Enriched gluten-free products are in high demand owing to increasing celiac disease worldwide. Sourdough fermentation can improve the quality of gluten-free cereals, rendering the resulting product beneficial as a functional food. This study produced sorghum bread (SB) using sourdough technology and evaluated the texture, nutrition profile, bioactive components, and sensory attributes of the product. The base formula was composed of sorghum flour and corn starch. Sourdough made with Pediococcus pentosaceus LD7 (PL7), P. pentosaceus SA8 (PS8), or Weissella confusa SD8 (WS8) was added at a 20% substitution level for bread production, while bread without sourdough addition was used as the control sample. The texture profiles of the SB were significantly (p ˂ 0.05) softer than that of the control. The sourdough breads possessed higher crude protein, ash, and dietary fibre contents than the control bread. Tannin and total phenol contents were significantly (p ˂ 0.05) higher in the sourdough breads compared to the control sample. The specific volume of the sample made with PS8 sourdough was the highest at 2.50 cm3/g compared to the other samples (2.17–2.46 cm3/g). The sourdough samples had higher scores for taste, texture, aroma, and overall acceptability than the control, with PL7 SB exhibiting the best overall acceptability (6.56). This study established promising use of sourdough with starters as an ingredient for baked products with improved technological and nutritional attributes as well as consumer acceptability.
Employing biotechnology processing in the manufacturing of baked goods with underutilised gluten-free cereals is deserving of marked interest to get new niche products. This study aims at determining the influence of sourdough made with starter cultures on the nutritional and sensory characteristics of cookies produced with acha flour. Sourdough containing lactic acid bacteria and yeast starters were added as ingredients for making acha-based cookies. Sourdough increased the spread ratio of the cookies. Fructilactobacillus fructivorans and Candida tropicalis as mixed starters gave the highest values (6.52 AE 0.06 and 2.21 AE 0.27, respectively) for crude protein and ash. Sourdough addition and the type of starter culture used for the fermentation influenced the mineral composition of cookies (P < 0.05). The most overall acceptable was SBTC, made with only C. tropicalis sourdough. Utilisation of acha with sourdough addition is recommended for making cookies with improved qualities and promoting the locally grown cereal for potential health benefits.
The use of millet in the production of gluten‐free sourdough has significant benefits such as its suitability for individuals with gluten sensitivity. Lactic acid bacteria and yeasts were screened for functional properties from unmalted and malted millet for sourdough preparation. Lactobacillus plantarum MLd27 and Pichia kudriavzevii MYd23 were selected, used individually and mixed starter cultures to produce sourdough. The specific volume (3.07 ± 0.06 cm3 g−1) of the bread made with unmalted flour and Pichia kudriavzevii MYd23 was significantly higher (P < 0.05) compared to all the other samples. The protein, ash and fibre contents of the bread samples ranged from 10.1 to 11.4, 2.2 to 4.5 and 1.45 to 1.74 g/100 g, respectively. The sourdough bread samples were generally acceptable, while spontaneously fermented bread from malted flour showed the significantly highest (P < 0.05) overall acceptability of (7.90). The production of gluten‐free millet sourdough bread can aid in food security.
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