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Evolution of p450's Machinery for C-H Amination

$44,007F32FY2014GMNIH

California Institute Of Technology, Pasadena CA

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Abstract

DESCRIPTION (provided by applicant): ¿-amino acids are an important motif found in many small molecule and large ¿-peptide drugs. We endeavor to develop a general method for synthesizing these cores. The focus of this proposal is development of a new method for ¿-amino acid synthesis using metalloenzymes to catalyze a C-H amination. Currently there are no known C-H amination catalysts found in nature. We propose evolving the existing machinery of p450 CYP102A1 (p450BM3), an effective catalyst for C-H hydroxylation, to perform a C-H amination at the ¿-position of carboxyl groups. Previous studies have demonstrated this enzyme will introduce oxygen into a variety of substrates with O2 as the stoichiometric oxidant. We propose using azides as a nitrogen based oxidant for amination. Our specific aims are: (1) To evolve existing p450BM3 to aminate esters with long alkoxy- acid linkages to mimic the native substrate for p450BM3; then extend this method to simple esters using directed evolution; (2) Aminate alkyl acids using directed evolution in concert with a hydrogen bonding additive. These aims will be initiated using the large number of existing p450BM3 mutants in the Arnold Lab followed by further rounds of evolution. We will used a click reaction with a fluorescent alkyne to determine the degree of azide consumption in order to accelerate the screening process. All starting materials can be rapidly prepared or purchased from commercial vendors.

View original record on NIH RePORTER →