Review on Lipase-Catalyzed Flavor Synthesis: Global Trends and Advances

南极洲假丝酵母 风味 生物催化 脂肪酶 生化工程 化学 绿色化学 有机化学 区域选择性 催化作用 生物技术 生物化学 生物 反应机理 工程类
作者
Artur Ramon Tomé Oliveira,Francisco Izaias da Silva Aires,Dayana Nascimento Dari,José Roberto de Matos Filho,Kaiany Moreira dos Santos,Francisco Simão Neto,Francisco Lucas de Souza Magalhães,Patrick da Silva Sousa,Paulo Gonçalves de Sousa,Rafael Leandro Fernandes Melo,Iris Cornet,Jesús Fernández‐Lucas,Marcos Carlos de Mattos,José Cleiton Sousa dos Santos
出处
期刊:Journal of Agricultural and Food Chemistry [American Chemical Society]
卷期号:73 (28): 17315-17330 被引量:8
标识
DOI:10.1021/acs.jafc.5c00386
摘要

The enzymatic synthesis of esterified flavors is pivotal in the food, pharmaceutical, and cosmetic industries. Among the available approaches, lipase-catalyzed reactions have gained increasing attention due to the enzymes' biodegradability, high enantio- and regioselectivity, availability, and effectiveness under mild, eco-friendly conditions, aligning well with the principles of green chemistry. This topic was selected due to the vast potential of biocatalysis in the sustainable and efficient synthesis of diverse flavor compounds. Using the Web of Science database with the keywords "flavor", "enzyme", and "lipase", 189 relevant articles were identified, revealing that the majority of publications fall within the fields of chemistry, food science, and biochemistry. This review explores the catalytic mechanisms of lipases during acetylation reactions, focusing on structural conformational changes during enzymatic processes. Lipases from Candida antarctica (notably CALB, Lipozyme, and Novozym 435) emerge as the most commonly employed biocatalysts for esterified flavor production. Interestingly, most studies emphasize the immobilization supports rather than the intrinsic properties or engineering of the enzymes themselves. The findings underscore a growing global interest in enzyme-mediated flavor synthesis. Future studies should explore enzyme engineering to enhance activity and specificity, broaden the range of usable substrates, and improve the operational stability. Key challenges include the high cost of enzyme production, limited substrate scope in some systems, and the need for scalable, cost-effective bioprocesses for industrial applications.
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