Your search keyword '"Soybean protein"' showing total 666 results

1. Ultratough nacre-inspired soybean protein isolate/graphene nanocomposite with flame-retardant, thermal conductivity and recyclable

Author

Liu, Tao, Liu, Zheng, Gu, Weidong, Zhang, Jieyu, Gong, Shanshan, and Li, Jianzhang

Published

2025

2. Evaluation of folate synthesis of Lactiplantibacillusplantarum A3 and the application in the plant-based milk fermentation

Author

Tu, Xubin, Lou, Jiamiao, Zheng, Ting, Zhang, Haiqian, Liang, Jiaying, Ou, Mingjuan, Tu, Maolin, Guo, Yuxing, Zhang, Tao, and Wu, Zhen

Published

2025

3. Development and application of a polycationic soybean protein-based flocculant for enhanced flocculation and dewatering of dairy manure

Author

Amaly, Noha, Harrison, Scott, Tumuluru, Jaya Shankar, Sun, Gang, and Pandey, Pramod K.

Published

2025

4. Amine-functionalized soy protein/graphene oxide aerogel for efficient removal of multiple sugar-derived contaminants (SDCs): Full life cycle exploration and interaction simulation

Author

Xiong, Yan-Shu, Li, Ming-Xing, Li, Mei, Lu, Hai-Qin, Liu, Yang, Wei, Wei, Wei, Yan-Hong, Li, Wen, and Li, Kai

Published

2024

5. 大豆蛋白淀粉样纤维制备、功能特性及 应用研究进展.

Author

朱秀清, 韩田露, 刘纪元, 郭汝杞, 朱 颖, 黄雨洋, and 刘琳琳

Subjects

NUTRITIONAL value, HIGH temperatures, POLYPEPTIDES, SOY proteins, FOOD industry, MONOMERS, GELATION

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2025

6. Preparation and Characteristics of Acid-soluble Soybean Protein Hydrolysates

Author

Liqi FAN, Yang LIU, Bao YANG, Yi YU, Wu LI, Lei LIU, Zhunchun LI, Ao ZHA, and Jucai XU

Subjects

soybean protein, enzymatic hydrolysates, preparation characteristics, peptidomics, antioxidant peptides, Food processing and manufacture, TP368-456

Abstract

In this work, the enzymatic hydrolysates of soybean protein were treated with acid at different pH values, and the differences in physicochemical properties, taste characteristics and in vitro antioxidant activities of the products were analyzed. Meanwhile, changes in peptide composition were also analyzed based on the peptidomics analysis to investigate the preparation characteristics of acid-soluble soy protein hydrolysates. The results showed an evident decrease in nitrogen recovery rate and total free amino acid contents after the acid treatment process. Nevertheless, only slight changes were observed in the antioxidant activity and peptide molecular weight distribution of the products.When the hydrolysates were acid-treated at pH5, the content of bitter hydrophobic amino acids was reduced, thereby the bitterness decreased. Additionally, the peptides identified from the enzymatic hydrolysates of soybean protein were primarily presented with the length values ranging from 2 to 5. For products treated at pH3, more pentapeptides and octapeptides were observed through the peptidomic analysis, while minor changes were observed for those treated at pH5. Moreover, compared with the product treated at pH3, the bitter taste of the hydrolysates could be evidently reduced after the acid treatment at pH5. Therefore, the acid treatment at pH5 was recommended for preparation of the acid-soluble soybean protein hydrolysates, which could help to achieve higher product yield (about 54.50%), better antioxidant activity and more potential antioxidant peptides (368), as well as a consistent peptide distribution and lower bitter taste.

