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74 ± 0.27 and 3.70 ± 0.06 mg Trolox eq./g sample, respectively. The results suggest that the substituted 100% RB combined with cheese's milk proteins have a potentiality to be developed into a novel gluten-free product with enhanced antioxidant properties.The line scale is widely used in different lengths to quantify the intensity of descriptors in sensory evaluation. Since studies related to its size are still limited the objective was to determine what variables of descriptive sensory evaluation can be influenced when different scale length is considered in two different methods Optimized Descriptive Profile (ODP) (low degree of training) and Conventional Profile (CP) (high degree of training). Five chocolate samples were evaluated by two panels, one using the 9 cm and the other using the 15 cm line scale. The panels performed the sensory analysis using the ODP and after the CP method. The following criteria were investigated interaction between sample and evaluator, discriminative capacity, repeatability of results, and frequency of score use on the unstructured scale. The influence of scale length on sensory responses was similar in the two methods (ODP and CP). When comparing the two scales in both methods, it was observed that the 15 cm scale resulted in an improvement in discriminative capacity, reduction of interaction and the evaluators tended to distribute their ratings more evenly across this scale length. The repeatability of results showed a slight tendency to be better on the 9 cm scale.In the study, the effects of nitrate and/or nitrite (150 mg/kg KNO3, 300 mg/kg KNO3, 150 mg/kg NaNO2, and 150 mg/kg KNO3 + 150 mg/kg NaNO2) on proteolytic changes (free amino acid composition, SDS-PAGE) in pastırma were investigated. Pastırma samples were also analyzed in terms of some qualitative (pH, aw, TBARS, residual nitrite, salt) properties. The lowest total free amino acid content (1818.3 mg/ 100 g DM) was observed in the combination of 150 mg/kg KNO3 + 150 mg/kg NaNO2, while the highest content (2847.49 mg/ 100 g DM) was observed in 150 mg/kg KNO3. Although the pastırma groups generally exhibited similar SDS-PAGE profiles, differences were detected at some band intensities. The lowest TBARS value (22.24 μmol MDA/kg) was observed in 150 mg/kg KNO3 + 150 mg/kg NaNO2. As a result, the use of 150 mg/kg KNO3 in the pastırma curing process causes more intense proteolysis.Present study was conducted to explore the incorporation of high level of chicken meat powder for developing protein enriched whole wheat bread. The aim was to optimise meat level and processing conditions for development of chicken meat bread. Box-Beheken design of response surface methodology was used for optimising the processing conditions of chicken meat incorporated whole wheat bread as processing conditions strongly influence the product characteristics. Meat level (30-35%), proofing time (60-120 min) and cooking time (10-12 min) were contemplated as constrains or variable factors for their effect on responses such as baking yield, moisture, protein, fat, ash, redness and yellowness value, flavour, porosity and overall acceptability which are essential for product acceptability and marketability, while the cooking temperature was kept constant at 220 °C. The responses were assessed by evaluating the physicochemical, proximate, colour units and sensory evaluation. A high coefficient of regression > 0.90 was obtained for all the responses indicating the fit of model. The desirability achieved for these responses was 0.841 for 31.497% meat level with proofing time 107.17 min and baking time of 12.74 min. https://www.selleckchem.com/products/ab680.html The study concluded with development of chicken meat bread having high protein content with optimised processing conditions of proofing and cooking time.This study was aimed to develop chicken nuggets using spent hen meat (SHM) added with milk fat (MF) and potato mash (PM) at different levels. Four different spent hen nuggets (SHNs) i.e. T1 (75% SHM with 5% MF), T2 (70% SHM with 8% MF and 2% PM), T3 (65% SHM with 11% MF and 4% PM), and T4 (60% SHM with 14% MF and 6% PM) were formulated and compared with the control, using broiler chicken meat without MF and PM. The control, T1, and T2 were not significantly different with respect to protein and fat contents. The emulsion stability (92.2%), frying yield (84.1%), hardness (19.2 N) and chewiness (11.4 N) of T2 were similar to the control. The incorporation of MF and PM resulted in increased taste and flavor scores for SHN. The overall acceptability score was same for the control and T2. The conjugated dienes and thiobarbituric acid-reactive substance results showed that the addition of MF at 8 to 10% did not have an effect on the oxidative stability of SHN during storage. MF-incorporated SHN may be a regular chicken nugget for all consumers due to improved texture and sensory quality with similar fat content to the control.The influence of the concentration (5-20 mg/mL) of different cosolutes (sucrose and NaCl) on the rheological and thermal properties of concentrated Tara gum (TG) solutions (1.5-2.5% w/v) was investigated. Furthermore, the structural properties of the TG, TG-sucrose and TG-NaCl solutions were studied. The TG, TG-sucrose and TG-NaCl solutions exhibited a pseudoplastic and typical viscoelastic behavior of an entangled network structure. An increase in the TG concentration increased the pseudoplasticity and the elasticity of the solutions, while the incorporation of NaCl reduced these properties. Sucrose had little influence on the rheological properties of the TG solutions. The texture profile and the water holding capacity of the TG solutions were significantly influenced by the concentration of the TG and did not change with the addition of the cosolutes. The thermal stability of the TG solutions was reduced by NaCl and was not altered by sucrose. The microstructures of the TG solutions was significantly affected by NaCl, supporting the results obtained from rheological and thermal analyses. The results of this study may be useful for the formulation and processing of foods containing TG.