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着眼于N端序列多样性的鱼腥藻肽合成策略

Synthesis of Anabaenopeptins With a Strategic Eye Toward N-Terminal Sequence Diversity.

作者信息

Venneti Naresh M, Ramakrishna Boddu S, Harris Zoee K, Kasmer Sydney C, Anderson Dennis P, Peraino Nicholas J, Westrick Judy A, Stockdill Jennifer L

机构信息

Department of Chemistry, Wayne State University, Detroit, Michigan, USA.

Synthetic Molecule Design and Development, Eli Lilly and Company, Indianapolis, Indiana, USA.

出版信息

J Pept Sci. 2025 Mar;31(3):e70003. doi: 10.1002/psc.70003.

DOI:10.1002/psc.70003
PMID:39916497
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11908622/
Abstract

A divergent synthesis strategy was developed for producing various anabaenopeptins (AP) for harmful algal bloom monitoring. The synthesis involved on-resin stepwise pentapeptide assembly on a MeDbz linker then N-α-ureido amino acid attachment and cyclization. To manage N-methylated amino acids, modified coupling conditions were employed. Lysine's ε-amino group reacted with the activated MeDbz linker in a self-cleaving head-to-side chain cyclization. Cyclization conditions were optimized by screening different pH levels to control lysine α-amine cyclization and prevent hydrolysis. Global cleavage and purification afforded the pure anabaenopeptins. This approach proved effective as a general platform for anabaenopeptin synthesis, allowing rapid access to anabaenopeptins A, B, F, and oscillamide Y.

摘要

开发了一种发散合成策略,用于生产各种鱼腥藻毒素(AP)以监测有害藻华。该合成过程包括在MeDbz连接体上进行树脂上的逐步五肽组装,然后连接N-α-脲基氨基酸并环化。为了处理N-甲基化氨基酸,采用了改良的偶联条件。赖氨酸的ε-氨基在自切割的头对侧链环化反应中与活化的MeDbz连接体发生反应。通过筛选不同的pH水平来优化环化条件,以控制赖氨酸α-胺的环化并防止水解。整体切割和纯化得到了纯净的鱼腥藻毒素。该方法被证明是一种有效的鱼腥藻毒素合成通用平台,能够快速获得鱼腥藻毒素A、B、F和振荡酰胺Y。

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