Sulforaphene: Formation, Stability, Separation, Purification, Determination and Biological Activities

Jie Zhang, Xiaoqing Li, Pu Ge, Bo Zhang, L. Wen, Changhong Gu, Xing-yu Zhou
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引用次数: 3

Abstract

ABSTRACT Sulforaphene (SRP) is the main isothiocyanate produced by myrosinase hydrolysis of glucoraphanin from Cruciferae plants. This review discusses the latest results on the formation, content, and stability of SRP. SRP is unstable when the solution system contains amino-acids or solvents with hydroxyl groups. Different strategies to inhibit the SRP degradation and increase the hydrolysis yield have been discussed in detail. The separation, purification and SRP determination methods are described in the review. SRP has herbicidal, antimicrobial, antimutagenic, and metabolic activities, and especially an anticancer activity. These findings indicate that SRP can be considered as a prospective therapeutic agent for major human diseases. However, for possible medicinal SRP applications, there is an urgent demand for development of new strategies for purification methods and chemical synthesis maintaining SRP stability. In addition the precise mechanism of action of SRP should be thoroughly clarified.
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萝卜硫素:形成、稳定性、分离、纯化、测定和生物活性
摘要萝卜硫素(Sulforaphene, SRP)是十字花科植物中芥子酶水解葡萄糖苷后产生的主要异硫氰酸酯。本文综述了SRP的形成、含量和稳定性方面的最新研究成果。当溶液体系中含有氨基酸或含有羟基的溶剂时,SRP是不稳定的。详细讨论了抑制SRP降解和提高水解率的不同策略。综述了其分离、纯化和SRP测定方法。SRP具有除草、抗菌、抗诱变和代谢活性,特别是抗癌活性。这些发现表明,SRP可以被认为是一种有前景的治疗人类主要疾病的药物。然而,对于可能的药用SRP应用,迫切需要开发新的纯化方法和化学合成策略来保持SRP的稳定性。此外,应彻底澄清SRP的确切作用机制。
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