Effect of addition of wheat bran hydrolysate on bread properties.

Although the addition of bran to bread makes it healthier and more functional, it brings with it some technological problems. One way to eliminate these problems is hydrothermal pretreatment of wheat bran. In this study, five different ratios (10%, 20%, 30%, 50%, and 100%) of hydrolysates from hydrothermal pretreatment of wheat bran (150°C, 30 min) were substituted with dough-kneading water during dough kneading for bread making. The physical, chemical, functional, textural and important starch fractions of the bread produced were determined. The addition of hydrolysate in different amounts to the dough-kneading water resulted in similar physical properties (height, specific volume, and crust color) as the control bread. While the addition of hydrolysate decreased the hardness of the breads, it positively improved important starch fractions (increasing the amount of slowly digestible starch and decreasing the amount of rapidly digestible starch). It also increased antioxidant capacity (iron (III) reducing antioxidant power, ABTS, and DPPH (2,2-diphenyl-1-picrylhydrazyl) and reduced the starch hydrolysis index of the bread. It was shown that the hydrolysate obtained after the hydrothermal treatment of bran could be used in bread making to satisfy the demand for products preferred by consumers from both health and sensory points of view.

Comparison of wet and dried chickpea yeast in breadmaking.

BACKGROUND: Chickpea yeast (CY), initiated by spontaneous fermentation of coarsely-ground chickpea in water, is considered a variant of conventional sourdough and contributes somewhat similarly to bakery products. As the preparation of wet CY prior to each baking process poses certain difficulties, its usage in dry form has been gaining interest. In this study, CY was used either directly in freshly prepared wet form or in freeze-dried and spray-dried forms at 50, 100 and 150 g kg-1 levels (all on 14% moisture basis) in substitution with wheat flour to compare their effects on bread properties. RESULTS: Utilization of all forms of CY did not noticeably change the contents of protein, fat, ash, total carbohydrate and damaged starch in the wheat flour-CY mixtures. However, falling numbers and sedimentation volumes of CY-containing mixtures decreased significantly, due probably to the increase in the amylolytic and proteolytic activities during chickpea fermentation. These changes somewhat corresponded to improved dough processability. Both wet and dried CY samples reduced pH levels of doughs and breads, and increased probiotic lactic acid bacteria (LAB) count. Total phenolic contents, antioxidant capacities and flavor scores of CY-containing breads were significantly enhanced. However, CY usage slightly influenced yield, moisture content, volume, color and hardness values of breads. CONCLUSION: Effects of wet and dried forms of CY on bread properties were quite comparable, indicating that CY can be used upon properly drying similarly to the conventional wet form. © 2023 Society of Chemical Industry.

Enrichment of Gluten-free Cakes with Grape Molasses and Bioactive Rich Ingredients

Abstract In this study, the sugar used in the gluten-free cake was substituted with 75% grape molasses. In addition, the gluten-free flour mixture used in the cake formulation was prepared as a combination of rice flour (75%), chickpea flour (15%)and carrot flour (10%). This mixture was replaced separately with 5% grape seed, pomegranate seed, flaxseed, poppy seed and turmeric to improve the nutritional composition of gluten-free cakes. Supplemented cakes contained higher ash, crude protein, total phenolic content and antioxidant activity values than gluten-free control sample. Cake samples containing pomegranate seed and flaxseed had higher contents of Ca, P and K than control cakes. In addition, flaxseed and poppy seed containing cakes were found richer in terms of Mn and Mg than control. Utilization of grape molasses together with grape seed, pomegranate seed, flaxseed, poppy seed and turmeric in formulation caused a reduction in volume index of cake samples. The hardness values of the gluten-free cakes were generally higher than that of the control. Cakes containing flaxseed and poppy seed scored higher in sensory analysis than other substituted samples. Based on these results, the use of grape molasses with flaxseed and poppy seed can be recommended for the production of gluten-free cakes with acceptable sensory properties and high total phenolic content and antioxidant activity.

Effects of different flour blends with varying protein content and quality on dough and crust properties of "etliekmek", a pizza-like traditional food of Turkey.

Etliekmek, which somewhat resembles pizza in terms of crust and toppings, is a widely consumed traditional food in Turkey. It consists of a sheeted dough topped with a mixture of minced meat and some vegetables. In this study, the effects on dough processing and crust properties of etliekmek of five flour blends with varying protein content and quality were investigated. The blends (Blend-1 through Blend-5) consisted respectively of hard-endosperm Bezostaja and soft-endosperm Gerek-79 wheat flours at the ratios of 100:0, 75:25, 50:50, 25:75 and 0:100. In addition to pysicochemical properties of wheats and their flour blends, dough processing and etliekmek crust properties were measured through the instrumental and sensory approaches. It was determined that protein contents and qualities of the blends decreased from Blend-1 through Blend-5. The dough from Blend-1 was judged to be extremely elastic, which resisted to sheeting due to elastic recovery, whereas the dough from Blend-5 was scored to be somewhat weak and easily extensible. The most suitable dough for the processing of etliekmek crust, i.e., optimally elastic and properly extensible dough with appropriate sheetability, seemed to be 50:50 blend of Bezostaja and Gerek-79 flours (Blend-3). Blend-1 yielded etliekmek crust with thick, moist and excessively chewy texture, as opposed to the thinner, drier and rather crunchy crust texture from Blend-5. Based on the dimensional measurements and sensory evaluations, Blend-3 yielded the best etliekmek crust. The results demonstrate that an optimum balance of dough viscosity and elasticity, which are mostly governed by flour protein content and quality, is of vital importance to the production of high-quality etliekmek crust.