Investigation on Fermented Milk Quality after the Addition of Flaxseed Mucilage and the Use of Lactobacillus delbrueckii subsp. bulgaricus and Lactiplantibacillus plantarum AG9

A. Sungatullina, Tatyana Petrova, Elena Nikitina
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Abstract

Background : Flaxseed mucilage (FSM) is one of the healthy components of flaxseed. FSM is an example of a material that can be used in the food, cosmetic, and pharmaceutical industries due to its rheological properties. FSM consists mainly of two polysaccharides, arabinoxylan, and rhamnogalacturonan I, and it also contains protein components and minerals. The prospect of using FSM in food is due to its gelling, water binding, emulsifying, and foaming properties. In addition, valuable natural sources of phenolic compounds such as lignans, phenolic acids, flavonoids, phenylpropanoids, and tannins are partially extracted from flaxseed in FSM. These antioxidant components have pharmacological properties, including anti-diabetic, anti-hypertensive, immunomodulatory, anti-inflammatory and neuroprotective properties. A combination of FSM and lactobacilli in dairy foods can improve their functional properties. This study aimed to develop dairy products by adding of FSM and using two lactic acid bacteria (LAB). FSM (0.2%) was used as an ingredient to improve both the texture and antioxidant properties of the product. Methods : Skim milk was fermented with 0.2% flaxseed mucilage using Lactobacillus delbrueckii subs. bulgaricus and the probiotic Lactiplantibacillus plantarum AG9. The finished fermented milk products were stored at 4 °C for 14 days. Quantitative chemical, textural, and antioxidant analyses were carried out. Results : Adding 0.2% FSM to the dairy product stimulated the synthesis of lactic acid. FSM increased the viscosity and water-holding capacity of L. bul-garicus or L. bulgaricus/L. plantarum AG9 fermented milk products. Combining these starter strains with FSM promoted the formation of a hard, elastic, resilient casein matrix in the product. When only L. plantarum AG9 was used for the fermentation, the dairy product had a high syneresis and a low viscosity and firmness; such a product is inferior in textural characteristics to the variant with commercial L. bulgaricus . The addition of FSM improved the textural properties of this variant. The use of L. plantarum AG9 and FSM makes it possible to obtain a fermented milk product with the highest content of polyphenolic compounds, which have the highest antioxidant properties and stimulate lipase and α -glucosidase inhibitor synthesis. Combining of L. bulgaricus and L. plantarum AG9 in the starter (20% of the total mass of the starter) and adding of 0.2% FSM is the optimal combination for obtaining a dairy product with high textural and antioxidant properties. Conclusions : The physicochemical properties (viscosity, syneresis, water holding capacity, texture) and antioxidant properties of fermented milk were improved. In the future, as part of the work to investigate the functional properties of dairy products with FSM, studies will be conducted using in in vivo models.
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添加亚麻籽黏液并使用保加利亚乳杆菌亚种和植物乳杆菌 AG9 后的发酵乳质量研究
背景:亚麻籽粘液(FSM)是亚麻籽的健康成分之一。由于其流变特性,亚麻籽粘液质是一种可用于食品、化妆品和制药行业的材料。FSM 主要由阿拉伯木聚糖和鼠李糖半乳糖醛酸 I 两种多糖组成,还含有蛋白质成分和矿物质。由于 FSM 具有胶凝、水结合、乳化和发泡特性,因此有望在食品中使用。此外,FSM 还从亚麻籽中提取了部分珍贵的天然酚类化合物,如木酚素、酚酸、类黄酮、苯丙酮和单宁酸。这些抗氧化成分具有药理特性,包括抗糖尿病、抗高血压、免疫调节、抗炎和神经保护特性。在乳制品食品中结合使用 FSM 和乳酸菌可以改善其功能特性。本研究旨在通过添加 FSM 和使用两种乳酸菌(LAB)来开发乳制品。使用 FSM(0.2%)作为配料可改善产品的质地和抗氧化特性。方法:使用保加利亚乳杆菌(Lactobacillus delbrueckii subs. bulgaricus)和植物乳杆菌(Lactiplantibacillus plantarum AG9)益生菌发酵脱脂牛奶中 0.2%的亚麻籽粘液。发酵乳成品在 4 °C 下储存 14 天。进行定量化学、质地和抗氧化分析。结果:在乳制品中添加 0.2% 的 FSM 可促进乳酸的合成。FSM 增加了 L. bul-garicus 或 L. bulgaricus/L. plantarum AG9 发酵乳制品的粘度和持水能力。将这些发酵菌株与 FSM 结合使用,可促进产品中形成坚硬、富有弹性和韧性的酪蛋白基质。仅使用植物乳杆菌 AG9 进行发酵时,乳制品的粘滞性较高,粘度和硬度较低;这样的产品在质地特性上不如使用商业保加利亚乳杆菌的变体。添加 FSM 可改善这种变体的质构特性。使用植物乳杆菌 AG9 和 FSM 可以获得多酚化合物含量最高的发酵乳产品,这些多酚化合物具有最高的抗氧化性,并能刺激脂肪酶和 α - 葡萄糖苷酶抑制剂的合成。在发酵剂中添加保加利亚酵母和植物酵母 AG9(占发酵剂总重量的 20%)并添加 0.2% 的 FSM 是获得高质地和高抗氧化性乳制品的最佳组合。结论 :发酵乳的理化特性(粘度、滞后性、持水性、质地)和抗氧化特性得到了改善。今后,作为研究含 FSM 乳制品功能特性工作的一部分,将使用体内模型进行研究。
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