scholarly journals Pilot Plant Scale Manufacture of Bread Enriched with Seed Protein Concentrates

2021 ◽  
Vol 9 (6) ◽  
pp. 991-997
Author(s):  
Özgenur Coşkun ◽  
Halime Pehlivanoğlu ◽  
İbrahim Gülseren
Keyword(s):  
Seed Protein ◽  
Seed Proteins ◽  
Grape Seed ◽  
Protein Concentrate ◽  
Pumpkin Seed ◽  
Black Cumin ◽  
Protein Concentrates ◽  
Gluten Quality ◽  
Pilot Plant Scale ◽  
Visual Characteristics

For many seeds, cold press technology generates higher quantities of cakes than seed oils, which are concentrated in proteins. Valorization of the cakes could offer a viable strategy to manufacture protein fortified foods with comparable characteristics as the conventional products. Here, black cumin, grape seed and pumpkin seed protein concentrates were prepared based on an alkaline extraction-isoelectric precipitation technique. The influence of protein concentrate addition on the flour, dough and bread characteristics were investigated for textural profile, gluten quality and visual characteristics including color attributes. While the interactions between gluten and seed proteins were mostly weak, some of the physicochemical attributes differed significantly. In terms of volume and visual characteristics, pumpkin seed protein concentrates enriched bread demonstrated similar characteristics as the controls, while black cumin or grape seed protein concentrate enriched wheat flours were more resistant and less extensible than the controls. Similarities and differences between controls and protein enriched gluten-free or gluten-bearing bread were discussed.

Biological Processing of Pea Grain and Secondary Starch Raw Materials to Produce Food and Feed Protein Concentrates

2020 ◽  
Vol 36 (4) ◽  
pp. 49-58
Author(s):  
V.V. Kolpakova ◽  
R.V. Ulanova ◽  
L.V. Chumikina ◽  
V.V. Bessonov
Keyword(s):  
Saccharomyces Cerevisiae ◽  
Amino Acid ◽  
Amino Acid Composition ◽  
Acid Composition ◽  
Mass Fraction ◽  
Geotrichum Candidum ◽  
Protein Concentrate ◽  
Protein Concentrates ◽  
Pea Flour ◽  
Nitrogenous Substances

The goal of the study was to develop a biotechnological process for the production of protein concentrates via bioconversion of pea flour and whey, a secondary product of starch manufacture. Standard and special methods were used to analyze the chemical and biochemical composition of protein concentrates (amino acid, carbohydrate, and fractional) of flour, whey and protein concentrates. It was established that pea flour contains 52.28-57.05% water-soluble nitrogenous substances, 23.04-25.50% salt-soluble, 2.94-4.69% alcohol-soluble compounds, 0-0.61% of soluble glutenine, 6.67-10.40% alkali-soluble glutenine and 5.96-10.86% insoluble sclerotic substances. A mathematical model and optimal parameters of the enzymatic extraction of pea protein with a yield of 65-70% were developed. Ultrasonic exposure increased the yield of nitrogenous substances by 23.16 ± 0.69%, compared with the control without ultrasound. The protein concentrate had a mass fraction of nitrogenous substances of 72.48 ± 0.41% (Nx6.25) and a complete amino acid composition. The microbial conversion by the Saccharomyces cerevisiae 121 and Geotrichum candidum 977 cultures of starch whey which remained after protein precipitation allowed us to obtain feed concentrates from biomass and culture liquid with a protein mass fraction of 61.68-70.48% (Nx6.25). Protein concentrates positively affected the vital signs of rats and their excretory products. A technological scheme was developed to test the complex pea grain and starch whey processing under pilot conditions. pea, protein concentrate, extracts, whey, bioconversion, Geotrichum candidum, Saccharomyces cerevisiae, chemical composition, amino acid composition

scholarly journals Type and Amount of Legume Protein Concentrate Influencing the Technological, Nutritional, and Sensorial Properties of Wheat Bread

2021 ◽  
Vol 11 (1) ◽  
pp. 436
Author(s):  
Nastasia Belc ◽  
Denisa Eglantina Duta ◽  
Alina Culetu ◽  
Gabriela Daniela Stamatie
Keyword(s):  
Wheat Bread ◽  
Soy Protein Concentrate ◽  
Protein Concentrate ◽  
Total Change ◽  
Protein Concentrates ◽  
Overall Acceptability ◽  
Protein Levels ◽  
Legume Protein ◽  
Bread Properties

