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Biomimetic Synthesis of Complex Natural Products

$312,782R01FY2013GMNIH

Boston University (Charles River Campus), Boston MA

Investigators

Linked publications, trials & patents

Abstract

DESCRIPTION (provided by applicant): Chemical synthesis of natural products inspired by their biogenesis is appealing due to the possibility to formulate biosynthetic hypotheses and invent the appropriate synthetic methodology to access synthetic targets. The proposed chemical synthesis studies should lead to the identification of novel, bioactive molecules and pharmacological tools. The overall goal of the project is to develop and refine biomimetic syntheses using copper-mediated enantioselective oxidation processes (Project 1), photochemical cycloaddition employing excited state intramolecular proton transfer (ESIPT) (Project 2), and asymmetric reactions of acylphloroglucinols (Project 3). Professor Porco and colleagues will apply these methodologies to the chemical synthesis of complex natural products including bisorbicillinol, sorbicillactone A, aglaiastatin, ponapensin, and myrtucommulones A and B. A collaboration in place with Professor Linda Doerrer (Boston University) will continue mechanistic investigations to understand the copper-mediated enantioselective oxygenase and oxidase processes. Likewise, a continuing collaboration with Professor Eric N. Jacobsen and coworkers (Harvard University) will seek to identify chiral thiourea photocatalysts for asymmetric photocycloadditions. Collaborations are also in place with biological collaborators including Dr. John A. Beutler (National Cancer Institute) and Professor Jerry Pelletier (McGill University) to evaluate compounds as anticancer agents and protein translation inhibitors. The aims of the proposed project are to: 1) Synthesize the telomerase inhibitor (-) diazaphilonic acid, achieve the enantioselective syntheses of bisorbicillinol and bisvertilone using asymmetric oxidative dearomatization, achieve the enantioselective synthesis of the antileukemic agent sorbicillactone A, undertake mechanistic studies for copper-mediated oxidations using UV and Raman spectroscopy, and develop asymmetric oxidative dimerization of hydroxystyrene monomers to access 2,3-dihydrobenzofuran natural products. 2) Develop catalytic asymmetric photocycloaddition approaches to rocaglamide and related natural products employing chiral thioureas, achieve the syntheses of the aglain natural products ponapensin and foveoglin A and the rocaglates aglaiastatin and aglaroxin, and evaluate rocaglate and aglain compounds as protein translation inhibitors. 3) Develop asymmetric syntheses of the acylphloroglucinol natural products myrtucommulones A and B using chiral phase transfer catalysis and synthesize the natural product bullataketal A.

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