Design and Synthesis of β-Elemene Glycoside Derivatives Containing Heteratom S or Se

Chem. J. Chinese Universities

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Design and Synthesis of β-Elemene Glycoside Derivatives Containing Heteratom S or Se

YANG Lan-Yi¹, ZHANG Shu-Jia^1,2, ZHENG Xue-Fang^2*, YIN Hong-Xing¹

1. College of Environmental and Chemical Engineering, Dalian University,
2. Key Laboratory of Bioorganic Chemistry of Liaoning Province, Dalian 116622, China

Received:2008-02-28 Revised:1900-01-01 Online:2008-11-10 Published:2008-11-10
Contact: ZHENG Xue-Fang

Abstract

Abstract: For the purpose of hunting for better water solubility and anti-tumor activity derivatives, structural modification of anticancer agent β-elemene was reported. Significant heteroatom S and Se were introduced into the skeleton of β-elemene and a pair of bioisosteres 3, 6 were obtained. Whereafter, conjugation with a series of glycosyls selectively gave the corresponding 1,2-trans-glycosides 11a—11c, 12a—12c via several approaches. Then target compounds 13a—13c, 14a—14c were obtained in high yields after deprotection. Heteroatom Se and hydrophilic saccharides were introduced into the skeleton of β-elemene for the first time, and a convenient method was set up for the synthesis of selenide of β-elemene. The glycosylation results demonstrate that glycosyl trichloroacetimidate was a suitable donor for the glycoside synthesis of β-elemene. The structures of products were confirmed via IR, ¹H NMR, ¹³C NMR, ⁷⁷Se NMR and HRMS spectra.

Key words: β-Elemene, Structural modification, Glycoside, Organoselenium

CLC Number:

O629.13

TrendMD:

YANG Lan-Yi¹, ZHANG Shu-Jia^1,2, ZHENG Xue-Fang^2*, YIN Hong-Xing¹. Design and Synthesis of β-Elemene Glycoside Derivatives Containing Heteratom S or Se[J]. Chem. J. Chinese Universities, doi: .

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Design and Synthesis of β-Elemene Glycoside Derivatives Containing Heteratom S or Se

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