Richard D. Tillyer scite author profile

Innovations in synthetic chemistry have enabled the discovery of many breakthrough therapies that have improved human health over the past century. In the face of increasing challenges in the pharmaceutical sector, continued innovation in chemistry is required to drive the discovery of the next wave of medicines. Novel synthetic methods not only unlock access to previously unattainable chemical matter, but also inspire new concepts as to how we design and build chemical matter. We identify some of the most important recent advances in synthetic chemistry as well as opportunities at the interface with partner disciplines that are poised to transform the practice of drug discovery and development.

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Highly Efficient Synthesis of β-Amino Acid Derivatives via Asymmetric Hydrogenation of Unprotected Enamines

Hsiao¹,

Rivera²,

Rosner³

et al. 2004

J. Am. Chem. Soc.

243

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Practical Asymmetric Synthesis of Efavirenz (DMP 266), an HIV-1 Reverse Transcriptase Inhibitor

Pierce¹,

Parsons²,

Radesca³

et al. 1998

J. Org. Chem.

208

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A highly enantioselective and practical synthesis of the HIV-1 reverse transcriptase inhibitor efavirenz (1) is described. The synthesis proceeds in 62% overall yield in seven steps from 4-chloroaniline (6) to give efavirenz (1) in excellent chemical and optical purity. A novel, enantioselective addition of Li-cyclopropyl acetylide (4a) to p-methoxybenzyl-protected ketoaniline 3a mediated by (1R,2S)-N-pyrrolidinylnorephedrine lithium alkoxide (5a) establishes the stereogenic center in the target with a remarkable level of stereocontrol.

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Highly Enantioselective 1,2-Addition of Lithium Acetylide-Ephedrate Complexes: Spectroscopic Evidence for Reaction Proceeding via a 2:2 Tetramer, and X-ray Characterization of Related Complexes

Reamer

Tillyer

et al. 2000

J. Am. Chem. Soc.

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The key step in the manufacturing process for the HIV reverse transcriptase inhibitor efavirenz (Sustiva) involves addition of the 2:2 tetrameric complex 6 [formed from lithium cyclopropylacetylide (5) and lithium (1R,2S)-N-pyrrolidinylnorephedrate (4)] to ketone 2, to give 3 in 95% yield and 98% enantioselectivity. Studies of acetylide-alkoxide complexes in solution by NMR spectroscopy and in the solid state by X-ray crystallography are described. Studies of the asymmetric addition reaction involving 2:2 tetramer 6 using lowtemperature NMR spectroscopy provide conclusive evidence for formation of 2:1:1 tetramer 9 containing the product alkoxide 3. Observation of this reaction intermediate strongly supports the proposed reaction mechanism involving the tetramer 6 in the stereo-determining step.

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