Published

2025

7. Relationship between Calcium-binding Ability and Structure of Soybean Protein Based on the Change of Preparation

Author

Huilin LUAN, Xiaohan HUA, Wenhua YU, Xin JIA, and Lijun YIN

Subjects

soybean protein, extraction condition, alkali-soluble acid precipitation, heat treatment, enzymatic hydrolysis, calcium-binding ability, structure, Food processing and manufacture, TP368-456

Abstract

Soybean protein was a high-quality plant-based alternative protein, yet its calcium content was lower than animal protein. This study measured the calcium-binding ability of soybean protein under different extraction, heat treatment, and enzymatic hydrolysis conditions. The differences in calcium-binding ability, subunit composition, secondary structure, tertiary structure and hydrophobicity of soybean protein under four different preparation methods were compared. The relationship between the calcium-binding ability and the structure of soybean protein were discussed. The results showed that the binding of soybean protein and calcium ions was related to both the protein's secondary structure composition and its hydrophobicity. Heat treatment and enzymatic hydrolysis unfolded the secondary structure, leading to the enhancement of hydrophobicity and the exposure of the calcium-binding sites. Enzymolysis led to the aggregation of small molecular weight proteins, causing a spatial restructuring of the protein. These changes resulted in a 53% increase in bound calcium compared to heat treatment. The heat-enzyme combined treatment was the most effective among various treatments, which could increase the Ca2+ of the protein by about 2 folds and decrease the precipitation rate by 43%. Optimal soybean protein with high calcium-binding ability preparation involved dissolution at pH8 and 25 ℃, with acid-precipitated proteins dissolved in four times water at pH8. Subsequent steps included heating at 100 ℃ for 30 minutes, and enzymatic treatment using 1000 U/g flavor protease for three hours.

Published

2025

8. Characteristics of mildly refined soy protein fractions for cleaner soy‐food development.

Author

Peng, Yu, Zhao, Dandan, Li, Mo, Wen, Xin, and Ni, Yuanying

Subjects

*SOY proteins, *PLANT proteins, *DAIRY substitutes, *PLANT products, *ROUTE choice

Abstract

Summary: In recent years, the markets for plant‐based products and plant protein have experienced a remarkable global expansion. The demand for plant‐based products, ranging from meat substitutes and dairy alternatives to plant‐based snacks and beverages, has surged exponentially. Soy protein, among all the plant protein resources, held a significant market share in the plant‐based industry, reflecting its popularity and widespread use. The selection of an appropriate soy fractionation process is essential for the development of cleaner and more sustainable soy‐based food products. This study compared three different soy protein fractions (SPFs) obtained through mild fractionation processes, each with unique chemical compositions and functionalities. Aqueous ethanol washing process resulted in the fractions with the highest protein purity and water holding capacity, while the simplified aqueous extraction method coupled with either an alkaline solubilisation step (SAE‐Alkaline) or an acid precipitation step (SAE‐Acid) yielded protein fractions with superior solubility, thermal stability, and gel strength. The choice of fractionation route has significant implications for the production of protein‐rich ingredients, and prioritising sustainable processing methods can contribute to the development of innovative and environmentally friendly soy‐based foods. [ABSTRACT FROM AUTHOR]

Published

2024

9. Comparison of the quality of soybean meal and oil by soybean production origin.

Author

Liu, Huazhen, Gishini, Mohammad Fazel Soltani, Pope, Micah, Doehring, Todd, Kachroo, Pradeep, and Hildebrand, David

Subjects

SOYBEAN meal, SOY oil, SOYBEAN, AMINO acids, METHIONINE, FREE fatty acids

Abstract

Previous reports indicate variable soybean quality parameters exported from different geographic regions. This review compares soybean and soybean co‐products grown under diverse environmental conditions. While numerous studies have been conducted on whole soybean and soybean meal (SBM) composition by origin, similar analysis of soybean oil is lacking. This review has two objectives: 1) summarize soybean and SBM quality by origin using a meta‐analysis approach, and 2) analyze collected crude degummed soybean oil samples that originate from the US, Brazil and Argentina for key quality attributes. Soybeans from Brazil have higher levels of protein (P < 0.05) than US soybeans, but US soybeans have lower heat damage (P < 0.05) and total damage (P < 0.05) than soybeans from Brazil. US and Brazil SBM have higher crude protein (CP) (P < 0.05) than SBM from Argentina. At equal CP content, US SBM had less fiber (P < 0.0001), more sucrose (P < 0.0001) and lysine (P < 0.0001) and better protein quality than South American SBMs. Methionine, threonine, and cysteine levels were similar in soybean protein from US and Argentina and higher than that in soybean protein from Brazil. Crude degummed soybean oil from Brazil had more (P < 0.05) free fatty acids, neutral oil loss, phosphorus, calcium and magnesium than crude degummed soybean oil from the US or Argentina. Our analysis suggests that environmental conditions under which soybeans are grown, stored, and handled can have a large impact on chemical composition and nutrient quality of soybean meal and soybean oil. [ABSTRACT FROM AUTHOR]

