In vitro gastrointestinal digestion of cow’s and sheep’s dairy products: Impact of species and structure

脂解 消化(炼金术) 食品科学 化学 蛋白质水解 作文(语言) 脂类消化 羊奶 生物化学 色谱法 脂肪酶 脂肪组织 语言学 哲学
作者
Tanguy Saviard,Olivia Ménard,Stefano Nebbia,Jordane Ossemond,Gwénaële Henry,Raphaël Chacon,Steven Le Feunteun,Didier Dupont,Linda Le Roux
出处
期刊:Food Research International [Elsevier BV]
卷期号:190: 114604-114604 被引量:6
标识
DOI:10.1016/j.foodres.2024.114604
摘要

Sheep's milk (SM) is known to differ from cow's milk (CM) in nutritional composition and physicochemical properties, which may lead to different digestion behaviours. This work aimed to investigate the impact of the species (cow vs sheep) and the structure (milk vs yogurt) on the digestion of dairy products. Using an in vitro static gastrointestinal digestion model, CM, SM, cow's milk yogurt (CY) and sheep's milk yogurt (SY) were compared on particle size evolution, microscopic observations, degree of lipolysis, degree of proteolysis, specific protein degradation and calcium bioaccessibility. Species and structure affected particle size evolution during the gastric phase resulting in smaller particles for yogurts compared to milks as well as for CM products compared to SM products. Species impacted lipid composition and lipolysis, with SM products presenting higher short/medium-chain fatty acids content and higher intestinal degree of lipolysis. Proteolysis was influenced by structure, with milks showing higher intestinal degree of proteolysis compared to yogurts. Caseins were digested faster in CM, ⍺-lactalbumin was digested faster in SM despite its higher concentration, and during gastric digestion β-lactoglobulin was more degraded in CM products compared to SM products and more in yogurts compared to milks. Lastly, SM products released more bioaccessible calcium than CM products. In conclusion, species (cow vs sheep) impacted more the digestion compared to the structure (milk vs yogurt). In fact, SM was different from CM mainly due to a denser protein network that might slow down the accessibility of the enzyme to its substrate which could lead to a slower gastric disaggregation and then a slower gastric hydrolysis of lipids and proteins.
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