Stereoselective synthesis of (+)-2-deoxyolivin based on cycloaddition reaction between the homophthalic anhydride and the chiral cyclohexenone derivative

Yoshinari Haruta; Kazumitsu Onizuka; Kyouichi Watanabe; Kyoko Kono; Akihiro Nohara; Kenichi Kubota; Shuhei Imoto; Shigeki Sasaki

doi:10.1016/j.tet.2008.05.080

Stereoselective synthesis of (+)-2-deoxyolivin based on cycloaddition reaction between the homophthalic anhydride and the chiral cyclohexenone derivative

Yoshinari Haruta, Kazumitsu Onizuka, Kyouichi Watanabe, Kyoko Kono, Akihiro Nohara, Kenichi Kubota, Shuhei Imoto, Shigeki Sasaki

IMRAM - Division of Organic- and Biomaterials Research

Kyushu University

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

The olivomycins are representative antitumor antibiotics in the aureolic family of the compounds, which contains the tricyclic aglycon core, olivin. In this study, we established the efficient synthesis of the anthracenone core skeleton based on a cycloaddition reaction between the homophthalic anhydride and the chiral cyclohexenone derivatives, which is promoted by the combined use of molecular sieves, proton sponge, and a Lewis acid. The cyclohexenone with four chiral centers was synthesized by asymmetric and diastereoselective reactions, and was subjected to the cycloaddition reaction with a homophthalic anhydride followed by a sequence of reactions to accomplish stereoselective synthesis of (+)-2-deoxyolivin.

Original language	English
Pages (from-to)	7211-7218
Number of pages	8
Journal	Tetrahedron
Volume	64
Issue number	30-31
DOIs	https://doi.org/10.1016/j.tet.2008.05.080
Publication status	Published - 2008 Jul 21

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10.1016/j.tet.2008.05.080

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title = "Stereoselective synthesis of (+)-2-deoxyolivin based on cycloaddition reaction between the homophthalic anhydride and the chiral cyclohexenone derivative",

abstract = "The olivomycins are representative antitumor antibiotics in the aureolic family of the compounds, which contains the tricyclic aglycon core, olivin. In this study, we established the efficient synthesis of the anthracenone core skeleton based on a cycloaddition reaction between the homophthalic anhydride and the chiral cyclohexenone derivatives, which is promoted by the combined use of molecular sieves, proton sponge, and a Lewis acid. The cyclohexenone with four chiral centers was synthesized by asymmetric and diastereoselective reactions, and was subjected to the cycloaddition reaction with a homophthalic anhydride followed by a sequence of reactions to accomplish stereoselective synthesis of (+)-2-deoxyolivin.",

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T1 - Stereoselective synthesis of (+)-2-deoxyolivin based on cycloaddition reaction between the homophthalic anhydride and the chiral cyclohexenone derivative

AU - Haruta, Yoshinari

AU - Onizuka, Kazumitsu

AU - Watanabe, Kyouichi

AU - Kono, Kyoko

AU - Nohara, Akihiro

AU - Kubota, Kenichi

AU - Imoto, Shuhei

AU - Sasaki, Shigeki

PY - 2008/7/21

Y1 - 2008/7/21

N2 - The olivomycins are representative antitumor antibiotics in the aureolic family of the compounds, which contains the tricyclic aglycon core, olivin. In this study, we established the efficient synthesis of the anthracenone core skeleton based on a cycloaddition reaction between the homophthalic anhydride and the chiral cyclohexenone derivatives, which is promoted by the combined use of molecular sieves, proton sponge, and a Lewis acid. The cyclohexenone with four chiral centers was synthesized by asymmetric and diastereoselective reactions, and was subjected to the cycloaddition reaction with a homophthalic anhydride followed by a sequence of reactions to accomplish stereoselective synthesis of (+)-2-deoxyolivin.

AB - The olivomycins are representative antitumor antibiotics in the aureolic family of the compounds, which contains the tricyclic aglycon core, olivin. In this study, we established the efficient synthesis of the anthracenone core skeleton based on a cycloaddition reaction between the homophthalic anhydride and the chiral cyclohexenone derivatives, which is promoted by the combined use of molecular sieves, proton sponge, and a Lewis acid. The cyclohexenone with four chiral centers was synthesized by asymmetric and diastereoselective reactions, and was subjected to the cycloaddition reaction with a homophthalic anhydride followed by a sequence of reactions to accomplish stereoselective synthesis of (+)-2-deoxyolivin.

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Stereoselective synthesis of (+)-2-deoxyolivin based on cycloaddition reaction between the homophthalic anhydride and the chiral cyclohexenone derivative

Abstract

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