Published

2024

10. Effect of the Addition of Soybean Protein and Insect Flours on the Quality of Cooked Sausages.

Author

Kolev, Nikolay, Vlahova-Vangelova, Desislava, Balev, Desislav, Dragoev, Stefan, Dimov, Krasimir, Petkov, Evgeni, and Popova, Teodora

Subjects

SOY proteins, TENEBRIO molitor, FLOUR quality, REFRIGERATED storage, SAUSAGES

Abstract

This study aimed to assess the effect of the addition (2%) of soybean protein (SP) and insect flours derived from house crickets (Acheta domesticus, HCF) and yellow mealworm (Tenebrio molitor, YMF) in cooked sausages. The technological characteristics of the batter, the chemical composition of the sausages, their technological traits and lipid stability during refrigerated storage, as well as their sensory properties, were investigated. The SP, HCF and YMF batters displayed higher pH (p = 0.0025) and stability (p < 0.0001) but a darker colour (p < 0.0001) than the control samples. The addition of SP increased the plasticity of the batter (p = 0.0017), while YMF decreased its structural strength (p = 0.0274). Higher pH and darker colour were detected in SP-, HCF- and YMF-containing sausages; however, the effect of the alternative proteins depended on the duration of storage. The plasticity decreased in the insect-containing sausages (p = 0.0010) and increased over time (p = 0.0136), whereas the elasticity was lower in the YMF group (p < 0.0001). The protein and fat contents were higher (p < 0.0001) in the sausages containing alternative protein. TBARS content decreased over time in these groups. The HCF and YMF sausages received lower scores for their appearance, colour, texture, flavour and taste, suggesting the need for further technological interventions to make such products more attractive to consumers. [ABSTRACT FROM AUTHOR]

Published

2024

11. Production of Oligopeptide from Soybean Protein by Lactococcus lactis Fermentation

Author

Meihuan LU, Zefang TONG, Yinghui MA, Meili ZHANG, and Lijun LI

Subjects

lactococcus lactis, soybean protein, oligopeptides, antioxidant ability, Food processing and manufacture, TP368-456

Abstract

In this study, foodborne microorganisms capable of fermenting and decomposing soy proteins were screened, and molecular weight analysis was performed for the peptides produced during decomposition. Subsequently, oligopeptides were obtained via isolation and purification, and their antioxidant activities were studied. The experiment results showed that a PZ1 strain was isolated from homemade kimchi and identified as Lactococcus lactis based on morphology and 16S rDNA sequence analysis. Whole genome analysis showed that the PZ1 strain contained a variety of peptidases and protease genes that had the potential to decompose proteins. Soybean proteins were then fermented by PZ1, and the polypeptides produced during fermentation were analyzed via gel permeation chromatography, revealing that 85% of polypeptides had a molecular weight below 1000 Da. The oligopeptides with molecular weight 300～1000 Da were obtained via ultrafiltration purification, and their antioxidant activity was studied. The oligopeptides demonstrated a good scavenging effect on DPPH, hydroxyl (·OH), and superoxide anion (O2−·) radicals, at an oligopeptide concentration of 2 mg/mL, the clearance rates were 79.31%, 78.27%, and 84.62%, respectively. Therefore, L. lactis PZ1 could degrade soybean protein efficiently and could be used as a probiotic for developing functional soybean products.

Published

2024

12. 面向呑咽障碍的大豆蛋白增稠剂润滑特性研究.

