Fermentation of plant-based dairy alternatives by lactic acid bacteria

IF 4.8 2区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Microbial Biotechnology Pub Date : 2022-04-08 DOI:10.1111/1751-7915.14008

Aimee R. Harper, Renwick C.J. Dobson, Vanessa K. Morris, Gert-Jan Moggré

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引用次数: 28

Abstract

Ethical, environmental and health concerns around dairy products are driving a fast-growing industry for plant-based dairy alternatives, but undesirable flavours and textures in available products are limiting their uptake into the mainstream. The molecular processes initiated during fermentation by lactic acid bacteria in dairy products is well understood, such as proteolysis of caseins into peptides and amino acids, and the utilisation of carbohydrates to form lactic acid and exopolysaccharides. These processes are fundamental to developing the flavour and texture of fermented dairy products like cheese and yoghurt, yet how these processes work in plant-based alternatives is poorly understood. With this knowledge, bespoke fermentative processes could be engineered for specific food qualities in plant-based foods. This review will provide an overview of recent research that reveals how fermentation occurs in plant-based milk, with a focus on how differences in plant proteins and carbohydrate structure affect how they undergo the fermentation process. The practical aspects of how this knowledge has been used to develop plant-based cheeses and yoghurts is also discussed.

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利用乳酸菌发酵植物性乳制品替代品

对乳制品的道德、环境和健康担忧正在推动植物性乳制品替代品的快速发展，但现有产品中不受欢迎的味道和质地限制了它们进入主流。乳酸菌在乳制品发酵过程中启动的分子过程已经被很好地理解，例如酪蛋白水解成肽和氨基酸，以及利用碳水化合物形成乳酸和外多糖。这些过程对于形成奶酪和酸奶等发酵乳制品的风味和质地至关重要，但人们对这些过程如何在植物性替代品中发挥作用知之甚少。有了这些知识，可以为植物性食品的特定食品质量设计定制的发酵过程。这篇综述将概述最近的研究，揭示发酵是如何在植物性牛奶中发生的，重点是植物蛋白和碳水化合物结构的差异如何影响它们如何进行发酵过程。还讨论了如何利用这些知识开发植物奶酪和酸奶的实际方面。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Microbial Biotechnology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-MICROBIOLOGY

CiteScore

9.80

自引率

3.50%

发文量

162

审稿时长

6-12 weeks

期刊介绍： Microbial Biotechnology publishes papers of original research reporting significant advances in any aspect of microbial applications, including, but not limited to biotechnologies related to: Green chemistry; Primary metabolites; Food, beverages and supplements; Secondary metabolites and natural products; Pharmaceuticals; Diagnostics; Agriculture; Bioenergy; Biomining, including oil recovery and processing; Bioremediation; Biopolymers, biomaterials; Bionanotechnology; Biosurfactants and bioemulsifiers; Compatible solutes and bioprotectants; Biosensors, monitoring systems, quantitative microbial risk assessment; Technology development; Protein engineering; Functional genomics; Metabolic engineering; Metabolic design; Systems analysis, modelling; Process engineering; Biologically-based analytical methods; Microbially-based strategies in public health; Microbially-based strategies to influence global processes