硫醇-烯化学在肽科学中的应用

Applications of Thiol-Ene Chemistry for Peptide Science.

作者信息

Nolan Mark D, Scanlan Eoin M

机构信息

School of Chemistry, Trinity College Dublin, Trinity Biomedical Sciences Institute, Dublin, Ireland.

出版信息

Front Chem. 2020 Nov 12;8:583272. doi: 10.3389/fchem.2020.583272. eCollection 2020.

DOI:10.3389/fchem.2020.583272

PMID:33282831

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7689097/

Abstract

Radical thiol-ene chemistry has been demonstrated for a range of applications in peptide science, including macrocyclization, glycosylation and lipidation amongst a myriad of others. The thiol-ene reaction offers a number of advantages in this area, primarily those characteristic of "click" reactions. This provides a chemical approach to peptide modification that is compatible with aqueous conditions with high orthogonality and functional group tolerance. Additionally, the use of a chemical approach for peptide modification affords homogeneous peptides, compared to heterogeneous mixtures often obtained through biological methods. In addition to peptide modification, thiol-ene chemistry has been applied in novel approaches to biological studies through synthesis of mimetics and use in development of probes. This review will cover the range of applications of the radical-mediated thiol-ene reaction in peptide and protein science.

摘要

自由基硫醇-烯化学已在肽科学的一系列应用中得到证实，包括大环化、糖基化和脂化等众多其他应用。硫醇-烯反应在该领域具有诸多优势，主要是那些“点击”反应的特性。这为肽修饰提供了一种化学方法，该方法与水性条件兼容，具有高正交性和官能团耐受性。此外，与通常通过生物学方法获得的异质混合物相比，使用化学方法进行肽修饰可得到均一的肽。除了肽修饰外，硫醇-烯化学还通过模拟物的合成和在探针开发中的应用，被应用于生物学研究的新方法中。本综述将涵盖自由基介导的硫醇-烯反应在肽和蛋白质科学中的应用范围。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6643/7689097/b378450622a0/fchem-08-583272-g0001.jpg

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硫醇-烯化学在肽科学中的应用

Applications of Thiol-Ene Chemistry for Peptide Science.

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