过渡态构象效应控制手性1-氮杂三烯电环化反应的扭转选择性。

Transition State Gauche Effects Control the Torquoselectivities of the Electrocyclizations of Chiral 1-Azatrienes.

作者信息

Patel Ashay, Vella Joseph R, Ma Zhi-Xiong, Hsung R P, Houk K N

机构信息

Division of Pharmaceutical Sciences, School of Pharmacy, and Department of Chemistry, University of Wisconsin , Madison, Wisconsin 53705, United States.

出版信息

J Org Chem. 2015 Dec 4;80(23):11888-94. doi: 10.1021/acs.joc.5b02085. Epub 2015 Oct 16.

DOI:10.1021/acs.joc.5b02085

PMID:26435446

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5555587/

Abstract

Hsung et al. have reported a series of torquoselective electrocyclizations of chiral 1-azahexa-1E,3Z,5E-trienes that yield functionalized dihydropyridines. To understand the origins of the torquoselectivities of these azaelectrocyclizations, we modeled these electrocyclic ring closures using the M06-2X density functional. A new stereochemical model that rationalizes the observed 1,2 stereoinduction emerges from these computations. This model is an improvement and generalization of the "inside-alkoxy" model used to rationalize stereoselectivities of the 1,3-dipolar cycloaddition of chiral allyl ethers and emphasizes a stabilizing hyperconjugative effect, which we have termed a transition state gauche effect. This stereoelectronic effect controls the conformational preferences at the electrocyclization transition states, and only in one of the allowed disrotatory electrocyclization transition states is the ideal stereoelectronic arrangement achieved without the introduction of a steric clash. Computational experiments confirm the role of this effect as a stereodeterminant since substrates with electropositive groups and electronegative groups have different conformational preferences at the transition state and undergo ring closure with divergent stereochemical outcomes. This predicted reversal of stereoselectivity for the ring closures of several silyl substituted azatrienes have been demonstrated experimentally.

摘要

熊等人报道了一系列手性1-氮杂-1E,3Z,5E-己三烯的扭矩选择性电环化反应，生成了功能化的二氢吡啶。为了理解这些氮杂电环化反应扭矩选择性的起源，我们使用M06-2X密度泛函对这些电环化闭环反应进行了建模。从这些计算中出现了一个新的立体化学模型，该模型合理化了观察到的1,2立体诱导现象。这个模型是对用于合理化手性烯丙基醚1,3-偶极环加成反应立体选择性的“内烷氧基”模型的改进和推广，并强调了一种稳定的超共轭效应，我们将其称为过渡态邻位效应。这种立体电子效应控制着电环化过渡态的构象偏好，并且只有在允许的顺旋电环化过渡态之一中，才能够在不引入空间冲突的情况下实现理想的立体电子排列。计算实验证实了这种效应作为立体决定因素的作用，因为带有正电基团和负电基团的底物在过渡态具有不同的构象偏好，并经历具有不同立体化学结果的闭环反应。实验已经证明了几种硅基取代氮杂三烯闭环反应的这种预测的立体选择性反转。

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