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    A functional barley-based fermented soup (tarhana) with high β-glucan content
    (Springer Science and Business Media Deutschland GmbH, 2025) Köksel, Hamit; Özkan, Kübra; Tekin Çakmak, Zeynep Hazal; Karasu, Salih; Kahraman, Kevser; Oruç, Sena; Sağdıç, Osman; Sestili, Francesco
    This study investigates the impact of using different flours, including high β-glucan barley, on the nutritional properties of tarhana. Mineral composition, phenolic content, and antioxidant capacity of tarhana powder samples produced using flours of high β-glucan hull-less barley (cv. Chifaa; ChF), hull-less barley cv. Yalin (YF), bread wheat cv. Tosunbey (white flour: TWF1 and whole wheat flour: TWF2). Furthermore, in vitro glycemic index (GI), pasting properties, and RVA soup index of their soups were investigated. Tarhana made with Chifaa barley flour (Tar-ChF) exhibited significantly higher levels of key minerals (K, Mg, Ca), β-glucan and total phenolic content compared to those made with other flours (Tar YF, Tar TWF1, and Tar TWF2). Barley tarhana samples also showed greater antioxidant activity of bound phenolic fractions and lower GI values, indicating a healthier profile. The study highlights the potential of high β-glucan barley flour to enhance tarhana’s nutritional benefits without significantly affecting its sensory properties, such as color and viscosity. This research supports the integration of health-promoting ingredients like barley flour into traditional Mediterranean foods to improve their nutritional quality. © The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature 2024.
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    Impact of pea protein isolate enrichment on the nutritional, functional, and glycemic properties of tarhana
    (Springer, 2025) Kadam, Aayushi; Özkan, Kübra; Du, Peifan; Köksel, Hamit
    Tarhana, a traditional fermented food made from cereal flours, yogurt, vegetables, and spices, is recognized for its rich nutritional value and prolonged shelf life. This study investigated the effect of pea protein isolate (PPI) enrichment on select compositional, physical, techno-functional and nutritional properties of tarhana. Six different formulations were prepared by blending PPI and wheat flour (WF) in varying PPI: WF ratios from 0:100 (control) to 100:0. The protein content of the tarhana samples increased proportionally with the PPI concentration, reaching 76.6% in the PPI: WF of 100:0 PPI tarhana compared to 25.1% in the control tarhana. The total phenolic content (TPC) varied, ranging from 534.1 to 702.9 mg GAE/100 g dry basis (db), with higher values observed in PPI enriched tarhana samples. PPI enrichment significantly (p < 0.05) enhanced the antioxidant capacity, measured by ABTS, DPPH, and FRAP assays. PPI-enriched tarhana powders showed improved levels of key polyphenols, including gallic acid, quercetin and ferulic acid. Pasting profile of the tarhana samples showed a decrease in peak viscosity with increasing PPI, indicating the decrease in starch concentration. In-vitro protein digestibility of tarhana samples improved with PPI incorporation, showing values exceeding 84% for all PPI enriched formulations. The glycemic index (GI) of the tarhana samples decreased with increased PPI levels. Tarhana soups made from PPI: WF of 80:20 and 100:0 showed GI values 50.5 and 42.6, respectively, enabling them to be classified as low-GI foods. This research highlighted the potential of PPI to enhance the nutritional and functional properties of traditional tarhana.