11 research outputs found
Umidade e congelamento de grãos de amaranto e sua capacidade de expansão térmica
O objetivo deste trabalho foi avaliar a influência do teor de umidade, da temperatura de armazenamento e do momento da hidratação de grãos de amaranto (Amaranthus cruentus L. ) sobre sua capacidade de expansão térmica, bem como comparar as composições quÃmicas de grãos crus e pipocados. Os atributos diâmetro médio ponderado, volume de expansão, densidade, rendimento, quantidade descartada e tempo de residência de grãos da variedade BRS Alegria foram avaliados de acordo com três teores de umidade (9,5, 11,5 e 13,5%), duas formas de armazenamento, temperatura ambiente de ±28ºC e congelado a -18ºC, e dois momentos de hidratação, antes e após congelamento. Utilizou-se chapa metálica aquecida a 215ºC para pipocar os grãos. Grãos congelados com umidade de 13,5% tiveram maior diâmetro médio ponderado e volume de expansão, e menor densidade e tempo de residência. A umidade de 13,5% proporcionou os maiores rendimentos e expansão dos grãos. O armazenamento a -18ºC produziu pipocas maiores e mais leves do que em condições ambientais. As pipocas apresentaram redução nos teores de proteÃnas e fibras insolúveis e aumento nos de lipÃdeos e fibras solúveis, em relação ao grão cru. O congelamento dos grãos a -18ºC e sua hidratação a 13,5% de umidade favorecem o pipocamento de grãos de amaranto, com produção de pipocas de melhor qualidade
Characterization of amaranth seed oils
The oil fractions of Amaranthus caudatus L. and Amaranthus cruentus L. seeds were studied after different treatments of the seeds. The oil contents were 7.1 and 8.5% for raw A. caudatus L. and A. cruentus L. seeds, and consisted of 80.3¿82.3% of triacylglycerols (TAGs). Phospholipids represented 9.1¿10.2% of the oil. The squalene content was 4.8¿4.9% in both types of oil. Air classification increased the lipid content and decreased the content of squalene, while heating (popping and cooking) increased the squalene content. After germination, the lipid fraction was decreased in their TAGs and increased in their phospholipids. The main fatty acid composition (palmitic, linoleic and oleic) was not affected by thermal treatments or by germination of the seeds. The hydroperoxide stability test showed that the stability of amaranth oil was more than that of sunflower oil. PRACTICAL APPLICATIONS This research provides some information about the effect of different treatments ¿ including heat treatments, germination and air classification ¿ on the oil characteristics of two species of amaranth seeds. Fatty acids and triacylglycerol profiles, lipid fractions and squalene content were the main characteristics studied during this research. The stability of the oil against oxidation is also presented as compared with sunflower oil. The results of this research provide a clearer picture for the potential use of amaranth oil on an industrial scale and its characteristic stability under different process condition
Seed treatments affect functional and antinutritional properties of amaranth flours
The effects of seed treatments, including cooking, popping germination and flour air classification, on the functional properties and antinutritional factors of Amaranthus caudatus and Amaranthus cruentus seeds were studied. Thermal treatments increased the water absorption with a maximum value of 5.1 and 6.3 g g-1 in flour of popped seeds of both species. Generally, fat absorption increased after the treatments. Air classification and germination followed by drying at low temperature increased the foam stability of the flours, while thermal treatment and germination followed by drying at higher temperatures reduced the foam stability. All treatments except air classification decreased the emulsion stability. Also, all treatments except germination followed by drying at 30 °C increased the flour dispersibility, whereas the soluble nitrogen index was increased in the germinated seed flours and decreased in thermal treated seeds and air-classified flours. Air classification increased the contents of phenolic compounds and phytate and decreased the contents of enzyme inhibitors, whereas the thermal treatments reduced the contents of phenolic compounds, phytate and enzyme inhibitors to a greater extent for cooking than for popping. Germination followed by drying reduced the level of phenolic compounds, phytate and enzyme inhibitor
Nutritional study of raw and popped seed proteins of Amaranthus caudatus L and Amaranthus cruentus L
The nutritional value of raw and popped (similar to popcorn preparation) seed proteins of two amaranth species, Amaranthus caudatus L and A cruentus L, was investigated. After popping, the true protein content in A caudatus and A cruentus decreased by 9 and 13% respectively. Among the amino acids, the loss of tyrosine due to the popping effect was the highest, followed by phenylalanine and methionine. Leucine was the first limiting amino acid in the raw samples, followed by lysine, while the reverse order was observed in the popped samples. The in vivo protein quality of raw and popped seeds was tested with male weanling rats and compared with wheat flour and casein samples. There was no difference between the in vivo digestibility of the raw and the popped seeds, although the in vitro digestibility was slightly higher for the popped samples. The protein efficiency ratio (PER) for all the amaranth seed samples was higher than that for the wheat sample, while the PER for the raw amaranth seed samples was close to that for the casein reference protein. The rat blood serum levels of total cholesterol, triglycerides and high-density lipoprotein cholesterol for all the amaranth samples were lower than those for the reference protein, while the wheat flour sample showed the lowest values. (C) 2004 Society of Chemical Industry
