Effectiveness of Essential Oil Component Cocrystals Against Food Spoilage Bacteria

食物腐败 组分(热力学) 食品科学 细菌 精油 生化工程 生物技术 化学 生物 业务 工程类 物理 遗传学 热力学
作者
Fabio Montisci,Felicia Menicucci,Claudia Carraro,Michele Prencipe,Paolo Pelagatti,Andrea Ienco,Eleonora Palagano,Aïda Raio,Marco Michelozzi,Paolo P. Mazzeo,Alessia Bacchi
出处
期刊:Advanced sustainable systems [Wiley]
被引量:1
标识
DOI:10.1002/adsu.202400002
摘要

Abstract Improving food preservation technologies is a key aspect in the struggle to reduce global food waste, and natural antimicrobial substances, such as essential oil (EO) components represent very promising food preserving agent. However, their intrinsic chemico‐physical properties, such as the low melting point, low water solubility and high volatility, pose some practical difficulties in exploiting them for practical applications. Cocrystallization is used to stabilize liquid or volatile EO components providing them whit a crystalline environment, thus improving their potential application as antibacterial agents. Five EO active ingredients (THY = thymol, CAR = carvacrol, EUG = eugenol, CAD = trans‐cinnamaldehyde, and VAN = o‐vanillin) and two coformers (INA = Isonicotinamide, and HBA = 4‐hydroxybenzoic acid) have been combined and the corresponding cocrystals have been studied for their potential inhibiting effect against four food spoilage bacteria ( Bacillus thuringiensis , Enterobacter cloacae , Pseudomonas fluorescens , and Serratia marcescens ). The structures of the five cocrystals have been used to derive structure‐activity relationships in terms of release energy of the active ingredients form the crystalline environment, and a correlation has been derived with the Intermolecular Interaction Energies of the EO molecules.
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