David P. Provencal scite author profile

The convergent, highly enantioselective synthesis of rhizoxin D, a natural product possessing potent antitumor and antifungal bioactivity, is described. The C(1)-C(9) fragment of the molecule was synthesized utilizing a threefold pseudosymmetric intermediate ultimately derived from gamma-butyrolactone. The central core of rhizoxin D was prepared via a chiral resolution/asymmetric aldol protocol. Several methods for the generation of the polyene fragment were explored, and the side-chain was ultimately prepared from serine in six steps. The unification of the left and right wings of the molecule was achieved using a one-step olefination protocol, and the macrocyclization was carried out using a Horner-Emmons olefination at the C(2)-C(3) olefin.

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Development of a Practical Synthesis of a TORC1/2 Inhibitor: A Scalable Application of Memory of Chirality

Hicks

Hou

Langston

et al. 2013

Org. Process Res. Dev.

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Progression toward a scalable synthesis of TORC1/2 inhibitor bulk drug, culminating in the first GMP manufacturing campaign, is described. Process research and development was needed to obtain the prerequisite stereocenter in high enantiomeric excess for kilogram-scale production. Through route selection, a six-linear step synthesis was developed which afforded the API in 20% overall yield. Development included an application of memory of chirality (MOC) to install a quaternary chiral center with near complete retention, a reductive cyclization to form a piperazinone core, and a palladium-catalyzed C–C bond-forming step.

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Development of an Efficient and Scalable Process of a Respiratory Syncytial Virus Inhibitor

Provencal

Gesenberg

Wang

et al. 2004

Org. Process Res. Dev.

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Efficient Synthesis of (2S,3S)-2-Ethyl-3-methylvaleramide Using (1S,2S)-Pseudoephedrine as a Chiral Auxiliary

Hughes

et al. 2009

Org. Process Res. Dev.

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An efficient and scaleable synthesis of (2S,3S)-2-ethyl-3-methylvaleramide (1) has been developed starting from inexpensive and readily available L-isoleucine. The key step in this process is an asymmetric alkylation using (1S,2S)-pseudoephedrine as a chiral auxiliary. A practical procedure was developed to remove the sterically hindered pseudoephedrine auxiliary from the amide. The process consists of eight chemical steps and five isolations without any chromatographic purification. It has been successfully implemented to prepare several multikilogram batches of the target compound 1 in 41% overall yield.

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Convenient Construction of Cyclopentanones via "Cyclopentannulation" of Carbonyls

Provencal¹,

Leahy²

1994

J. Org. Chem.

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