帕斯卡化
高压
生化工程
食品加工
食物腐败
食物垃圾
酶
保质期
食品工业
食品
食品质量
食品科学
食品安全
生物技术
环境科学
化学
风险分析(工程)
业务
生物
生物化学
工程类
废物管理
细菌
工程物理
遗传学
作者
Nan Zheng,Mengfei Long,Zehua Zhang,Shiyu Du,Xin Huang,Tolbert Osire,Xiaole Xia
标识
DOI:10.1080/10408398.2023.2217268
摘要
High pressure processing (HPP) offers the benefits of safety, uniformity, energy-efficient, and low waste, which is widely applied for microbial inactivation and shelf-life extension for foods. Over the past forty years, HPP has been extensively researched in the food industry, enabling the inactivation or activation of different enzymes in future food by altering their molecular structure and active site conformation. Such activation or inactivation of enzymes effectively hinders the spoilage of food and the production of beneficial substances, which is crucial for improving food quality. This paper reviews the mechanism in which high pressure affects the stability and activity of enzymes, concludes the roles of key enzymes in the future food processed using high pressure technologies. Moreover, we discuss the application of modified enzymes based on high pressure, providing insights into the future direction of enzyme evolution under complex food processing conditions (e.g. high temperature, high pressure, high shear, and multiple elements). Finally, we conclude with prospects of high pressure technology and research directions in the future. Although HPP has shown positive effects in improving the future food quality, there is still a pressing need to develop new and effective combined processing methods, upgrade processing modes, and promote sustainable lifestyles.
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