Author

张诚, 钱善华, 宋小飞), 蒋宇靖, and 黄建锋

Abstract

Copyright of Lubrication Engineering (0254-0150) is the property of Editorial Office of LUBRICATION ENGINEERING and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

13. Effect of Covalent Conjugation with Polyphenols by Free Radical Method on Gel Properties of Soybean Protein-Stabilized Emulsion

Author

MENG Ganlu, CHU Yunan, WU Yi, WANG Jubing, JIN Hua, XU Jing

Subjects

ferulic acid, covalent binding to polyphenols, soybean protein, gel properties, emulsion gels, Food processing and manufacture, TP368-456

Abstract

In this study, a covalent conjugate between ferulic acid (FA) and soybean protein isolate (SPI) was prepared by free radical method and was used to prepare gluconolactone (GDL)-induced emulsion gels. The effects of covalent binding to FA on SPI structure, emulsion properties and emulsion gel characteristics were investigated. The optimum concentration of FA was determined as 150 μmol/g protein based on intermolecular forces, textural properties, and water-holding capacity of SPI-FA (SFA) stabilized emulsion gels. Under this condition, spectral analysis showed that FA had a fluorescence quenching effect on SPI, and after covalent binding to FA, a decrease in the β-folded content and an increase in the α-helix, β-turn and random coil contents of SPI appeared. The absolute value of zeta potential and interfacial protein content of SFA stabilized emulsions increased, and the mean particle size and apparent viscosity decreased. The final storage modulus (G’) of SFA stabilized emulsion gels increased, and the changes in relaxation times and peak ratios observed in low-field nuclear magnetic resonance (NMR) measurements indicated that the SFA stabilized emulsion gels had better hydration properties. Moreover, they had a more uniform and dense porous network structure. These results show that SPI covalently bound to 150 μmol/g protein of FA is valuable in the preparation of emulsion gels.

Published

2024

14. Tilapia-soybean protein co-precipitates: Focus on physicochemical properties, nutritional quality, and proteomics profile

Author

Qingguan Liu, Li Tan, Pengzhi Hong, Huanming Liu, and Chunxia Zhou

Subjects

Tilapia protein, Soybean protein, Protein co-precipitates, Physicochemical properties, Nutritional quality, Proteomic analysis, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

The development of binary protein systems featuring superior nutritional properties and applied range is an interesting and challenging task in the food industry. In this study, the tilapia-soybean protein co-precipitates (TSPCs) with different mass ratios of tilapia meat and soybean meal were constructed. Results of physicochemical properties showed that the highest solubility and thermal stability values of TSPCs were 81.90 % and 90.30 °C, respectively. TSPCs have the full complement of amino acids and enhanced nutritional quality compared to tilapia protein isolate (TPI) and soybean protein isolate (SPI). TSPC2:1 and TSPC1:1 contained the highest levels of tryptophan, aspartic acid, glycine, histidine, and arginine relative to TPI and SPI. The in vitro protein digestibility and protein digestibility corrected amino acid scores of TSPCs were also higher than that of SPI. SDS-PAGE revealed that TSPCs contained protein subunits from TPI and SPI. Moreover, the lysine-to-arginine ratio and β subunit were greatly correlated with protein digestibility with correlation coefficients of −0.962 (P

Published

2024

15. Evaluation of Soybean Ingredients in Pet Foods Applications: Systematic Review.

Author

Kim, Hee S., Titgemeyer, Evan C., Curles, Erica, Olsen, Livia M., and Aldrich, Charles G.

