Genetic Encoding and Enzymatic Deprotection of a Latent Thiol Side Chain to Enable New Protein Bioconjugation Applications

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Abstract

The thiol group of the cysteine side chain is arguably the most versatile chemical handle in proteins. To expand the scope of established and commercially available thiol bioconjugation reagents, we genetically encoded a second such functional moiety in form of a latent thiol group that can be unmasked under mild physiological conditions. Phenylacetamidomethyl (Phacm) protected homocysteine (HcP) was incorporated and its latent thiol group unmasked on purified proteins using penicillin G acylase (PGA). The enzymatic deprotection depends on steric accessibility, but can occur efficiently within minutes on exposed positions in flexible sequences. The freshly liberated thiol group does not require treatment with reducing agents. We demonstrate the potential of this approach for protein modification with conceptually new schemes for regioselective dual labeling, thiol bioconjugation in presence of a preserved disulfide bond and formation of a novel intramolecular thioether crosslink.

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Reille-Seroussi, M., Meyer-Ahrens, P., Aust, A., Feldberg, A. L., & Mootz, H. D. (2021). Genetic Encoding and Enzymatic Deprotection of a Latent Thiol Side Chain to Enable New Protein Bioconjugation Applications. Angewandte Chemie - International Edition, 60(29), 15972–15979. https://doi.org/10.1002/anie.202102343

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