: In this study, zein protein isolate (ZPI) and chickpea protein concentrate (CPC) ingredients were used to formulate five plant-based cheese alternatives. Ingredient ratios based on protein contributions of 0:100, 25:75, 50:50, 75:25 and 100:0 from ZPI and CPC, respectively, were used. Formulations were developed at pH ~4.5, with a moisture target of 59%. Shea butter was used to target 15% fat, while tapioca starch was added to target the same carbohydrate content for all samples. Microstructural analysis showed differences among samples, with samples containing ZPI displaying a protein-rich layer surrounding the fat globules. Schreiber meltability and dynamic low amplitude oscillatory shear rheological analyses showed that increasing the proportion of ZPI was associated with increasing meltability and greater ability to flow at high temperatures. In addition, the sample containing only CPC showed the highest adhesiveness, springiness and cohesiveness values from the texture profile analysis, while the sample containing only ZPI exhibited the highest hardness. Furthermore, stretchability increased with increasing ZPI proportions. This work will help understanding of the role and potential of promising plant-protein-ingredient blends in formulating plant-based alternatives to cheese with desirable functional properties.

Plant-Based Alternatives to Cheese Formulated Using Blends of Zein and Chickpea Protein Ingredients / Grasso, Nadia; Bot, Francesca; Roos, Yrjo H; Crowley, Shane V; Arendt, Elke K; O'Mahony, James A. - In: FOODS. - ISSN 2304-8158. - 12:7(2023), p. 1492. [10.3390/foods12071492]

Plant-Based Alternatives to Cheese Formulated Using Blends of Zein and Chickpea Protein Ingredients

Bot, Francesca
Formal Analysis
;
2023-01-01

Abstract

: In this study, zein protein isolate (ZPI) and chickpea protein concentrate (CPC) ingredients were used to formulate five plant-based cheese alternatives. Ingredient ratios based on protein contributions of 0:100, 25:75, 50:50, 75:25 and 100:0 from ZPI and CPC, respectively, were used. Formulations were developed at pH ~4.5, with a moisture target of 59%. Shea butter was used to target 15% fat, while tapioca starch was added to target the same carbohydrate content for all samples. Microstructural analysis showed differences among samples, with samples containing ZPI displaying a protein-rich layer surrounding the fat globules. Schreiber meltability and dynamic low amplitude oscillatory shear rheological analyses showed that increasing the proportion of ZPI was associated with increasing meltability and greater ability to flow at high temperatures. In addition, the sample containing only CPC showed the highest adhesiveness, springiness and cohesiveness values from the texture profile analysis, while the sample containing only ZPI exhibited the highest hardness. Furthermore, stretchability increased with increasing ZPI proportions. This work will help understanding of the role and potential of promising plant-protein-ingredient blends in formulating plant-based alternatives to cheese with desirable functional properties.
2023
Plant-Based Alternatives to Cheese Formulated Using Blends of Zein and Chickpea Protein Ingredients / Grasso, Nadia; Bot, Francesca; Roos, Yrjo H; Crowley, Shane V; Arendt, Elke K; O'Mahony, James A. - In: FOODS. - ISSN 2304-8158. - 12:7(2023), p. 1492. [10.3390/foods12071492]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/2944312
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