β-Silyl alkynoates: Versatile reagents for biocompatible and selective amide bond formation

Khokan Choudhuri; Zhenguo Zhang; Teck Peng Loh

doi:10.1126/sciadv.adp7544

β-Silyl alkynoates: Versatile reagents for biocompatible and selective amide bond formation

Khokan Choudhuri, Zhenguo Zhang, Teck Peng Loh

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The study introduces a previously unidentified method for amide bond formation that addresses several limitations of conventional approaches. It uses the β-silyl alkynoate molecule, where the alkynyl group activates the ester for efficient amide formation, while the bulky TIPS (triisopropylsilane) group prevents unwanted 1,4-addition reactions. This approach exhibits high chemoselectivity for amines, making the method compatible with a wide range of substrates, including secondary amines, and targets the specific ε-amino group of lysine among the native amino ester’s derivatives. It maintains stereochemistry during amide bond formation and TIPS group removal, allowing a versatile platform for postsynthesis modifications such as click reactions and peptide-drug conjugations. These advancements hold substantial promise for pharmaceutical development and peptide engineering, opening avenues for research applications.

Original language	English
Article number	eadp7544
Journal	Science advances
Volume	10
Issue number	38
DOIs	https://doi.org/10.1126/sciadv.adp7544
State	Published - 20 Sep 2024
Externally published	Yes

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title = "β-Silyl alkynoates: Versatile reagents for biocompatible and selective amide bond formation",

abstract = "The study introduces a previously unidentified method for amide bond formation that addresses several limitations of conventional approaches. It uses the β-silyl alkynoate molecule, where the alkynyl group activates the ester for efficient amide formation, while the bulky TIPS (triisopropylsilane) group prevents unwanted 1,4-addition reactions. This approach exhibits high chemoselectivity for amines, making the method compatible with a wide range of substrates, including secondary amines, and targets the specific ε-amino group of lysine among the native amino ester{\textquoteright}s derivatives. It maintains stereochemistry during amide bond formation and TIPS group removal, allowing a versatile platform for postsynthesis modifications such as click reactions and peptide-drug conjugations. These advancements hold substantial promise for pharmaceutical development and peptide engineering, opening avenues for research applications.",

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AU - Loh, Teck Peng

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AB - The study introduces a previously unidentified method for amide bond formation that addresses several limitations of conventional approaches. It uses the β-silyl alkynoate molecule, where the alkynyl group activates the ester for efficient amide formation, while the bulky TIPS (triisopropylsilane) group prevents unwanted 1,4-addition reactions. This approach exhibits high chemoselectivity for amines, making the method compatible with a wide range of substrates, including secondary amines, and targets the specific ε-amino group of lysine among the native amino ester’s derivatives. It maintains stereochemistry during amide bond formation and TIPS group removal, allowing a versatile platform for postsynthesis modifications such as click reactions and peptide-drug conjugations. These advancements hold substantial promise for pharmaceutical development and peptide engineering, opening avenues for research applications.

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β-Silyl alkynoates: Versatile reagents for biocompatible and selective amide bond formation

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