Effect of Soy Protein Isolate on Pasting, Rheological, and Textural Attributes of Potato Starch

Starch Pub Date : 2024-03-18 DOI:10.1002/star.202300151
Gourav Chakraborty, Tanmay Yadav, Chandan Kumar, Swaraj, Srishti Upadhyay, Kshitiz Kumar, Shivani Desai, Vijay Singh Sharanagat
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Abstract

The effects of different concentrations of soy protein isolate (SPI) on the functional, rheological, pasting, and structural properties of potato starch (PS) are investigated. The water and oil absorption capacity (OAC) of PS-SPI mix increased significantly with the addition of SPI. Gel strength, peak, final, breakdown, and setback viscosity of PS decreases, whereas the pasting temperature increases with an increase in SPI fraction. Both the Herschel–Bulkley and power law model are found to equally fit in steady state rheology. The PS-SPI blend exhibits pseudoplastic behavior. The addition of SPI decreases the storage (G′) and loss modulus (G″). SPI also lowers the flow stress values in the amplitude sweep test. Frequency sweep confirms the formation of weak gel formation in PS-SPI blend by exhibiting a lower value of G′ and G″ than the pure starch. The microstructure of composite gel appears less dense with greater pore size than starch gel. The hardness of the SPI-PS blend gel decreases from 6.76 to 0.85 N when the SPI content is increased from 0% to 50%. Fourier transform infrared (FTIR) confirms that no chemical groups are formed or destroyed during the composite gel-making process.

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大豆异构蛋白对马铃薯淀粉糊化、流变和纹理特性的影响
研究了不同浓度的大豆分离蛋白(SPI)对马铃薯淀粉(PS)的功能、流变、糊化和结构特性的影响。添加 SPI 后,PS-SPI 混合物的吸水和吸油量(OAC)显著增加。PS 的凝胶强度、峰值粘度、最终粘度、分解粘度和后退粘度均有所下降,而糊化温度则随着 SPI 成分的增加而升高。赫歇尔-布尔克利模型和幂律模型同样适合稳态流变学。PS-SPI 混合物表现出假塑性行为。添加 SPI 会降低储存模量(G′)和损失模量(G″)。SPI 还降低了振幅扫描测试中的流动应力值。频率扫描证实了 PS-SPI 混合物中弱凝胶的形成,其 G′和 G″ 值低于纯淀粉。与淀粉凝胶相比,复合凝胶的微观结构密度较低,孔径较大。当 SPI 含量从 0% 增加到 50% 时,SPI-PS 混合凝胶的硬度从 6.76 N 下降到 0.85 N。傅立叶变换红外光谱(FTIR)证实,在复合凝胶制造过程中没有化学基团形成或破坏。
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