天然化学连接、硫醇-烯点击：一种用于功能化肽合成的方法。

Native chemical ligation,thiol-ene click: a methodology for the synthesis of functionalized peptides.

机构信息

Trinity Biomedical Sciences Institute, Trinity College, 152-160 Pearse Street, Dublin 2, Ireland.

出版信息

J Org Chem. 2013 May 3;78(9):4270-7. doi: 10.1021/jo4001542. Epub 2013 Apr 18.

Abstract

The sequential combination of native chemical ligation and thiol-ene radical chemistry (NCL-TEC) on the resulting cysteine thiol has been investigated as a methodology for rapidly accessing functionalized peptides. Three sequential cycles of native chemical ligation and subsequent thiyl radical reactions (including a free-radical-mediated desulfurization reaction) were carried out on a peptide backbone demonstrating the iterative nature of this process. The versatility of the thiyl radical reaction at cysteine was demonstrated through the introduction of a number of different side chains including an amino acid derivative, a carbohydrate group, and an alkyl azide. Conditions were developed that allowed the sequential NCL-TEC process to proceed in high yield.

摘要

已研究了在所得半胱氨酸巯基上进行天然化学连接和硫醇-烯基自由基化学（NCL-TEC）的顺序组合，作为快速获得官能化肽的方法。在肽主链上进行了三个连续的天然化学连接和随后的硫自由基反应循环（包括自由基介导的脱硫反应），证明了该过程的迭代性质。通过引入许多不同的侧链，包括氨基酸衍生物、糖基团和烷基叠氮化物，证明了半胱氨酸上硫自由基反应的多功能性。已经开发出允许顺序 NCL-TEC 过程以高产率进行的条件。

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天然化学连接、硫醇-烯点击：一种用于功能化肽合成的方法。

Native chemical ligation,thiol-ene click: a methodology for the synthesis of functionalized peptides.

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