tannins and stachyose

Rice bean, a less known and underutilized legume, has emerged as a potential legume because of its nutritional potential. The nutritional quality of rice bean is higher as compared to many other legumes of Vigna family. In the present study, 16 diverse rice bean genotypes were evaluated for major nutritional constituents viz; protein content, total lipids, dietary fiber, total carbohydrates, vitamins, minerals, protein fractions, amino acid, and fatty acid profile. The protein content to the extent of 25.57% was observed in the genotype BRS-2 with in vitro digestibility of 54.23%. The fatty acid profile revealed the higher percentage of unsaturated fatty viz., linoleic and linolenic acid, which are nutritionally desirable in the diet. Albumins (6.13% to 7.47%) and globulins (13.11% to 15.56%) constituted the major portion of proteins. Anti-nutritional factors were in the range of: total phenolics (1.63% to 1.82%), total tannins (1.37% to 1.55%), condensed tannins (0.75% to 0.80%), hydrolysable tannins (0.56% to 0.79%), trypsin inhibitor (24.55 to 37.23 mg/g), phytic acid (7.32 to 8.17 mg/g), lipoxygenase activity (703 to 950 units/mg), and saponin content (1.2 to 3.1 mg/100 g). The oligosaccharides associated with the production of flatulence viz., raffinose, stachyose, and verbascose were in the limits of 1.66% to 2.58%, 0.94% to 1.88%, and 0.85% to 1.23%, respectively. In vitro protein digestibility up to 55.57% was observed in rice bean genotypes. The present study has revealed that rice bean is a nutritionally rich legume as compared to many other legumes of the category. Among different genotypes BRS-2 was observed superior and could be advocated for consumption as well as for inclusion in crop improvement programs.. Rice bean is nutritionally rich legume, but despite its nutritional excellence, it has been put in underutilized category. Because of this and several other reasons the people are not aware of its nutritional benefits. Moreover, the complete nutritional details are also not available on this pulse. The present study gives the vivid description of nutritional attributes of this legume for making people aware of its nutritional excellence and provoking improved work in rice bean.

Topics: Amino Acids; Ascorbic Acid; Dietary Carbohydrates; Dietary Fiber; Dietary Proteins; Fabaceae; Fatty Acids; Genotype; Lipoxygenase; Niacin; Nutritive Value; Oligosaccharides; Phenols; Phytic Acid; Raffinose; Saponins; Tannins; Trace Elements; Trypsin Inhibitors; Vitamins

The antinutrient (raffinose oligosaccharides, tannins, phytic acid and trypsin inhibitors) composition and in vitro protein digestibility of eight improved varieties of Phaseolus vulgaris grown in Ethiopia were determined. Stachyose was the predominant alpha-galactosides in all haricot bean samples. Raffinose was also present in significant quantities but verbascose, glucose and fructose were not detected at all in the samples. The concentrations observed for the protein digestibility and antinutritional factors, varied significantly (P<0.05) between varieties investigated in this study. Mean values for protein digestibility ranged from 80.66% (in Roba variety) to 65.64% (in Beshbesh variety). Mean values for raffinose, stachyose, sucrose, trypsin inhibitors, tannins and phytic acid were 3.14 mg/g, 14.86 mg/g, 24.22 mg/g, 20.68 TUIx10(3)/g, 17.44 mg, catechin equivalents/g and 20.54 mg/g respectively. Statistical analyses of data revealed that antinutritional factors and protein digestibility were influenced by variety (genotype). Relationships between antinutritional factors and protein digestibility were also observed. The possibility of selecting varieties to be used for large-scale cultivation in Ethiopia on the basis of these data is discussed. Among the improved varieties studied, Roba, Redwolaita, Mexican and Awash were found to be the best food and export type of haricot beans in the Ethiopian context, because of their higher protein digestibility, lower antinutrtional factors and other beneficial nutritional parameters. Roba variety can be used by local food processors for the production of value-added bean-based products especially to combat the problem of protein energy malnutrition and related diseases which are very common in developing countries.

Topics: Dietary Proteins; Digestion; Ethiopia; Food Analysis; Nutritional Physiological Phenomena; Oligosaccharides; Phaseolus; Phytic Acid; Plant Proteins; Raffinose; Tannins; Trypsin Inhibitors; Zinc

