textured vegetable proteins (tofu) using two coagulants namely: lime and calcium sulphide. The textured vegetable proteins were analyzed for their proximate composition and sensory properties. Proximate composition of the texture vegetable proteins revealed a range of 13.67-15.04% moisture, 1.39-3.51% ash, 16.56-21.32% fat, 34.75-48.00% crude protein, 6.64-14.21% crude fibre and 4.34-16.22% carbohydrate. Soymilk curd coagulated with calcium sulphide had higher ash and protein contents while fluted pumpkin seed milk curd coagulated with calcium sulphide had significantly (p<0.05) higher fat and crude fibre contents. There was no significant (p<0.05) difference in the crude protein, moisture, and carbohydrate content of the textured vegetable proteins. Mean sensory scores of the curds showed a range of 4.40-6.70 for colour, 5.05-6.50 for aroma, 3.20-5.20 for taste, 3.95-6.15 for texture, 3.55-6.25 for flavour and 4.18-6.65 for overall acceptability. The sensory result showed that soybean milk coagulated with calcium sulphide was the most preferred sample for all sensory attributes. Fluted pumpkin milk coagulated with calcium sulphide also had sensory attributed comparable with the of soybean milk coagulated with calcium sulphide. Mean sensory scores of fluted pumpkin seed milk and soybean milk curds coagulated with calcium sulphide were more preferred than the samples coagulated with lime juice. The study therefore recommends the use of fluted pumpkin seed milk coagulated with calcium sulphide for the production of tofu with sensory attributes and nutrient content comparable with soybean tofu.
The by-product (residue) from fermented yellow maize starch production was dried and milled into flour and designated as fermented yellow maize residues, the residue was added to Gari at 0-30% levels of substitution to produce Gariresidue blends. The blends and control were evaluated for its functional and pasting properties, proximate composition, mineral content and starch digestibility. The Gari-residue blends were reconstituted with hot water into a stiff dough ("Eba") and its sensory and proximate composition analyzed. Results showed water and oil absorption capacities decreased, and an increase in Bulk density, swelling power and solubility index. Pasting property showed a decrease in peak, breakdown and setback viscosities, a decrease in pasting time while the pasting temperature increased. Proximate composition of stiff dough showed an increase in fat, crude protein and crude fibre with a decrease in carbohydrate content, mineral content determination showed the contents of Ca, Zn, Fe and P increased. Sensory evaluation results showed Gari stiff dough at 5-25% levels of substitution had equal preference with the control for overall acceptability. Values for starch digestibility showed a reduction in glycemic indices with the presence of residue flours. This study has thus shown that fermented maize starch residue enhanced the sensory and nutritional properties of "Eba".
Plants naturally co-exist with their predators and have therefore developed certain defense mechanisms against them. These include production of secondary metabolites, which are not directly involved in their growth processes (as opposed to primary metabolites), but act as deterrents to their predators. Some of these metabolites, known as anti-nutritional factors, affect the nutritive value of forages and feedstuffs, and hence animals (including humans) that feed on them. Although they are generally not lethal, their effects may be contrary to optimum nutrition, making them undesirable for human and animal nutrition as they may interfere with feed utilization, health and productivity of animals. Their wide distribution in plants is determined by age, cultivar, geographic distribution, and storage condition after harvesting. Certain characteristics which they possess, together with other reasons make them to be found at some levels in almost all plants and plant products used as animal feedstuffs. The major classes of anti-nutritional factors include glycosides, alkaloids, protease inhibitors, amylase inhibitors, phenolic compounds, phytohaemagglutinins, phytates, terpenes/triterpenes, non-protein amino acids, oxalates, and glucosinolates. The varied chemical structure and composition of these metabolites which are diverse in their abundance in different plants and their products, result in an array of direct and indirect effects which impinge on animal productivity and health. They occur in various quantities in plants, with alkaloids as the most abundant in higher plants. Alkaloids are among the most important drugs used by human beings and have also been adjudged to be the most useful and most dangerous products of nature. The effects of these anti-nutrients may be physical such as alopecia or physiological such as disruption of metabolic reactions and synthesis of important biochemical components of tissues. Their structures, occurrence, effects, and other related issues are reviewed herein. Keywords: Secondary metabolites, Anti-nutritional factors, Animal Feedstuffs, Molecular and Cellular Targets, Phytoanticipins and Phytoalexins.
The effect of Bran and Hull retention on the sensory and nutrient composition of “Ogi flour prepared from maize, millet are sorghum were investigated. The maize and sorghum were soaked for 72 hours, while the millet was soaked for 48 hours, decanted, washed and wet milled into a paste which was oven dried at 50°C for 24 hours and milled into fine flour. The proximate composition, functional properties, pasting properties of the “Ogi” flour was determined as well as evaluating the sensory properties. The moisture content, ash, fat, crude fibre, protein and carbohydrate respectively ranged thus: 2.63 – 8.67%, 1.13 – 1.41%, 4.57 – 7.20%, 1.30 – 5.75%, 4.27 – 7.87% and 75.84 – 82.88%. The presence of Bran and Hulls led to a decrease in moisture content, on increase in ash fat and protein content with decrease in carbohydrate values. The bulk density, water absorption capacity, swelling power and solubility respectively ranged as follows: 0.56 – 0.61g/ml, 1.00 – 2.00g/g, 5.50 – 6.95g/g, 16.10 – 24.40% the presence of Bran led to a decrease in bulk density in maize and millet ogi, a decrease in water absorption capacity in millet and sorghum ogi. The pastry properties of peak, trough breakdown, final and setback viscosities showed a decrease in values from the control samples values for peak time died not differ significantly (P<0.05) between the sieved and unseived ogi flours. While the presence of Bran and Hulls increased pasting temperature in maize and sorghum ogi flours. Result for sensory evaluation showed the control samples were the most preferred for all the attributes. This study revealed that ogi flour can be prepared with a by-pass of the sieving process to enhance nutrient retention.
Chin-Chin, a traditional Nigerian snack was prepared utilizing wheat-fermented maize residue composite flour at 0 – 30% replacement levels. Effects of this addition on the functional and pasting properties of the flour composite was evaluated. The snack produced was also evaluated for its sensory attributes, proximate composition and invitro-protein digestibility (IVPD). Functional properties results showed an increase in water absorption capacity (WAC), a decrease in oil absorption capacity (OAC), decrease in Bulk Density (BD), swelling power and solubility index with residue addition. Pasting property results showed a drop in the value of peak, trough, breakdown and final viscosity with substitution while set back viscosity increased.Peak temperature decreased, but values for pasting temperature showed no significant difference between the control and the blends. Results for sensory evaluation showed equal preference for overall acceptability. Proximate composition results showed residue addition led to an increase in crude fibre and protein content with a drop in the carbohydrate value. Residue addition did not increase protein digestibility. Addition of fermented maize residue in chin-chin production can be another way of utilizing the fibre rich by-product of the production of fermented maize starch.
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
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.