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The aim of this study was to investigate the effect of adding protein concentrate of Bream (Abramis Brama) on chemical properties, texture, color and sensory evaluation of pasta. The fillets were cooked in boiling water for 10 minutes, then minced using a meat grinder. The minced fish was dried at 60 C for 24 hours in an oven and powdered with a grinder. Pasta was prepared with different percentages of FPC (0, 5%, 7.5%, 10%, 15% and 20%). Chemical properties (energy, carbohydrate), tissue tests (hardness, adhesion and resilience), color tests (b, a, L) and sensory evaluation were evaluated. The results showed that by adding fish protein concentrate, the amount of pasta carbohydrate decreased compared to the control sample. In contrast, with increasing fish protein concentrate in pasta, the amount of energy increased significantly (p <0.05). The highest energy content was observed in the pasta containing 20% FPC and the lowest energy content in the control sample. The addition of FPC did not cause any adverse changes in the color of the pasta. The amount of yellow and redness of the pasta increased with the addition of FPC. The amount of pasta patency increased with the addition of fish protein concentrate. The color, taste, chewability, elasticity, odor, filament appearance, adhesion, hardness and overall evaluation of pasta with 7.5% FPC was better than others.  Regarding the texture, color and sensory characteristics of the pasta, it can be concluded that the pasta containing 7.5% fish protein concentrate had better characteristics than other samples.

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In the present research, after extracting astaxanthin from Haematococcus microalgae and nanoencapsulation it with maltodextrin-sodium caseinate combination coating, carrier nanocapsules with different ratios replaced sodium nitrite (limit of 120 mg/kg) in the sausage formulation. Then, the microbial (Count of mesophilic, psychrophilic, enterobacteriaceae, lactic acid and pseudomonas bacteria) and tissue properties of the formulated sausages were evaluated and compared during the storage period (28 days at refrigerator temperature). The results showed that the treatments that were formulated with ratios of 1 (30 mg/kg) to 3 (90 mg/kg) and 1 (60 mg/kg) to 1 (60 mg/kg) of nanocapsule to sodium nitrite (C and D) have the same efficiency in terms of the ability to inhibit the growth and proliferation of bacterial groups compared to the treatment of 120 mg/kg (A) of sodium nitrite and in the all of storage period, the minimum count of bacteria is related to these treatments. The treatment containing 90 mg/kg of nanocapsules and 30 mg/kg of sodium nitrite (E) had the same ability as treatments A, C and D in inhibiting some bacterial groups until the middle of the storage period. Also, the count level in the treatment containing only nanocapsules (120 mg/kg, B) was significantly lower than the control. The results of measuring the texture characteristics of the treatments showed that the effect of nanocapsules carrying astaxanthin on increasing the water holding capacity of sausages and also reducing of cooking loss, hardness, gumminess, chewiness and tissue cutting is more than sodium nitrite. Springiness, cohesiveness and porosity indices of sausages formulated with different proportions of nanocapsules and sodium nitrite had no significant difference (p>0.05) and were more favorable than the control. In the following, it was found that the texture indicators of the formulated treatments (unlike the control) did not change significantly during the storage period (p>0.05).