Pasta fortified with β-glucan Isolated from brewer’s yeast (Saccharomyces cerevisiae) by-product

Abstract

β-glucan from brewer's spent yeast is a novel ingredient approved to be included in the human diet. This paper evaluated the effects of β-glucan extracted from spent brewer's yeast on the physico-chemical, rheological, textural, microstructure, and molecular characteristics of common and durum wheat pasta, at different addition levels. The results showed a decrease in dough viscous and elastic moduli, while the resistance to deformation and hardness raised as the addition level increased. Pasta quality parameters were influenced by the β-glucan content depending on the wheat type, with lower pasta firmness (2.76 and 3.40 N for common and durum controls vs. 2.76–1.97 and 3.35–2.73 N for common and durum enriched pasta respectively), increased carbohydrate content (from 85.63% to 85.91–86.95% in common wheat pasta, and from 81.89 to 82.12–82.28% in durum pasta), cooking loss (from 4.73% in common control to 4.91% for 4% common wheat-β-glucan pasta, and from 3.68 in durum control to 5.05% for 4% durum wheat-β-glucan), and darker color being obtained. Pasta microstructure and molecular FT-IR characteristics confirmed the presence of β-glucan in cooked pasta and depicted protein denaturation and contribution to the final product matrix. These results represent new insights into the development of convenient matrices for functional ingredient incorporation.