Masuhiro Sugimoto scite author profile

A variety of optically active 2-hydroxyalkanoates and the corresponding 2-acyloxyalkanoates are produced by the kinetic resolution of racemic 2-hydroxyalkanoates by using achiral 2,2-diarylacetic acid with hindered carboxylic anhydrides as the coupling reagents. The combined use of diphenylacetic acid, pivalic anhydride, and (+)-(R)-benzotetramisole ((R)-BTM) effectively produces (S)-2-hydroxyalkanoates and (R)-2-acyloxyalkanoates from the racemic 2-hydroxyalkanoates (s-values=47-202). This protocol directly provides the desired chiral 2-hydroxyalkanoate derivatives from achiral diarylacetic acid and racemic secondary alcohols that do not include the sec-phenethyl alcohol moiety by using the transacylation process to generate the mixed anhydrides from the acid components with bulky carboxylic anhydrides under the influence of the chiral acyl-transfer catalyst. The transition state that provides the desired (R)-2-acyloxyalkanoate from (R)-2-hydroxyalkanoate included in the racemic mixture is disclosed by DFT calculations, and the structural features of the transition form are also discussed.

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2,2-Disubstituted Propionic Anhydrides: Effective Coupling Reagents for the Kinetic Resolution of Secondary Benzylic Alcohols Using BTM

Shiina¹,

Nakata²,

Sugimoto³

et al. 2009

HETEROCYCLES

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First Total Synthesis of (–)-Merrillianin

Shiina

Iizumi

Taniguchi

et al. 2023

Preprint

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ChemInform Abstract: Kinetic Resolution of the Racemic 2‐Hydroxyalkanoates Using the Enantioselective Mixed‐Anhydride Method with Pivalic Anhydride and a Chiral Acyl‐Transfer Catalyst.

et al. 2010

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First Total Synthesis of (–)-Merrillianin

Shiina

Iizumi

Taniguchi

et al. 2022

Preprint

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