N-Terminal peptide aldehydes as electrophiles in combinatorial solid phase synthesis of novel peptide isosteres.

Journal of combinatorial chemistry Pub Date : 2001-01-01 DOI:10.1021/cc000058

T. Groth, M. Meldal

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引用次数: 5

Abstract

N-Terminal peptide aldehydes were synthesized on a solid support and utilized as electrophiles in nucleophilic reactions in order to furnish novel and diverse peptide isosteres. The aldehyde moiety of the peptide was synthesized by coupling a protected aldehyde building block to the peptide and deprotecting it quantitatively in less than 3 min. It was found that protection of the two succeeding amide nitrogens was necessary in order to avoid reaction between the aldehyde and backbone amides. The N-terminal peptide aldehydes were successfully reacted in the following way: (a) reductive amination with a large variety of amines, leading to N-alkyl-gamma-aminobutyric peptide isosteres positioned centrally in the peptide; (b) reductive amination with amino esters, leading to N-terminal 2,5-diketopiperazine peptides; (c) Horner-Wadsworth-Emmons olefination, leading to unsaturated peptide isosteres positioned centrally in the peptide; and (d) Pictet-Spengler condensations, leading to tetrahydro-beta-carbolines either positioned centrally in a peptide or fused with a diketopiperazine ring in the N-terminus of the peptide.

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n端肽醛在新型肽同位体组合固相合成中的亲电作用。

在固体载体上合成n端肽醛，并在亲核反应中作为亲电试剂使用，以提供新颖多样的肽同位体。在不到3 min的时间内，通过偶联一个受保护的醛基块合成了肽的醛基部分，并对其进行了定量去保护。结果表明，为了避免醛基与主酰胺发生反应，必须对后面的两个酰胺氮进行保护。n端肽醛通过以下方式成功反应:(a)与多种胺进行还原性胺化反应，导致n -烷基- γ -氨基丁酸肽同位异构体位于肽的中心;(b)氨基还原性胺化反应，生成n端2,5-二酮哌嗪肽;(c) Horner-Wadsworth-Emmons烯化，导致位于肽中心的不饱和肽同位异构体;(d) Pictet-Spengler缩合，导致四氢- β -碳胺在肽的中心位置或在肽的n端与二酮哌嗪环融合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of combinatorial chemistry 化学-化学综合

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审稿时长

2.3 months