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Cerium-mediated site-selective cysteine functionalization.


ABSTRACT: The chemical roles of lanthanides in biology are increasingly recognized, yet remain largely unexplored. Unlike most lanthanides, cerium is redox-active and readily adapted for chemical transformation. Herein, we report a cerium-mediated oxidative thiol-ene coupling between cysteine-derived thiols and styrenes under aqueous conditions, yielding β-hydroxysulfide products. Building on this reactivity, we developed a site-selective cysteine modification strategy using a 17-amino acid cerium-binding sequence. Only cysteines optimally positioned near the vacant coordination site undergo efficient and rapid labeling, particularly with electron-deficient styrene derivatives. This work demonstrates cerium-mediated biological activity and highlights its potential as a reactive center for site-selective bioconjugation and broader biochemical and synthetic applications.

SUBMITTER: Lee J 

PROVIDER: S-EPMC12486149 | biostudies-literature | 2025 Oct

REPOSITORIES: biostudies-literature

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Cerium-mediated site-selective cysteine functionalization.

Lee Jaewon J   Song Woon Ju WJ  

Chemical science 20251001 42


The chemical roles of lanthanides in biology are increasingly recognized, yet remain largely unexplored. Unlike most lanthanides, cerium is redox-active and readily adapted for chemical transformation. Herein, we report a cerium-mediated oxidative thiol-ene coupling between cysteine-derived thiols and styrenes under aqueous conditions, yielding β-hydroxysulfide products. Building on this reactivity, we developed a site-selective cysteine modification strategy using a 17-amino acid cerium-binding  ...[more]

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2022-10-25 | PXD037525 | Pride