通过分子内亲核催化剂催化的羟醛内酯化反应实现双环β-内酯的不对称合成：提高效率并扩大范围。

Asymmetric synthesis of bicyclic beta-lactones via the intramolecular, nucleophile-catalyzed aldol lactonization: improved efficiency and expanded scope.

作者信息

Oh Seong Ho, Cortez Guillermo S, Romo Daniel

机构信息

Department of Chemistry, Texas A&M University, P.O. Box 30012, College Station, Texas 77842-3012, USA.

出版信息

J Org Chem. 2005 Apr 1;70(7):2835-8. doi: 10.1021/jo050024u.

DOI:10.1021/jo050024u

PMID:15787582

Abstract

[reaction: see text] The intramolecular, nucleophile-catalyzed, aldol lactonization (NCAL) process merges catalytic, asymmetric carbocycle synthesis with beta-lactone synthesis. The application of modified Mukaiyama reagents to this process led to greatly improved conversion and efficiency (70-82% yield) and shorter reaction times with no diminution of enantioselectivity (91-98% ee). The process was extended to several new aldehyde-acid substrates leading to new bicyclic-beta-lactones. This methodology uniquely provides beta-lactone-fused cyclopentanes and cyclohexanes readied for further transformations.

摘要

[反应：见正文] 分子内亲核试剂催化的羟醛内酯化（NCAL）过程将催化不对称碳环合成与β-内酯合成相结合。将改性的 Mukaiyama 试剂应用于该过程，可大大提高转化率和效率（产率 70 - 82%），缩短反应时间，且对映选择性无降低（对映体过量 91 - 98%）。该过程已扩展至几种新的醛 - 酸底物，得到了新的双环β-内酯。这种方法独特地提供了可用于进一步转化的β-内酯稠合环戊烷和环己烷。

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通过分子内亲核催化剂催化的羟醛内酯化反应实现双环β-内酯的不对称合成：提高效率并扩大范围。

Asymmetric synthesis of bicyclic beta-lactones via the intramolecular, nucleophile-catalyzed aldol lactonization: improved efficiency and expanded scope.

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