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    Exploring Sainfoin (Onobrychis viciifolia) Seed Flour as a Sustainable Plant-Based Food: Germination-Induced Changes in Nutritional Quality, Anti-Nutritional Factors, Phenolic Content, Bioaccessibility, and In Vitro Toxicity
    (Wiley, 2025) Kaya, Havva Polat; Gungor, Sevde Nur; Tuncel, Nese Yilmaz; Sakarya, Fatma Betul; Andac, Ali Emre; Ozkan, Gulay; Capanoglu, Esra
    Background and Objectives: Sainfoin is a drought-resistant perennial plant mainly used as animal feed, but its seeds remain underexplored as a food source. This study investigates the effects of germination on the nutritional quality of dehulled sainfoin seeds. Specifically, it examines changes in proximate composition, antinutrients (hydrocyanic acid, tannins, phytates, saponins, and trypsin inhibitors), in vitro starch digestibility, phenolic content, antioxidant capacity, and cytotoxicity. Findings: Germination significantly increased crude protein (up to 45%) and fat (up to 10%) contents. Despite low total starch (similar to 7%), 45-h germination reduced total digestible starch while increasing rapidly digestible starch. Antinutrient levels decreased significantly-tannins by 57%, phytates by 30%, saponins by 40%, and trypsin inhibitors by 29%-with the exception of hydrocyanic acid. Although total phenolics, flavonoids, and antioxidant capacity declined, their bioaccessibility improved. No cytotoxic effects were observed in either raw or germinated seeds. Conclusions: Germination improved the nutritional profile of sainfoin seeds by increasing protein and fat contents, while reducing most antinutrients. Despite a decrease in antioxidant levels, their bioaccessibility was enhanched. The absence of cytotoxic effects further supports the potential application of germinated sainfoin seeds in human nutrition. Significance and Novelty: Although few studies have focused on the green form of sainfoin, which is commonly used as livestock feed, this study reveals that sainfoin seeds offer substantial potential as food, with germination emerging as a simple and effective approach to improving their nutritional properties.
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    Sainfoin (Onobrychis viciifolia L.) protein isolate as a new source of alternative plant-based protein: cytotoxicity, immunoreactivity, nutritional and functional properties
    (Springer, 2025) Korkmaz, Fatma; Gungor, Sevde Nur; Gulec, Sukru; Sakarya, Fatma Betul; Andac, Ali Emre; Yilmaz Tuncel, Nese; Ozkan, Gulay
    The objective of this research was to develop an alternative plant-based protein isolate using sainfoin (Onobrychis viciifolia L.) seeds. The extraction process was optimized using response surface methodology (RSM) based on the Box-Behnken Design, which examined the effects of key parameters: solvent/solid ratio (10-50 mL/g), pH (8-11), temperature (20-50 degrees C), and extraction time (30-120 min), aiming to maximize protein yield. The optimal extraction conditions identified were a solvent/solid ratio of 49.96 mL/g, pH of 10.99, temperature of 20 degrees C, and a duration of 38.55 min, achieving a protein yield of 56.36%. Additionally, the amino acid composition, cytotoxicity, immunoreactivity, and functional properties of the sainfoin seed protein isolate (SPI) were evaluated. SPI exhibited a high crude protein content of 91.44%, with arginine being the most abundant amino acid at 158.20 mg/g. The protein isolate comprised a remarkable value of 50.26% essential amino acids. Additionally, SPI demonstrated desirable functional properties, including solubility of 53.95% at neutral pH, water holding capacity of 2.36 g/g, and oil binding capacity of 4.68 g/g. Its emulsifying performance was notable, with emulsion activity and stability values of 66.67% and 77.50%, respectively. Moreover, in vitro cell culture studies demonstrated that sainfoin seed protein exhibited no adverse effects on cellular toxicity or immunoreactivity. This study highlights the potential of SPI as a novel, high-quality plant protein source with promising nutritional and functional properties and demonstrates its potential as a functional ingredient in the formulation of plant-based foods, meat analogs, and dietary supplements.