymes involved in sulfur- oxidation and transfer are increasingly being recognized as potential drug targets for development of antimicrobials, therapies for cancer, and inflammatory disease. We will investigate the elemental steps in the reaction mechanisms of enzymes that provide the first step in the biological production of inorganic sulfate, hypotaurine, and taurine.

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