Plant protein concentrates are used to enhance the nutritional quality of bread and to respond to the demand of consumers with respect to increased protein intake. In the present study, bread samples were produced using pea protein concentrate (PP) and soy protein concentrate (SP) substituting wheat flour by 5%, 10%, and 15%. The protein levels were between 1.2- and 1.7-fold (PP) and 1.1- and 1.3-fold (SP) higher than the control bread. The incorporation of 10% and 15% PP allowed for the achievement of a “high protein” claim. Water absorption was correlated with the protein contents of the breads (r = 0.9441). The decrease in bread volume was higher for the PP than SP incorporations, and it was highly negatively correlated with the protein content (r = −0.9356). Soy breads had a softer crumb than pea breads. The total change in crumb colour was higher in the PP than SP breads. The soy breads had an overall acceptability between 6.3 and 6.8, which did not differ (p > 0.05) from the control. PP breads were statistically less liked (p < 0.05). The results underlined that the choice of the type and amount of protein concentrates influenced the bread properties differently.

scholarly journals Comparative analysis of physiologically important fatty acids

2010 ◽  
pp. 71-76
Author(s):  
Gabriella Kövér ◽  
Zoltán Győri
Keyword(s):  
Fatty Acids ◽  
Fatty Acid Composition ◽  
Fatty Acid ◽  
Comparative Analysis ◽  
Vegetable Oils ◽  
Sunflower Seed ◽  
Wheat Germ ◽  
Grape Seed ◽  
Food Science ◽  
Pumpkin Seed

Fatty acid composition of some vegetable oils, like wheat germ, walnut, peanut, hempseed, linseed, sunflower-seed, olive, rapeseed, grape seed or pumpkin seed, analysed at Food Science Institute of Debrecen University, are summarised here. The effect of heat treatments usually used in Hungarian cuisine was examined in this paper.The influence of different fatty acids on human health is also reviewed.

scholarly journals Grain of narrow-leaved lupine with inclusion of organic micronutrient complex OMC as an alternative to soybeans in protein concentrates

2021 ◽  
Vol 901 (1) ◽  
pp. 012022
Author(s):  
Z N Fedorova ◽  
Yu G Tkachenko ◽  
V G Bliadze
Keyword(s):  
Protein Content ◽  
Research Data ◽  
Fiber Content ◽  
High Protein ◽  
Protein Concentrate ◽  
Cattle Farm ◽  
Protein Concentrates ◽  
Kaliningrad Region ◽  
High Degree ◽  
Competitive Import

Abstract The article presents the research data on the use of high-protein extruded concentrates based on narrow-leaved lupine in the compound feed in combination with organic microelement complex OMEK-7 M (complex, microelement additive produced by CJSC “Bioamid”, Saratov) in order to replace soybean. The studies were carried out on a cattle farm in the settlement of Novgorodskoe, Guryevskii district, Kaliningrad region (Temp LLC). The object of the research were calves of black-and-wheat breed. It was found that due to the extrusion of lupine grain in combination with OMEC premix, a competitive, import-substituting soybean-based protein concentrate with a high degree of bioavailability of feed was obtained. It contains a sufficient protein content of 26% and a low fiber content of 4.05%, which is very important for calves in the dairy period.

Effect of Varying Concentrations of Phytate, Calcium, and Zinc on the Solubility of Protein, Calcium, Zinc, and Phytate in Soy Protein Concentrate

1993 ◽  
Vol 56 (1) ◽  
pp. 42-46 ◽  
Author(s):  
SANDRA R. GIFFORD-STEFFEN ◽  
FERGUS M. CLYDESDALE
Keyword(s):  
Soy Protein ◽  
Zinc Complex ◽  
Soy Protein Concentrate ◽  
Protein Concentrate ◽  
Protein Concentrates ◽  
Gastrointestinal Conditions ◽  
Soluble Calcium ◽  
Soluble Zinc

The phytate x Ca:Zn millimolar ratio was varied in a number of soy protein concentrates and subjected to a sequential pH treatment to simulate gastrointestinal conditions. In two independent studies, calcium was either decreased incrementally from 4.94 to 0.25 mmol or zinc was increased from 0.0036 to 0.55 mmol. At the lowest level of calcium, a significant increase (P &lt; 0.01) in soluble zinc and soluble phytate was Observed at pH 5.5, due to the possible formation of a soluble calcium-phytate-zinc complex. Soluble zinc significantly increased (P &lt; 0.01) only when the level of zinc was raised to 0.55 mmol. Neither soluble calcium nor soluble phytate was altered at this level.

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