Accelerated protein synthesis via one–pot ligation–deselenization chemistry

Accelerated protein synthesis via one–pot ligation–deselenization chemistry

Peptide ligation chemistry has revolutionized protein science by facilitating access to synthetic proteins. Here, we describe the development of additive-free ligation-deselenization chemistry at β-selenoaspartate and γ-selenoglutamate that enables the generation of native polypeptide products on un...

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Bibliographic Details
Main Authors: Mitchell, Nicholas J., Sayers, Jessica, Kulkarni, Sameer S., Clayton, Daniel, Goldys, Anna M., Ripoll-Rozada, Jorge, Barbosa Pereira, Pedro José, Chan, Bun, Radom, Leo, Payne, Richard J.
Format: Article
Published: Elsevier 2017
Subjects:
peptide synthesis; selenium; proteins; quantum chemistry calculations
Online Access:https://eprints.nottingham.ac.uk/42867/
Description
Summary:Peptide ligation chemistry has revolutionized protein science by facilitating access to synthetic proteins. Here, we describe the development of additive-free ligation-deselenization chemistry at β-selenoaspartate and γ-selenoglutamate that enables the generation of native polypeptide products on unprecedented timescales. The deselenization step is chemoselective in the presence of unprotected selenocysteine, which is highlighted in the synthesis of selenoprotein K. The power of the methodology is also showcased through the synthesis of three tick-derived thrombin-inhibiting proteins, each of which were assembled, purified, and isolated for biological assays within a few hours. The methodology described here should serve as a powerful means of accessing synthetic proteins, including therapeutic leads, in the future.

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