Abstract
The demand for gluten-free breads has increased in the last years, but important quality and nutritional challenges remain unsolved. This research evaluated the addition of quinoa in whole quinoa grain flour, germinated quinoa flour, and quinoa sourdough, as a functional ingredient in the formulation of a rice flour-based bread. Twenty percent (w/w) of the rice flour was replaced with quinoa flour alternatives in bread formulations. The chemical composition, shelf-life, and sensory attributes of the rice-quinoa breads were analyzed. The addition of quinoa in sourdough resulted in breads with a significantly improved protein content at 9.82%, relative to 2.70% in the control breads. The amino acid content in quinoa sourdough breads also was also 5.2, 4.4, 2.6, 3.0, and 2.1 times higher in arginine, glutamic acid, leucine, lysine, and phenylalanine, respectively, relative to control breads with rice flour only. The addition of quinoa sourdough in rice breads also improved the texture, color, and shelf-life (up to 6 days), and thus they became moderately accepted among consumers. Although the germinated quinoa flour addition also resulted in a higher protein (9.77%) and amino acid content, they had a reduced shelf-life (4 days). Similarly, the addition of quinoa flour resulted in a higher protein content (9.61%), but the breads had poor texture attributes and were the least preferred by the consumers.
Highlights
This study aimed at evaluating the use of whole grain quinoa flour, germinated quinoa flour, and quinoa sourdough in the production of gluten-free bread made with rice flour, potato, and corn starches
Our study demonstrates that the addition of quinoa is a promising bioingredient for gluten-free bread formulation, as observed by the improvement of the nutritional properties of the breads
Of interest are the increase in the total protein content and the amino acid profile, in the sourdough bread
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Pseudo-cereal, which are grains that belong to the Dicotyledonae family with starch rich seeds, can be used like cereals from the Monocotyledonae family with a substantial nutritional content and functional properties. Quinoa (Chenopidium quinoa Willd) is an ancient Andean pseudo-cereal, known by the Incas as the mother of all grains, that is widely distributed and frequently consumed in the region between Colombia and Argentina. Of interest to consumers is the fact that quinoa is rich in lysine, threonine, and methionine, which are amino acids not found in other cereals [1]. The content of carbohydrates, such as fructose and glucose, is high in quinoa flour, with a low glycemic index [2].
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