Response surface optimisation of antioxidant extraction from kinema, a Bacillus-fermented soybean food

Influence of Processing Techniques on the Proximate Composition, Anti-Nutritional Factors, and Amino Acid Profile of Red Kidney Beans (Phaseolus vulgaris L)

The effects of traditional processing techniques-cooking, autoclaving, and roasting-on the physicochemical properties, anti-nutritional factors (ANF), and amino acid composition of red kidney beans (RKB) were investigated. Significant alterations in proximate composition were observed: cooking generally increased protein levels, while roasting decreased fiber content. Autoclaving produced diverse effects. Evaluation of functional properties revealed changes in water activity, density, and color. Cooking increased water activity and lightness, whereas roasting and autoclaving led to darker colors and reduced water activity. Cooking effectively enhanced protein content and reduced ANF, while texture profile analysis (TPA) showed variations in hardness, adhesiveness, and resilience. Autoclaving resulted in softer beans, and cooking influenced adhesiveness and springiness. ANF analysis showed reductions post-processing, especially with cooking and autoclaving. Amino acid composition varied across processing methods, with notable effects from cooking and roasting. Microstructural changes observed via Scanning Electron Microscopy (SEM) suggested improved nutrient bioavailability. Fourier Transform Infrared (FTIR) spectroscopy indicated alterations in the chemical composition of proteins, lipids, and carbohydrates, attributed to the different processing methods. This comprehensive study highlights the complex interactions between cooking techniques and the physicochemical properties of legumes, providing valuable insights for optimizing their nutritional value. Traditional method of cooking RKB enhances the nutritional value.

Fermented soybean foods and diabetes

The number of patients with type 2 diabetes mellitus is increasing, and its prevention and management are important. One of the factors contributing to the increased incidence of type 2 diabetes mellitus is the change in dietary habits, including a Westernized diet. Fermented foods are foods that are transformed by the action of microorganisms to produce beneficial effects in humans and have been consumed for thousands of years. The production and consumption of fermented soy foods, including natto, miso, douchi, cheonggukjang, doenjang, tempeh, and fermented soy milk, are widespread in Asian countries. This review focuses on fermented soybean foods and summarizes their effects on diabetes. Fermentation increases the content of ingredients originally contained in soybeans and adds new ingredients that are not present in the original soybeans. Recent studies have revealed that fermented soybean food modifies the gut microbiota-related metabolites by modifying dysbiosis. Furthermore, it has been reported that fermented soybean foods have antioxidant, anti-inflammatory, and anti-diabetic effects. In recent years, fermented foods, including fermented soybeans, have shown various beneficial effects. Therefore, it is necessary to continue focusing on the benefits and mechanisms of action of fermented foods.

Effects of fermentation time on the bioactive constituents of Kinema, a traditional fermented food of Nepal

Kinema is a traditional food prepared by the natural fermentation of cooked soybeans. The fermented Kinema is known to have several bioactive constituents, however, only limited reports on the effect of fermentation time on the bioactivity of Kinema are available. Therefore, in this work, changes in phenolics content and radical scavenging activity of Kinema at different fermentation times were explored. Furthermore, the optimum fermentation time for maximum bioactivities (total phenolic content, total flavonoid content, and DPPH radical scavenging activity) was determined using one-factor response surface methodology. The numerical optimization suggested an optimum fermentation time of 29.6 h with significantly higher total phenolics and flavonoid contents of 62.84 ± 0.89 mg GAEs/g dry extract, 45.41 ± 0.57 mg QEs/g dry extract, respectively (p < 0.05) compared to traditionally fermented Kinema. Similarly, the IC₅₀ concentration for DPPH radical scavenging activity of 1.78 ± 0.01 mg dry extract/mL, was significantly lower than those for traditionally prepared Kinema (p < 0.05). Moreover, optimized Kinema had significantly higher overall sensory scores compared to the traditional sample. The results suggested that fermentation time affects the amount of bioactive constituents of Kinema. Further studies are needed to explore the changes in the type of phenolic and flavonoid compounds.

