Department of Food Science, University of Guelph, Guelph, Ontario N1G 2W1, Canada.
Department of Food Science, University of Guelph, Guelph, Ontario N1G 2W1, Canada; Adaptation Physiology Group, Wageningen University, Netherlands.
Poult Sci. 2024 Jul;103(7):103822. doi: 10.1016/j.psj.2024.103822. Epub 2024 May 11.
A lean meat batter system was mixed with four plant proteins at 3, 6, 9, and 12% (w/w): pea protein A (PA), pea protein B (PB), brown rice protein (BR) and faba bean protein (FB). Texture profile analysis (TPA) revealed that increasing plant protein levels hardened the hybrid meat batters, with PA and PB leading to the hardest gels. TPA results were supported by micrographs, demonstrating that the two pea proteins formed large aggregates, contributing to a firmer hybrid meat gel. Dynamic rheology showed that the incorporation of plant proteins lowered the storage modulus (G') during the heating stage (20 to 72°C), yet the 6% PA treatment produced a final G' (after cooling) closest to the control (CL). Nuclear Magnetic Resonance (NMR) T relaxometry also demonstrated that plant proteins reduced the water mobility in hybrid meat batters. Results were in line with the cooking loss, except for a higher cooking loss in the BR formulation compared to the CL. Color measurement showed that increasing plant protein levels led to darker and yellower meat batters; however, the effect on redness varied among treatments. Overall, the findings suggest that pea proteins have superior functionality and compatibility within a lean poultry meat protein system, compared to BR and FB tested here.
一种瘦肉面糊系统与四种植物蛋白以 3%、6%、9%和 12%(w/w)的比例混合:豌豆蛋白 A(PA)、豌豆蛋白 B(PB)、糙米蛋白(BR)和蚕豆蛋白(FB)。质地分析(TPA)表明,随着植物蛋白水平的提高,混合肉面糊变硬,PA 和 PB 导致凝胶最硬。TPA 结果得到微观照片的支持,表明两种豌豆蛋白形成了大的聚集体,有助于形成更坚固的混合肉凝胶。动态流变学表明,植物蛋白的加入降低了加热阶段(20 至 72°C)的储能模量(G'),但 6%PA 处理的最终 G'(冷却后)最接近对照(CL)。核磁共振(NMR)T 弛豫也表明,植物蛋白降低了混合肉面糊中的水分迁移率。结果与蒸煮损失一致,除了 BR 配方的蒸煮损失高于 CL 外。颜色测量表明,随着植物蛋白水平的提高,肉面糊的颜色变得更暗、更黄;然而,处理方式对红色的影响不同。总的来说,研究结果表明,与这里测试的 BR 和 FB 相比,豌豆蛋白在瘦肉禽肉蛋白系统中具有更好的功能和相容性。