Effect of seed treatments on the chemical composition of two amaranth species: oil, sugars, fibres, minerals and vitamins
The effects of seed treatments, including cooking, popping, germination and flour air classification on several components of Amaranthus caudatus and A. cruentus seeds, including oil, sugars, fibre, minerals and vitamins were studied. The lipid, crude and dietary fibre, ash, and sugar contents were 71, 43, 140, 30 and 18 g kg-1 in raw A. caudatus and 85, 39, 134, 40 and 22 g kg-1 in raw A. cruentus seeds, respectively. Sucrose was the dominant sugar in the raw and thermal treated seeds of both species, while glucose and galactose were the dominant ones in the high protein and the germinated seed flours. Phosphorus, potassium, magnesium and calcium were the dominant minerals in the raw seeds of both species. Air classification increased the content of minerals by more than 35% while thermal treatments did not affect their content and germination increased the calcium and zinc contents. The ascorbic acid contents were 0.030 and 0.023 g kg-1 sample in raw A. caudatus and A. cruentus seeds, respectively. All the treatments reduced the ascorbic acid content, with a high effect for the air classification and the germinated seeds dried at 90 °C. The levels of vitamin B complex, including niacin, niacinamide, pyridoxine and riboflavin were increased in the high protein flour fraction (protein contents of these fractions of A. caudatus and A. cruentus were 263.9 g kg-1 and 246.6 g kg-1, respectively) and decreased in the thermal treated flours. Germination mostly increased the amounts of those vitamins while drying reduced their amounts
Effect of seed treatments on the chemical composition and properties of two amaranth species: starch and protein
The seeds of two Amaranth species were studied. The starch contents were 543 and 623 g kg-1 while crude protein contents were 154 and 169 g kg-1 for Amaranthus caudatus and Amaranthus cruentus seeds, respectively. The effect of several treatments, including cooking, popping and germination and flour air classification on the protein and starch properties were studied. Air classification decreased the starch content and increased the protein content, while heating increased the protein but did not affect the starch content. Germination decreased both starch and protein contents. Amylose content was increased by air classification and heating, but was not affected by germination. It was found that all treatments increased the starch swelling power and reduced the falling number. The resistant starch content was increased in the high protein flour (HPF) fraction and germinated flour compared with the raw flour, while its content decreased in the heat treated seed flours. These processes also affected the starch gelatinization temperature and peak viscosity. The thermal properties of the starch flour were not affected by air classification while gelatinization energy was decreased significantly (by 52.0 and 90.0% and by 70.0 and 95.0%) in cooked and popped A caudatus and A cruentus seed flours, respectively. The gelatinization energy was highest in germinated seeds dried at 90 °C with values of 2.67 and 3.87 J g-1. Air classification reduced the level of all protein fractions. Thermal treatment decreased the water-soluble fraction (albumins + globulins) and alcohol-soluble fraction (prolamins) in both species. The levels of all fractions except the water-soluble fraction (albumins + globulins) were reduced significantly in both species by germination, which mainly increased the amount of aspartic acid, serine and alanine, while the amounts of threonine, arginine and tyrosine decreased in both species. The polypeptide bands of the HPF in both species were unchanged compared with the raw seed flours, but more intensive coloured bands were observed. Thermal treatments eliminated major and minor bands above 35.0 KDa in both species
Crystalline fibrillar gel formation in aqueous surfactant-antioxidant system
Cetyltrimethylammonium bromide (CTAB) is a well-known cationic surfactant capable to micellize into diverse morphologies in aqueous medium. We observed the formation of an opaque gel state from aqueous CTAB solution in the presence of the aromatic additive, para-coumaric acid (PCA). Optical microscopic images revealed the presence of large fibrils in the system at room temperature. Gel nature of the fibrils was confirmed by rheological measurements. Presence of interstitial water in the fibrils was recognized with Raman spectroscopy. On heating the sample above 30 ° C, the fibrillar gel state changes to a transparent liquid state with Newtonian flow properties. Dynamic light scattering study hinted the presence of small micelles in the solution above 30 ° C. Thus the system showed a temperature-dependent structural transition from opaque water-swollen gel to transparent micellar liquid. The formation of water-swollen fibrillar network is attributed to surfactant-additive intermolecular interactions in aqueous medium. Transition to micelle phase above 30 ° C is related to Kraft transition which is observed at significantly lower temperature for CTAB in the absence of PCA. The structural features of PCA play a key role in promoting fibrillar network formation and elevating the Kraft transition in aqueous solution of CTAB