Advances in Chemical Conjugation of Natural Cysteine: Techniques and Applications

Kaibo Xu; Jinling Li; Zhenguo Zhang; Teck-Peng Loh

doi:10.1055/a-2594-9636

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DOI: 10.1055/a-2594-9636

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Advances in Chemical Conjugation of Natural Cysteine: Techniques and Applications

Kaibo Xu

¹College of Advanced Interdisciplinary Science and Technology, Henan University of Technology, Zhengzhou, China (Ringgold ID: RIN47901)

,

Jinling Li

¹College of Advanced Interdisciplinary Science and Technology, Henan University of Technology, Zhengzhou, China (Ringgold ID: RIN47901)

,

Zhenguo Zhang

²Division of Chemistry and Biological Chemistry, School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore, Singapore (Ringgold ID: RIN54761)

,

Teck-Peng Loh

³Division of Chemistry and Biological Chemistry, Nanyang Technological University, Singapore, Singapore (Ringgold ID: RIN54761)

› InstitutsangabenGefördert durch: the Agency for Science, Technology, and Research (A*STAR) under its MTC Individual Research grant M21K2c0114
Gefördert durch: RIE2025 MTC Programmatic Fund M22K9b0049

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This review examines recent progress in chemical modification of natural cysteine residues, emphasizing biomedical and biotechnological applications. Capitalizing on cysteine's distinctive thiol group (-SH) and natural scarcity in proteins, researchers have developed selective modification strategies operating under physiological conditions. The analysis systematically compares single thiol functionalization techniques (maleimide conjugation, cyclooctyne reactions) and disulfide rebridging approaches (phosphonamidate/allenamide linkers), evaluating their respective merits and limitations. Current applications span targeted drug delivery, biosensor development, and protein engineering innovations. The discussion highlights increasing attention toward disulfide bond manipulation for enhanced bioconjugation stability and diversity. While acknowledging the field's transformative potential, the review identifies key challenges in optimization of reaction specificity, product stability, and biological compatibility that will guide future research directions.

Publikationsverlauf

Eingereicht: 07. April 2025

Angenommen nach Revision: 25. April 2025

Accepted Manuscript online:
25. April 2025

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