钯催化的氨基酸酯的不对称 N-烯丙基化反应：具有优异催化剂控制的 ProM-15 和相关双环二肽类似物的立体发散合成。

Pd-Catalyzed Asymmetric N-Allylation of Amino Acid Esters with Exceptional Levels of Catalyst Control: Stereo-Divergent Synthesis of ProM-15 and Related Bicyclic Dipeptide Mimetics.

机构信息

Department of Chemistry, University of Cologne, Greinstrasse 4, 50939, Köln, Germany.

Leibniz-Institut für Molekulare Pharmakologie (FMP), 13125, Berlin, Germany.

出版信息

Chemistry. 2020 Mar 9;26(14):3049-3053. doi: 10.1002/chem.202000307. Epub 2020 Feb 18.

DOI:10.1002/chem.202000307

PMID:31961029

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7078984/

Abstract

A general and powerful method for the stereo-controlled Pd-catalyzed N-allylation of amino acid esters is reported, as a previously largely unsolved synthetic challenge. Employing a new class of tartaric acid-derived C -symmetric chiral diphosphane ligands the developed asymmetric amination protocol allows the conversion of various amino acid esters to the N-allylated products with highest levels of enantio- or diastereoselectivity in a fully catalyst-controlled fashion and predictable configuration. Remarkably, the in situ generated catalysts also exhibit outstanding levels of activity (ligand acceleration). The usefulness of the method was demonstrated in the stereo-divergent synthesis of a set of new conformationally defined dipeptide mimetics, which represent new modular building blocks for the development of peptide-inspired bioactive compounds.

摘要

本文报道了一种通用且强大的方法，用于立体控制的钯催化氨基酸酯的 N-烯丙基化，这是一个以前尚未解决的合成挑战。通过使用一类新型的酒石酸衍生的 C2 对称手性双膦配体，开发的不对称胺化反应协议允许以完全催化剂控制的方式和可预测的构型，将各种氨基酸酯转化为 N-烯丙基化产物，具有最高的对映选择性或非对映选择性。值得注意的是，原位生成的催化剂也表现出出色的活性（配体加速）。该方法的实用性在一组新的构象定义的二肽类似物的立体发散合成中得到了证明，这些类似物代表了开发肽类生物活性化合物的新的模块化构建块。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/698f/7078984/6dd3a17bda64/CHEM-26-3049-g001.jpg

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钯催化的氨基酸酯的不对称 N-烯丙基化反应：具有优异催化剂控制的 ProM-15 和相关双环二肽类似物的立体发散合成。

Pd-Catalyzed Asymmetric N-Allylation of Amino Acid Esters with Exceptional Levels of Catalyst Control: Stereo-Divergent Synthesis of ProM-15 and Related Bicyclic Dipeptide Mimetics.

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