Philip A. Cistrone, Michael J. Bird, Dillon T. Flood, Anthony P. Silvestri, Jordi C. J. Hintzen, Darren A. Thompson, Philip E. Dawson
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引用次数: 16
Abstract
For over 20 years, native chemical ligation (NCL) has played a pivotal role in enabling total synthesis and semisynthesis of increasingly complex peptide and protein targets. Classical NCL proceeds by chemoselective reaction of two unprotected polypeptide chains in near-neutral-pH, aqueous solution and is made possible by the presence of a thioester moiety on the C-terminus of the N-terminal peptide fragment and a natural cysteine residue on the N-terminus of the C-terminal peptide fragment. The reaction yields an amide bond adjacent to cysteine at the ligation site, furnishing a native protein backbone in a traceless manner. This unit highlights a number of recent and powerful advances in the methodology and outlines their particular uses, facilitating application in the synthesis of challenging protein targets. © 2019 by John Wiley & Sons, Inc.
多肽和蛋白质的天然化学连接
20多年来,天然化学结扎(NCL)在越来越复杂的肽和蛋白质靶点的全合成和半合成中发挥了关键作用。经典的NCL是通过在接近中性ph的水溶液中两条无保护的多肽链的化学选择反应进行的,并通过在n端肽片段的c端存在硫酯部分和在c端肽片段的n端存在天然半胱氨酸残基而成为可能。该反应在结扎部位产生与半胱氨酸相邻的酰胺键,以无痕迹的方式提供天然蛋白质骨架。本单元重点介绍了该方法的一些最新和强大的进展,并概述了它们的特殊用途,促进了在合成具有挑战性的蛋白质靶标中的应用。©2019 by John Wiley &儿子,Inc。
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