Vegetable crops as functional foodAlthough a very old concept, the relationship between food and health has never been as close as it is today. Diets rich in fat, salt, and sugar and poor in complex carbohydrates, vitamins, and minerals in association with a more sedentary lifestyle, are responsible for an increase in diet-related diseases such as obesity, diabetes, cardiovascular problems, hypertension, osteoporosis, and cancer. It is believed that the ingestion of fruits and vegetables helps in the prevention of these diseases. Vegetables are an important component of the diet, usually in association with protein-and starch-rich foods. They are responsible not only for adding variety of color and texture to meals, but also for providing important nutrients. Vegetables are low fat and low calorie foods, with relatively small amounts of protein, but they are rich in carbohydrates and fibers and add significant amounts of micronutrients to the human diet. They are also a source of functional substances, which might benefit one or more physiological functions in the body, besides adequate nutritional effects. Functional elements might play a role in improving health and wellbeing, as well as reducing the risk of the onset of diet-related diseases. The development of vegetable cultivars with greater amounts of these substances is one of the main goals of modern breeding programs. Many of these programs, working on different vegetables, are currently underway in Brazil and other countries, aiming to improve the amount and variety of carotenoids present in the diet. In the present paper, the main aspects of vegetable crops as functional foods are discussed. The most important achievements of tomato and carrot breeding programs in Brazil aiming to improve the amount and types of functional compounds are also presented.
The effects of temperature on germination and endo-beta-mannanase activity in seeds of Sesamum indicum was investigated. The minimum germination temperature (Tmin) lies between 12.8°C and 13.2°C while the maximum temperature (Tmax) is located between 45.5°C and 46°C. Germinabilities are statistically not different from estimated viability (88%) between 18.8°C and 43.2°C. The Mann-Whitney test indicated the interval 31.9°C to 35.1°C as the optimum temperature (Topt) range for germination rate. When seeds incubated at temperatures at or below the Tmin and close to or above the Tmax were transferred to 30°C, those incubated at lower temperatures achieved high germinability. On the other hand, the higher the pre-incubation temperature above Tmax, the lower the germinability achieved near Topt. Seed endosperm cell wall was found to contain mannose as the main monosaccharide. An increase in endo-beta-mannanase activity in the micropylar endosperm prior to seed germination was observed only at supra-optimum temperature.
RESUMO -Objetivou-se com este estudo avaliar revestimentos comestíveis à base de goma xantana e glicerol, combinada a cloreto de cálcio, ácido oleico e/ou óleo essencial de hortelã-pimenta na conservação de morangos cv. Festival. Os morangos foram selecionados, lavados, sanitizados e, a seguir, submetidos a diferentes tratamentos de revestimentos à base de goma xantana acrescidos de glicerol, cloreto de cálcio, ácido oleico e/ou óleo essencial de hortelã-pimenta. Os frutos foram secos sob ventilação forçada a 4 ºC, por 15 h, e, posteriormente, embalados em bandejas com tampa de Polietileno Tereftalato (PET) e armazenados a 4 ºC, durante 12 dias. Foram realizadas análises de perda de massa, firmeza, luminosidade, tonalidade, pH, acidez, sólidos solúveis totais, antocianinas e a incidência de deterioração fúngica. Os diferentes revestimentos utilizados foram eficientes na conservação dos morangos. O tratamento com goma xantana e glicerol apresentou os melhores resultados, pois a influência do ácido oleico ou do óleo essencial de hortelã-pimenta, assim como do cloreto de cálcio, não foi significativa. O revestimento de goma xantana proporcionou redução da perda de massa, manutenção da firmeza, cor, pH, acidez, sólidos solúveis totais, antocianinas e não estimulou o crescimento fúngico. Desta forma, esta goma apresenta potencial para aplicação como revestimento em morangos, visando a maximizar a vida útil deste produto. Termos de indexação: Fragaria x ananassa Duch., Mentha piperita L., ácido oleico, perda de massa, deterioração fúngica. EDIBLE COATING BASED ON XANTHAN GUM, LIPOPHILIC COMPOUNDS AND/OR CALCIUM CHLORIDE IN THE STRAWBERRIES PRESERVATIONABSTRACT -It was aimed with this study to evaluate the edible coating based on xanthan gum and glycerol, combined the calcium chloride, oleic acid and/or peppermint essential oil, in the preservation of strawberries cv. Festival. Strawberries were selected, washed, sanitized, and after the fruits were subjected to different xanthan based coating treatments containing glycerol, calcium chloride, oleic acid and/or peppermint essential oil. Fruits were dried under forced ventilation at 4 ºC for 15 h and, after, packed in polyethylene terephthalate trays and stored at 4 ºC for 12 days. Analyses of weight loss, firmness, color, pH, titratable acidity, total soluble solids, anthocyanin concentration and incidence of decay were realized. All coatings tested were efficient in maintaining fruit quality. The best treatment was xanthan gum and glycerol, since the addition of oleic acid, peppermint essential oil and calcium chloride was not significant. Xanthan gum coating provided reduction of weight loss, maintained firmness, color, pH, titratable acidity, total soluble solids and anthocyanin concentration and did not stimulate fungal growth. Thus, this gum has potential for application as a coating in strawberries cv. Festival to maximize the useful life of this product.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
334 Leonard St
Brooklyn, NY 11211
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.