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Catalyst-controlled site-selective methylene C-H lactonization of dicarboxylic acids.


ABSTRACT: Catalyst-controlled site-selective activation of β- and γ-methylene carbon-hydrogen (C-H) bonds of free carboxylic acids is a long-standing challenge. Here we show that, with a pair of palladium catalysts assembled with quinoline-pyridone ligands of different chelate ring sizes, it is possible to perform highly site-selective monolactonization reactions with a wide range of dicarboxylic acids, generating structurally diverse and synthetically useful γ- and δ-lactones via site-selective β- or γ-methylene C-H activation. The remaining carboxyl group serves as a versatile linchpin for further synthetic applications, as demonstrated by the total synthesis of two natural products, myrotheciumone A and pedicellosine, from abundant dicarboxylic acids.

SUBMITTER: Chan HSS 

PROVIDER: S-EPMC10243502 | biostudies-literature | 2022 Jun

REPOSITORIES: biostudies-literature

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Catalyst-controlled site-selective methylene C-H lactonization of dicarboxylic acids.

Chan Hau Sun Sam HSS   Yang Ji-Min JM   Yu Jin-Quan JQ  

Science (New York, N.Y.) 20220526 6600


Catalyst-controlled site-selective activation of β- and γ-methylene carbon-hydrogen (C-H) bonds of free carboxylic acids is a long-standing challenge. Here we show that, with a pair of palladium catalysts assembled with quinoline-pyridone ligands of different chelate ring sizes, it is possible to perform highly site-selective monolactonization reactions with a wide range of dicarboxylic acids, generating structurally diverse and synthetically useful γ- and δ-lactones via site-selective β- or γ-m  ...[more]

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