Multiresponse optimization of physical, chemical, and sensory properties of the gluten-free cake made with whole white quinoa flour

The optimum formulation and baking conditions for the production of a gluten-free cake made with whole white quinoa flour were determined using response surface methodology (RSM). The effects of sugar content (25-35%), oil content (10-20%), baking temperature (160-180 °C), and time (37.5-42.5 min) on textural characteristics (hardness, chewiness), volume properties (volume index, symmetry index, specific volume), color attributes (Lout* and aout* values), polyphenol content, antioxidant capacity and sensory qualities (appearance, mouthfeel, and overall acceptability) of cakes were investigated. The sugar content and baking temperature were found to have a significant effect on all responses. The optimum values for the independent variables were determined to be 31.195% for sugar, 12.044% oil, 180 °C baking temperature, and 42.5 min baking time. The regression models' suitability was established by verifying the optimum values. The high quality cake obtained with quinoa flour may set a new trend in the gluten-free product market.

Supplementary Information

The online version contains supplementary material available at 10.1007/s13197-022-05406-3.

Simultaneous Characterization and Quantification of Varied Ingredients from Sojae semen praeparatum in Fermentation Using UFLC⁻TripleTOF MS

Systematic comparison of active ingredients in Sojae semen praeparatum (SSP) during fermentation was performed using ultra-fast liquid chromatography (UFLC)-TripleTOF MS and principal component analysis (PCA). By using this strategy, a total of 25 varied compounds from various biosynthetic groups were assigned and relatively quantified in the positive or negative ion mode, including two oligosaccharides, twelve isoflavones, eight fatty acids, N-(3-Indolylacetyl)-dl-aspartic acid, methylarginine, and sorbitol. Additionally, as the representative constituents, six targeted isoflavones were sought in a targeted manner and accurately quantified using extracted ion chromatograms (XIC) manager (AB SCIEX, Los Angeles, CA, USA) combined with MultiQuant software (AB SCIEX, Los Angeles, CA, USA). During the fermentation process, the relative contents of oligoses decreased gradually, while the fatty acids increased. Furthermore, the accurate contents of isoflavone glycosides decreased, while aglycones increased and reached a maximum in eight days, which indicated that the ingredients converted obviously and regularly throughout the SSP fermentation. In combination with the morphological changes, which meet the requirements of China Pharmacopoeia, this work suggested that eight days is the optimal time for fermentation of SSP from the aspects of morphology and content.

Optimisation of extraction of bioactive compounds from Feronia limonia (wood apple) fruit using response surface methodology (RSM)

In this study, the extraction conditions for the maximum recovery of polyphenols with high antioxidant activity were optimised by response surface methodology (RSM) in Feronia limonia fruit. The independent variables were viz. concentration of ethanol (X1: 30-70%), incubation temperature (X2: 37-60%) and solvent-to-solid ratio (X3: 20-40%). ANOVA results showed that concentration of ethanol and temperature affected the total polyphenol content (TPC, Y1), DPPH (Y2) and ABTS (Y3) radical scavenging activities significantly (p<0.05) whereas solvent-to-solid ratio was found to be insignificant. A second-order polynomial model satisfactorily fitted the experimental data with the R(2) values of 0.966, 0.946 and 0.955, respectively for the responses Y1, Y2 and Y3 (p<0.0001), implying a good agreement between the predicted and experimental values. The optimal conditions for the highest yield of TPC (7.21±1.4 g GAE/g) with >80% radical scavenging activities were derived at X1=62.7%, X1=49.7 °C and X3=39.4 mL/g.

Development and application of chemometric-assisted dispersive liquid-liquid microextraction for the determination of suspected fragrance allergens in water samples

A simple and green method based on dispersive liquid-liquid microextraction, mated to chemometrics and followed by mass spectrometric detection for the determination of suspected fragrance allergens in water samples is developed and assessed in this work. Volume of extraction and disperser solvent, pH, ionic strength, extraction time, sample volume, as well as centrifugation time were initially optimized in a fractional factorial design. The obtained significant factors were optimized by using a central composite design and the quadratic model between the dependent and the independent variables was built. The obtained optimal conditions were: aqueous sample of 3.8 mL, 100 μL chloroform, 1.40 mL acetone, 4 min centrifugation time, natural pH containing 5% (w/v) NaCl, and centrifugation speed 4000 rpm. Method proved to be linear over a wide range of concentration for all analytes with R(2) between 0.9807 and 0.9959. The repeatability and reproducibility of the proposed method, expressed as relative standard deviation, varied between 3-13% and 4-16%, respectively. The limits of detection ranged from 0.007 to 1.0 μg L(-1) . The recommended method was applied to water samples including baby bath as well as swimming pool water samples and was compared with a previously reported method.