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Antimicrobial activity enabled by chitosan-ε-polylysine-natamycin and its effect on microbial diversity of tomato scrambled egg paste

Wanfeng Wu, Yaru Li, Xiaoyu Zhu, Liang Wang, Jiayi Wang, Yanan Qin, Minwei Zhang, Chunshan Yu, Chunmei Gou, Xiaoqin Yan

2023Food Chemistry X14 citationsDOIOpen Access PDF

Abstract

For a long time, food spoilage posed a severe impairment on food safety and public health. Although chemical preservatives are commonly used to inhibit spoilage/ pathogenic microbial growth, the disadvantages of a single target, potential toxicity and high dose of use limit the better use of preservatives. In this research, the combination of natural preservatives: Natamycin (Nat), ε-polylysine (ε-PL), and Chitosan (CS) could achieve an excellent antimicrobial effect including bacteria and fungi, and reduce the usage of a single preservative. Compound preservatives could destroy microbial morphology and damage the integrity of the cell wall/membrane by leakage of protein and alkaline phosphatase (AKP). Besides, high-throughput sequencing revealed that compound preservatives could decrease microbial diversity and richness, especially, Pseudomonas, Acinetobacter, Fusarium, and Aspergillus. Therefore, the combination of 1/8 × MIC CS, 1/4 × MIC ε-PL, and 1/2 × MIC Nat can achieve an excellent antibacterial effect, providing new ideas for food preservation.

Topics & Concepts

NatamycinPreservativeFood spoilageAntimicrobialNisinFood scienceMicrobiologyPseudomonasBiologyFood PreservativesChemistryBacteriaGeneticsBiopolymer Synthesis and ApplicationsNanocomposite Films for Food PackagingAntimicrobial agents and applications
Antimicrobial activity enabled by chitosan-ε-polylysine-natamycin and its effect on microbial diversity of tomato scrambled egg paste | Litcius