Subjects

*PET food, *PET food industry, *SOYFOODS, *SOYBEAN, *ANIMAL nutrition

Abstract

Simple Summary: Soybean is a dominant oilseed in the U.S. Although soybeans are valuable ingredients for dogs and cats, soybean use in current pet foods has been low. The research was conducted to answer this question: What effects, if any, do soybean ingredients in dog or cat diets have on animal health and nutrition, palatability, feeding behavior, allergenicity, and extrusion processing? We summarized the most current research on soybeans in pet foods published since 2000. We discussed the strengths, weaknesses, opportunities, and threats of soybean in pet food applications. We concluded that various food processing technologies and the versatility of soybean ingredients have been demonstrated to offer considerable potential for inclusion as oil, protein, fiber, or functional ingredients in pet foods. Our work will be valuable, providing research status and gaps. Soybean use has been low in pet foods, even though they are an excellent source of protein, polyunsaturated fatty acids, and gut fermentable fibers. The purpose of this evaluation was to conduct a systematic review of the public literature to explore how soybeans have been researched for pet food applications since 2000 and to provide strengths, weaknesses, opportunities, and threats for soybeans in the pet food industry. The review covered a total of 44 articles related to soybean ingredients and their potential value in the pet food arena. The articles were categorized by their research contents and narratively summarized to demonstrate useful information to both the pet and soybean industries. When soybean-based products have been adequately processed to reduce the antinutritive factors, they are comparable to processed animal proteins in nutritional value, palatability, and functionality in pet food processing. We conclude that various food processing technologies and the versatility of soybean ingredients allow soybean to have considerable inclusion potential in pet foods. More research on dietary soybean ingredients regarding pet food processing, fermentation benefits on health, and consumer acceptance will be needed to understand soybean's position in the future pet food industry. [ABSTRACT FROM AUTHOR]

Published

2024

16. 自由基法多酚共价结合对大豆蛋白基 乳液凝胶特性的影响.

Author

孟甘露, 楚玉南, 吴 仪, 王菊兵, 金 花, and 许 晶

Subjects

SOY proteins, FERULIC acid, POLYPHENOLS, EMULSIONS

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

17. Co-Delivery System of Vitamin B 12 and Vitamin E Using a Binary W/O/W Emulsion Based on Soybean Isolate Protein–Xanthan Gum/Carrageenan: Emulsification Properties, Rheological Properties, Structure, Stability, and Digestive Characteristics.

Author

Gao, Tian, Wu, Xixi, Gao, Yiting, Teng, Fei, and Li, Yang

Subjects

VITAMIN B12, VITAMIN E, XANTHAN gum, CARRAGEENANS, RHEOLOGY, VITAMIN B complex, EMULSIONS

Abstract

In this study, the soybean protein isolate (SPI)–xanthan gum (XG) or carrageenan (CA) W/O/W emulsions for the co-delivery of vitamin B12 and vitamin E were prepared. The effects of XG and CA concentrations on the physicochemical properties and digestive characteristics of the emulsions were also investigated. The addition of XG and CA improved the SPI aggregation and increased its electrostatic repulsion so that more SPI was adsorbed at the phase interface. The emulsifying activity index and emulsifying stability index increased to 24.09 (XG 0.4%) and 14.00 (CA 0.5%) and 151.08 (XG 0.4%) and 135.34 (CA 0.5%), respectively. The adsorbed protein content increased to 88.90% (XG 0.4%) and 88.23% (CA 0.5%), respectively. Moreover, the encapsulation efficiencies of vitamin B12 and vitamin E were increased to 86.72% (XG 0.4%) and 86.47 (CA 0.5%) and 86.31% (XG 0.4%) and 85.78% (CA 0.5%), respectively. The bioaccessibility of vitamin B12 and vitamin E increased to 73.53% (XG 0.4%) and 71.32% (CA 0.5%) and 68.86% (XG 0.4%) and 68.74% (CA 0.5%). The best properties of the emulsions were obtained at a 0.4% concentration of XG and 0.5% of CA. This study offers a novel system for delivering bioactive substances, which is favorable for the advancement of food with delivery capability in food processing. [ABSTRACT FROM AUTHOR]

Published

2023

18. Effect of the Addition of Soybean Protein and Insect Flours on the Quality of Cooked Sausages

Author

Nikolay Kolev, Desislava Vlahova-Vangelova, Desislav Balev, Stefan Dragoev, Krasimir Dimov, Evgeni Petkov, and Teodora Popova

Subjects

insect flours, soybean protein, sausages, technological characteristics, lipid oxidation, sensory quality, Chemical technology, TP1-1185

