FRRo - I+D+i - Artículos en Revistas

Permanent URI for this collectionhttp://48.217.138.120/handle/20.500.12272/1297

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Author: search.filters.author.Guraya, María ÁngelesSubject: search.filters.subject.Tecnología de los alimentos

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Now showing 1 - 4 of 4
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    Effects of spray drying and lactic acid fermentation on the technological characteristics of yellow and green pea (Pisum sativum L.) Protein products
    (Agricultural and Food Science, 2024) Guraya, María Ángeles; Iguti, Antonia Miwa; De Ros Triboli, Edison Paulo; Ribeiro, Eliana Paula; Accoroni, Cecilia; Espósito, María Andrea; Torresi, Pablo Antonio; Reinheimer, María Agustina; Godoy, Ezequiel
    This research evaluates a pH-shifting and drying process for producing powdered protein products from yellow and green peas (Pisum sativum L.), aiming to enhance their technological characteristics. In the precipitation stage, lactic acid bacteria (Lactobacillus Plantarum and Lactobacillus Lactis) served as a generally recognized safe precipitant agent. The fine fraction (<150 µm) from yellow and green peas milling acted as an encapsulant/adjuvant agent in the drying stage. Results showed high process productivity (0.41–0.51 kg protein product/kg pea flour) and low specific water consumption (52.58–62.39 kg water/kg protein product) with this approach. Variations in processing parameters affected protein content, yield, and specific water consumption. Significant differences were observed in wetting time, water activity, flowability (Carr index), cohesiveness (Hausner index), density, particle size, and colour of the protein products, depending on the processing alternatives. This flexibility allows tailoring the properties of the powdered protein product for various food technology applications.
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    Evaluación de la composición y producción de concentrados proteicos de diferentes variedades de arveja amarillas y verdes (Pisum sativum L.)
    (INTA, 2024) Accoroni, Cecilia; Espósito, María Andrea; Magnano, Luciana; Guraya, María Ángeles; Godoy, Ezequiel; Reinheimer, María A.
    El aumento constante en los últimos años de la población mundial provocó la búsqueda de fuentes proteicas vegetales alternativos a las proteínas animales. La arveja es una excelente alternativa, en su formato de concentrados y aislados proteicos, como ingredientes en la industria alimentaria, garantizando una alimentación suficiente y sostenible para vegetarianos, veganos y celíacos. El objetivo de este trabajo fue evaluar la potencialidad comercial de una variedad comercial y dos variedades precomerciales del programa de mejoramiento INTA-FCA UNR (Primogenita, B320 y B313, respectivamente) en comparación con seis variedades comerciales, (Reussite, Viper, Kingfisher, Aragorn, Meadow y Astronaute) contemplando la composición de las harinas crudas y la solubilidad de las proteínas. Se encontró que el contenido proteico fue superior en los tres años de evaluación para Primogénita, Viper (ambas de semilla verde) y B320, Reussite y Meadow (de semillas amarillas). Además, que tanto el contenido proteico como solubilidad resultaron ser superiores en las harinas crudas provenientes de variedades verdes, lo cual facilita la disponibilidad de proteínas totales a ser extraídas durante la producción de aislados/concentrados proteicos. Respecto a la solubilidad, se observan valores superiores a 65 % indicando disponibilidad de proteínas extraíbles por no sufrir desnaturalización durante su acopio y molienda. Se detectaron valores de actividad ureásica inferiores a 0,300. Esto indica que no es necesario aplicar tratamiento térmico además de una posible disminución de la proteína soluble. Para rendimiento de proteína, Primogénita tuvo los mayores rendimientos (>50%) en los tres años. Esta variedad resulta ser promisoria para la producción de concentrados/aislados proteicos ya que tiene un mayor contenido de proteína y disponibilidad para ser extraídas con un alto rendimiento de producto. Estos resultados abonan al programa en pro de obtener variedades con buen comportamiento agronómico y producción de concentrados proteicos potenciando el agregado de valor en la industria alimenticia.
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    Enhancing protein extraction from soybean expeller: exploring the impact of precipitating agents and flour-to-water ratios on functional properties
    (2024-07) Andrín, María Nieves; Guraya, María Ángeles; Accoroni, Cecilia; Torresi, Pablo Antonio; Godoy, Ezequiel; Reinheimer, María Agustina
    This study investigates sustainable methods for producing protein from soybean expeller via pH-shifting processes, aiming to reduce water usage in alkaline extraction by adjusting solid23 to-liquid ratios per cycle and employing isoelectric precipitants like lactic acid and lactic acid bacteria (Lactiplantibacillus plantarum and Lactococcus Lactis) to enhance functional and antioxidant properties over a wide pH range. Results indicate that the most efficient approach involves three 1:10 (w/v) extraction cycles with lactic acid bacteria as precipitants, demonstrating high productivity and low specific water consumption. Protein content and recovery yield showed no significant differences compared to alternatives with higher water consumption or less eco-friendly precipitants. Despite lower solubility, protein products precipitated with lactic acid bacteria formed stable emulsions, exhibiting superior free radical scavenging activity.
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    Protein recovery from yellow peas (Pisum sativum L.) for enhanced processing sustainability and functional properties.
    (2024) Guraya, María Ángeles; Andrín, María Nieves; Batres, Rocío; Torresi, Pablo Antonio; Godoy, Ezequiel; Reinheimer, María Agustina
    This research focuses on sustainable protein recovery methods from a new yellow pea variety by examining alternative pH-shifting processes. The study focuses on reducing water consumption during alkaline extraction by adjusting solid-liquid ratios, and evaluating the impact of various isoelectric precipitants, including lactic acid and lactic acid bacteria (Lactobacillus plantarum and Lactobacillus lactis), on the functional and antioxidant properties of products across a wide range of pH values. It was here found that the process alternative with three 1:10 (w/v) extraction cycles and lactic acid bacteria as precipitant agent achieved high process productivity (0.36 kg protein product/kg pea flour) and low specific water consumption (94.9 kg water/kg protein product). No significant differences were observed in protein content and yield when compared to other flour-water ratios with higher water consumption or less eco-friendly precipitants. Products precipitated with lactic acid bacteria formed stable emulsions even at the isoelectric point, exhibited superior free radical scavenging activity, although solubility and water holding capacity were lower, and no differences were noted in oil holding capacity, foaming capacity, and foam stability.