通过正交化学连接方法进行蛋白质组装。

Protein assembly by orthogonal chemical ligation methods.

作者信息

Nilsson Bradley L, Hondal Robert J, Soellner Matthew B, Raines Ronald T

机构信息

Department of Chemistry, University of Wisconsin, Madison, Wisconsin 53706, USA.

出版信息

J Am Chem Soc. 2003 May 7;125(18):5268-9. doi: 10.1021/ja029752e.

DOI:10.1021/ja029752e

PMID:12720426

Abstract

Chemical synthesis harbors the potential to provide ready access to natural proteins as well as to create nonnatural ones. The Staudinger ligation of a peptide containing a C-terminal phosphinothioester with a peptide containing an N-terminal azide gives an amide with no residual atoms. This method for amide bond formation is orthogonal and complementary to other ligation methods. Herein, we describe the first use of the Staudinger ligation to couple peptides on a solid support. The fragment thus produced is used to assemble functional ribonuclease A via native chemical ligation. The synthesis of a protein by this route expands the versatility of chemical approaches to protein production.

摘要

化学合成具有提供便捷获取天然蛋白质以及创造非天然蛋白质的潜力。含有C端硫代膦酸酯的肽与含有N端叠氮化物的肽进行施陶丁格连接，可得到无残留原子的酰胺。这种形成酰胺键的方法与其他连接方法正交且互补。在此，我们描述了施陶丁格连接在固相载体上偶联肽的首次应用。由此产生的片段用于通过天然化学连接组装功能性核糖核酸酶A。通过这种途径合成蛋白质扩展了化学方法在蛋白质生产中的多功能性。

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通过正交化学连接方法进行蛋白质组装。

Protein assembly by orthogonal chemical ligation methods.

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