Biocatalytic synthesis of the non-pungent capsaicinoid olvanil from agri-food waste

IF 4.9

RSC sustainability Pub Date : 2025-07-28 DOI:10.1039/D5SU00241A

Celeste Nobbio, Daniele Fiorito, Eda Kocer, Stefano Magni, Erica Elisa Ferrandi, Daniela Monti, Elisabetta Brenna, Davide Tessaro and Fabio Parmeggiani

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Abstract

Capsaicin and simple capsaicinoids have been shown to possess multiple beneficial effects as antibacterials, anticancer agents, antioxidants or against obesity, just to name a few. Olvanil is one of the first synthetic capsaicinoid derivatives designed to activate the same receptor as natural capsaicin, without eliciting its powerful stinging or burning effects. The traditional synthetic approaches to olvanil involve the chemical conversion of vanillin into vanillylamine and a poorly atom-economic chemical amidation with an activated derivative of oleic acid. In this work, a simple biocatalytic two-step procedure has been developed and optimised to produce olvanil, starting from two biomass-derived synthons (oleic acid from vegetable oil soapstock waste and vanillin from lignin). The process employs only biobased reagents and catalysts, under mild conditions and without wasteful purifications, aligning well with the concepts of green chemistry and circular economy.

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从农业食品废弃物中生物催化合成无刺激性辣椒素的研究

辣椒素和简单的辣椒素已被证明具有多种有益作用，如抗菌剂、抗癌剂、抗氧化剂或对抗肥胖，仅举几例。Olvanil是第一个人工合成的辣椒素衍生物之一，设计用于激活与天然辣椒素相同的受体，而不会引起其强大的刺痛或灼烧效果。传统的香兰素合成方法包括将香兰素化学转化为香兰素胺和用油酸的活化衍生物进行原子经济性较差的化学酰胺化。在这项工作中，开发并优化了一种简单的生物催化两步法，从两种生物质衍生的合成物（植物油皂料废料中的油酸和木质素中的香兰素）开始生产香兰素。该过程只使用生物基试剂和催化剂，在温和的条件下，没有浪费的净化，很好地符合绿色化学和循环经济的概念。

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来源期刊

RSC sustainability

CiteScore

0.60

自引率

0.00%

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