Enhancing the Viability of Spray-Dried Limosilactobacillus fermentum Using Quercetin-Integrated Encapsulation: Physicochemical, Metabolic, and Transcriptomic Insights

IF 3.2 2区农林科学 Q2 FOOD SCIENCE & TECHNOLOGY

Journal of Food Science Pub Date : 2025-05-28 DOI:10.1111/1750-3841.70293

Liping Hu, Siyun Huang, Tao Xiong, Fei Peng

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引用次数: 0

Abstract

ABSTRACT

The application of spray drying for the production of probiotic microcapsules offers many attractive advantages, yet now there are concerns regarding probiotic survivability. This study explores the impact of quercetin (Que) in a whey protein isolate (WPI) and trehalose (TR) encapsulation matrix to improve probiotic survival during spray drying. Results showed that probiotic survival increased by 4.95-fold (p < 0.05) with Que supplementation than the probiotics capsulated using WPI and TR. Physicochemical characteristics analysis indicated that adding Que resulted in slight changes in the moisture and water activity of probiotic microcapsules and improved the gastrointestinal digestion resistance and storage stability. The particle size of the spray-dried microcapsules varied from 9.84 to 11.17 µm. Cell membrane analysis demonstrated that the probiotics encapsulated with the WPI–Que–TR complex exhibited higher integrity and fluidity than WPI–TR-coated probiotics. Moreover, introducing Que reduced the ratio of saturated to unsaturated fatty acids and increased the pyruvate kinase activity of probiotics, contributing to the maintenance of cell activity. Transcriptomic results suggested that Que upregulated genes associated with fatty acid synthesis and energy supply while downregulating certain genes involved in amino acid biosynthesis, enabling probiotics to exist better in harsh conditions. Therefore, those results indicated that the co-microencapsulation of probiotics and hydrophobic active substance—Que—was realized, and the mechanism by which Que affects probiotic activity during spray drying has been revealed, which provides a scientific foundation for co-encapsulating probiotics with hydrophobic actives.

Practical Application

In a rapidly growing market, the demand for dry probiotics has surged, highlighting the need for mass production. Spray drying, with its low energy costs and sustainable process, is a promising method for microencapsulating bacteria in protective substrates, enhancing their resistance during storage, processing, and digestion. Que can improve the survival rate of probiotics during spray drying, offering a novel approach for incorporating flavonoids in the creation of probiotic microcapsules with activity and stability.

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槲皮素包封提高喷雾干燥发酵乳酸杆菌的生存能力：理化、代谢和转录组学研究

应用喷雾干燥技术生产益生菌微胶囊具有许多吸引人的优点，但目前存在益生菌生存能力的问题。本研究探讨了乳清分离蛋白（WPI）和海藻糖（TR）包封基质中槲皮素（Que）对喷雾干燥过程中益生菌存活率的影响。结果表明，益生菌存活率提高了4.95倍(p <；理化特性分析表明，添加Que可使益生菌微胶囊的水分活性和水分活性发生轻微变化，提高了胃肠道消化抵抗力和储存稳定性。喷雾干燥微胶囊的粒径范围为9.84 ~ 11.17µm。细胞膜分析表明，包裹wpi - queue - tr复合物的益生菌比包裹wpi - tr复合物的益生菌具有更高的完整性和流动性。此外，引入Que降低了饱和脂肪酸与不饱和脂肪酸的比例，提高了益生菌的丙酮酸激酶活性，有助于维持细胞活性。转录组学结果表明，Que上调脂肪酸合成和能量供应相关基因，下调氨基酸生物合成相关基因，使益生菌在恶劣条件下更好地生存。因此，这些结果表明，益生菌与疏水活性物质- Que -共微胶囊化已经实现，Que在喷雾干燥过程中影响益生菌活性的机理已经揭示，为益生菌与疏水活性物质共微胶囊化提供了科学依据。在快速增长的市场中，对干性益生菌的需求激增，凸显了批量生产的需求。喷雾干燥以其低能源成本和可持续的过程，是一种很有前途的方法，可以将细菌微胶囊化在保护性底物中，增强它们在储存、加工和消化过程中的抵抗力。Que可以提高益生菌在喷雾干燥过程中的存活率，为将黄酮类化合物加入到具有活性和稳定性的益生菌微胶囊的制备中提供了新的途径。

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来源期刊

Journal of Food Science 工程技术-食品科技

CiteScore

7.10

自引率

2.60%

发文量

412

审稿时长

3.1 months

期刊介绍： The goal of the Journal of Food Science is to offer scientists, researchers, and other food professionals the opportunity to share knowledge of scientific advancements in the myriad disciplines affecting their work, through a respected peer-reviewed publication. The Journal of Food Science serves as an international forum for vital research and developments in food science. The range of topics covered in the journal include: -Concise Reviews and Hypotheses in Food Science -New Horizons in Food Research -Integrated Food Science -Food Chemistry -Food Engineering, Materials Science, and Nanotechnology -Food Microbiology and Safety -Sensory and Consumer Sciences -Health, Nutrition, and Food -Toxicology and Chemical Food Safety The Journal of Food Science publishes peer-reviewed articles that cover all aspects of food science, including safety and nutrition. Reviews should be 15 to 50 typewritten pages (including tables, figures, and references), should provide in-depth coverage of a narrowly defined topic, and should embody careful evaluation (weaknesses, strengths, explanation of discrepancies in results among similar studies) of all pertinent studies, so that insightful interpretations and conclusions can be presented. Hypothesis papers are especially appropriate in pioneering areas of research or important areas that are afflicted by scientific controversy.