手性磷酸催化恶唑烷酮与乙烯基醚的羟醛型反应中立体选择性的机理与起源

Mechanism and Origin of Stereoselectivity in Chiral Phosphoric Acid-Catalyzed Aldol-Type Reactions of Azlactones with Vinyl Ethers.

作者信息

Kanomata Kyohei, Nagasawa Yuki, Shibata Yukihiro, Yamanaka Masahiro, Egawa Fuyuki, Kikuchi Jun, Terada Masahiro

机构信息

Department of Chemistry, Graduate School of Science, Tohoku University, Aramaki, Aoba-ku, Sendai, 980-8578, Japan.

Present Addresses: Department of Agro-Environmental Sciences, Graduate School of Bioresource and Bioenvironmental Sciences, Kyushu University, Fukuoka, 819-0395, Japan.

出版信息

Chemistry. 2020 Mar 12;26(15):3364-3372. doi: 10.1002/chem.201905296. Epub 2020 Feb 25.

DOI:10.1002/chem.201905296

PMID:31875481

Abstract

The precise mechanism of the chiral phosphoric acid-catalyzed aldol-type reaction of azlactones with vinyl ethers was investigated. DFT calculations suggested that the reaction proceeds through a Conia-ene-type transition state consisting of the vinyl ether and the enol tautomer of the azlactone, in which the catalyst protonates the nitrogen atom of the azlactone to promote enol tautomerization. In addition, the phosphoryl oxygen of the catalyst interacts with the vinyl proton of the vinyl ether. The favorable transition structure features dicoordinating hydrogen bonds. However, these hydrogen bonds are not involved in the bond recombination sequence and hence the catalyst functions as a template for binding substrates. From the results of theoretical studies and experimental supports, the high enantioselectivity is induced by the steric repulsion between the azlactone substituent and the binaphthyl backbone of the catalyst under the catalyst template effect.

摘要

研究了手性磷酸催化的吖内酯与乙烯基醚的羟醛型反应的精确机理。密度泛函理论计算表明，该反应通过由乙烯基醚和吖内酯的烯醇互变异构体组成的Conia-烯型过渡态进行，其中催化剂使吖内酯的氮原子质子化以促进烯醇互变异构。此外，催化剂的磷酰氧与乙烯基醚的乙烯基质子相互作用。有利的过渡结构具有双配位氢键。然而，这些氢键不参与键重组序列，因此催化剂起到结合底物的模板作用。根据理论研究结果和实验支持，在催化剂模板效应下，吖内酯取代基与催化剂的联萘骨架之间的空间排斥诱导了高对映选择性。

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手性磷酸催化恶唑烷酮与乙烯基醚的羟醛型反应中立体选择性的机理与起源

Mechanism and Origin of Stereoselectivity in Chiral Phosphoric Acid-Catalyzed Aldol-Type Reactions of Azlactones with Vinyl Ethers.

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