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Production of chickpea protein hydrolysate at laboratory and pilot plant scales: Optimization using principal component analysis based on antioxidant activities

Noelia M. Rodríguez-Martín, José Carlos Márquez-López, Isabel Cerrillo, Francisco Millán, José Antonio González-Jurado, María‐Soledad Fernández‐Pachón, Justo Pedroche

2023Food Chemistry20 citationsDOIOpen Access PDF

Abstract

Chickpeas are a nutrient-rich source with optimal and high essential amino acid score. To evaluate its potential as a functional food ingredient, 36 chickpea protein hydrolysates were produced at the lab-scale using food-grade enzymes. Parameters including yields, protein content, hydrolysis degree, and antioxidant activities were employed to identify the most favourable conditions for scaling up production to a pilot plant level using a principal component analysis. The selected hydrolysate demonstrated commendable traits: a substantial content of essential amino acids and proteins at 67.71%, notable protein (73.12%) and weight (72.00%) yields, coupled with exceptional solubility exceeding 80%, and a noteworthy digestibility of 89.50%. Upon transition to pilot plant proportions, the hydrolysate retained its attenuated protein profile while exhibiting heightened antioxidant activities. Derived chickpea protein hydrolysates offer promise for innovative foods applications, impacting health and chronic disease prevention.

Topics & Concepts

HydrolysateFood scienceAntioxidantIngredientFunctional foodAmino acidChemistryHydrolysisProtein qualityBiotechnologyBiologyBiochemistryProtein Hydrolysis and Bioactive PeptidesProteins in Food SystemsPhytase and its Applications
Production of chickpea protein hydrolysate at laboratory and pilot plant scales: Optimization using principal component analysis based on antioxidant activities | Litcius