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Preparation of Artificial Dicopper Enzymes for the Catalytic Reduction of CO2

$45,257F32FY2017GMNIH

University Of California, San Diego, La Jolla CA

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Abstract

Project Summary The successful development of artificial metalloenzymes tests our understanding of enzymatic catalysis, protein folding, and bioinorganic chemistry. A distinct and unmet challenge in this arena is the development of redox-active, artificial metalloenzymes that exhibit catalytic activity with small molecules. Nature employs a diverse array of copper-containing enzymes that make use of the tunable redox properties of this ubiquitous metal ion. This proposal outlines the design of flexible metal binding sites that accommodate two redox-active and coordinatively-unsaturated copper ions at the interface of complementary protein monomers or within a reengineered maltose binding receptor protein. These designs will be guided by computational methods, X-ray crystallography and bimetallic templating strategies. As a test for the catalytic properties of the designed site, we will investigate the CuI2- catalyzed reductive coupling of CO2 to oxalate.

View original record on NIH RePORTER →