The effects of cooking treatments (boiling, autoclaving and microwave cooking) and germination on the nutritional composition and antinutritional factors of chickpeas were studied. Cooking treatments and/or germination caused significant (p < 0.05) decreases in fat, total ash, carbohydrate fractions, antinutritional factors, minerals and B-vitamins. Germination was less effective than cooking treatments in reducing trypsin inhibitor, hemagglutinin activity, tannins and saponins; it was more effective in reducing phytic acid, stachyose and raffinose. Cooking treatments and germination decreased the concentrations of lysine, tryptophan, total aromatic and sulfur-containing amino acids. However, cooked and germinated chickpeas were still higher in lysine, isoleucine and total aromatic amino acid contents than the FAO/WHO reference. The losses in B-vitamins and minerals in chickpeas cooked by microwaving were smaller than in those cooked by boiling and autoclaving. Germination resulted in greater retention of all minerals and B-vitamins compared to cooking treatments. In vitro protein digestibility, protein efficiency ratio and essential amino acid index were improved by all treatments. The chemical score and limiting amino acid of chickpeas subjected to the various treatments varied considerably, depending on the type of treatment. Based on these results, microwave cooking appears to be the best alternative for legume preparation in households and restaurants.

Topics: Amino Acids; Cicer; Dietary Carbohydrates; Dietary Fats; Digestion; Germination; Hemagglutinins; Hot Temperature; Minerals; Nutritive Value; Oligosaccharides; Phytic Acid; Raffinose; Tannins; Trypsin Inhibitors; Vitamin B Complex

The objective of this study was to evaluate the effect of the soaking step and the domestic processing of the common bean, on the chemical composition, the levels of phytate, tannin, starch and flatulence factors by utilizing the follows treatments: raw bean (FC), freeze-dried cooked unsoaked bean (FCSM), freeze-dried cooked bean without the non-absorbed soaking water (FCSAM), freeze-dried cooked bean with the non-absorbed soaking water (FCCAM) and the soaking water (AM). The beans were soaking for a period for 16 hours in the proportion 3:1 (water:beans) at room temperature. The effect of the phytates and tannins on the net protein efficiency ratio (NPR) and protein digestibility using male Wistar rats were studied. A decrease in the phytate content of the beans (85%) with use of soaking was observed. In the case of the tannin content, only the cooking of the beans promoted high decomposition (84%). In the (FCSAM) treatment a decrease in the raffinose (25.0%), stachiose (24.8%), verbascose (41.7%) and starch (26.8%) contents was observed. Diets containing casein (control), casein plus the soluble solids obtain from the soaking water showed no significant difference (p > 0.05) for the NPR, as well as for the different bean treatments, although these showing lower values. The treatment (FCSM) showed the higher digestibility (74.3 +/- 5.8%) of the bean treatments, the casein diets showing 94.6 +/- 0.9%. The reduction of the phytates, tannin, starch contents and flatulence factors in the common bean was most effective when the soaking water not absorbed was discarded (FCSAM).

Topics: Animals; Carbohydrates; Cooking; Digestion; Flatulence; Food Handling; Glucosides; Male; Nutritive Value; Oligosaccharides; Phaseolus; Phytic Acid; Raffinose; Rats; Rats, Wistar; Starch; Tannins

Six underutilized legume seeds grown in Nigeria namely, red and white lima beans, brown and cream pigeon pea, African yam bean and jackbean were analysed for different anti-nutritional factors Sojasapogenol B was identified as the predominant sapogenol in lima beans and jackbeans by capillary gas chromatography. The content of total inositol phosphates and individual inositol phosphates (IP6, IP5, IP4 and IP3) were analysed by ion-pair HPLC, being in the range of other legumes. Trace quantities of lupanine were identified as the alkaloid in jackbean. alpha-Galactosides were present in all the legume seeds, stachyose being the predominant galactoside in lima beans, African yam bean and jackbean, and verbascose in pigeon pea. The haemagglutinating activity was estimated as a measure of the lectin content of the samples. African yam bean was found to have the highest heamagglutinating activity. Tannins were found to be in low quantities. The presence of these anti-nutrients in relation to the nutritional value of the legume is discussed.

Topics: Alkaloids; Chromatography, Gas; Chromatography, High Pressure Liquid; Fabaceae; Galactosides; Inositol Phosphates; Lectins; Nigeria; Oligosaccharides; Plant Lectins; Plants, Medicinal; Saponins; Seeds; Sparteine; Tannins

Antinutritional factors of anasazi bean were compared to traditional pinto bean (Phaseolus vulgaris L.). Anasazi beans contained less (p<0.001) soluble and bound condensed tannins compared to pinto beans. No differences (p>0.05) in stachyose and raffinose content were found between the two bean types; verbascose was not detected at all. Significant (p<0.05) differences in lectin content were observed between anasazi and pinto bean. The lectins of anasazi beans were classified as non toxic and those of the pinto beans as toxic types. No differences (p>0.05) in inhibitor activity against human and bovine trypsin and chymotrypsin were found between the two bean types.

Topics: Animals; Fabaceae; Galactosides; Humans; Lectins; Nutritive Value; Oligosaccharides; Plant Lectins; Plants, Medicinal; Raffinose; Sucrose; Tannins; Trypsin Inhibitors