A new edible coating of fish gelatin incorporated into açaí oil to increase the post-harvest shelf life of tomatoes.

Açaí oil (Euterpe oleracea) is a new active ingredient, originating from the Amazon Forest, which offers numerous benefits as an antioxidant and antimicrobial agent. Here, we report how açaí oil can be used as an active ingredient in gelatin coatings to increase the shelf life of tomatoes. The optimized viscosity and gel strength conditions were 5.40 % gelatin, 17.25 % açaí oil and 18 % plasticizer. FTIR, XRD and zeta potential analysis reveals that repulsive forces dominate the interactions between açaí oil and gelatin. The optimized coating (GAO) reduced mass loss by 8 % and achieved greater firmness (25 N), proving its effectiveness in maintaining tomato quality during storage. For the first time, it was found that the addition of açaí oil to fish gelatin improves the percentage of acidity and firmness of the tomato, delaying ripening, making it a promising alternative as packaging for climacteric fruits.

Sulfated polysaccharides act as baits to interfere with the binding of the spike protein (SARS-CoV-2) to the ACE2 receptor and can be administered through food.

Human civilization is experiencing a global crisis involving an unprecedented viral pandemic, with a high mortality rate, uncontrolled spread, and few effective drugs for treatment. Here, we critically evaluate how sulfated polysaccharides can be applied via foods to reduce the infectious process and increase the chances of an adequate immune response. The approach is directed to the infectious process by SARS-CoV-2 and protein S as a therapeutic focus. We discuss the antiviral activities of certain natural and specific sulfated polysaccharides that bind tightly to protein S. Finally, we identified that sulfated polysaccharides act as baits to interfere with the binding of the spike protein (SARS-CoV-2) to the ACE2 receptor and can be administered through food.

Use of agroindustrial wastes (açai fiber and glycerol) in the preparation of cookies.

The aim of this study was to assess the effect of adding industrial byproducts (açai fiber and glycerol) on the physical, physicochemical, and sensory properties of cookies. The statistical analysis showed that only the parameters of water content and water activity are significantly influenced by the amount of açai fiber added and by the fiber's particle size. Through sensory analysis of crispness and the flavor, it was found that the best percentage of açai fiber and the best particle size added to the cookie formulation were 10 % and +28 mesh, respectively. From this result, another sensory analysis was performed to evaluate the effect of glycerol over the texture of the cookies. Acceptance indices for the crispness and flavor above 70 % were observed, indicating the possibility for industrial exploitation. Cookies with added industrial byproducts may be considered a source of fiber, as they contain 6 g/100 g fiber.

Fat substitutes in processing of sausages using piramutaba waste.

The aim of this study was to evaluate fat substitute in processing of sausages prepared with surimi of waste from piramutaba filleting. The formulation ingredients were mixed with the fat substitutes added according to a fractional planning 2(4-1), where the independent variables, manioc starch (Ms), hydrogenated soy fat (F), texturized soybean protein (Tsp) and carrageenan (Cg) were evaluated on the responses of pH, texture (Tx), raw batter stability (RBS) and water holding capacity (WHC) of the sausage. Fat substitutes were evaluated in 11 formulations and the results showed that the greatest effects on the responses were found to Ms, F and Cg, being eliminated from the formulation Tsp. To find the best formulation for processing piramutaba sausage was made a complete factorial planning of 2(3) to evaluate the concentrations of fat substitutes in an enlarged range. The optimum condition found for fat substitutes in the sausages formulation were carrageenan (0.51%), manioc starch (1.45%) and fat (1.2%).