Abstract

This study aimed to assess the effect of the addition (2%) of soybean protein (SP) and insect flours derived from house crickets (Acheta domesticus, HCF) and yellow mealworm (Tenebrio molitor, YMF) in cooked sausages. The technological characteristics of the batter, the chemical composition of the sausages, their technological traits and lipid stability during refrigerated storage, as well as their sensory properties, were investigated. The SP, HCF and YMF batters displayed higher pH (p = 0.0025) and stability (p < 0.0001) but a darker colour (p < 0.0001) than the control samples. The addition of SP increased the plasticity of the batter (p = 0.0017), while YMF decreased its structural strength (p = 0.0274). Higher pH and darker colour were detected in SP-, HCF- and YMF-containing sausages; however, the effect of the alternative proteins depended on the duration of storage. The plasticity decreased in the insect-containing sausages (p = 0.0010) and increased over time (p = 0.0136), whereas the elasticity was lower in the YMF group (p < 0.0001). The protein and fat contents were higher (p < 0.0001) in the sausages containing alternative protein. TBARS content decreased over time in these groups. The HCF and YMF sausages received lower scores for their appearance, colour, texture, flavour and taste, suggesting the need for further technological interventions to make such products more attractive to consumers.

Published

2024

19. Soybean germplasm characterization for human consumption aptitude in Uruguay

Author

Giuliana Vera, Federico Condón Priano, and Daniel Vázquez

Subjects

Soybean, Soy foods, Genotypes of Uruguay, Soybean protein, Soybean carbohydrates, Soybean composition, Genotype variability, Environmental variability, Nutrition. Foods and food supply, TX341-641

Abstract

Abstract Soybean (Glycine max (L.) Merrill) is a crop of world economic importance; and its grain constitutes a significant source of protein and carbohydrates for human consumption. This work aimed to characterize soybean genotypes available in Uruguay for human consumption regarding protein quantity and quality, carbohydrate composition and oil content in relation to yield, both in genetically modified and conventional genotypes. In this study, 13 genotypes grown in three different environments (two locations, two years), a conventional set (22 genotypes) and a genetically modified set (36 genotypes), grown in a single environment were subject to study. The traits measured were yield, total protein, oil content, soluble protein, glycinin (11S), conglycinin (7S), the 11S/7S ratio, soluble carbohydrates, sucrose and total raffinose family oligosaccharides (RFOs). A significant environmental and genotype effect was detected for most of the parameters. The interaction between genotype and environment was significant for total protein, oil content and sucrose. Soluble protein and the 11S fraction were only affected by environment; soluble carbohydrates and the 7S fraction were only affected by genotype. It was possible to identify genotypes with good characteristics for human consumption (high total protein, sucrose, ratio 11S/7S and low oligosaccharides) across environments, both genetically modified and conventional genotypes. Variability was found among the genotypes available in Uruguay in the parameters studied.

Published

2024

20. The Interactions of Soy Protein and Wheat Gluten for the Development of Meat-like Fibrous Structure.

Author

Peng, Yu, Zhao, Dandan, Li, Mo, Wen, Xin, and Ni, Yuanying

Subjects

*GLUTELINS, *WHEAT proteins, *GLUTEN, *MEAT alternatives, *PROTEIN-protein interactions, *SOY proteins, *MEAT texture

Abstract

Consumers who are environmentally and health conscious are increasingly looking for plant-based alternatives to replace animal-based products in their daily diets. Among these alternatives, there is a growing demand for meat analogues that closely resemble the taste and texture of meat. As a result, significant efforts have been dedicated to developing meat analogues with a desirable meat-like structure. Currently, soy protein and wheat gluten are the main ingredients used for producing these meat analogues due to their availability and unique functionalities. This study observed that high moisture extrusion at moisture levels of 50–80% has become a common approach for creating fibrous structures, with soy protein and wheat gluten being considered incompatible proteins. After the structuring process, they form two-phase filled gels, with wheat gluten acting as the continuous phase and soy protein serving as a filler material. Moreover, the formation of soy protein and wheat gluten networks relies on a combination of covalent and non-covalent interaction bonds, including hydrogen bonds that stabilize the protein networks, hydrophobic interactions governing protein chain associations during thermo-mechanical processes, and disulfide bonds that potentially contribute to fibrous structure formation. This review provides case studies and examples that demonstrate how specific processing conditions can improve the overall structure, aiming to serve as a valuable reference for further research and the advancement of fibrous structures. [ABSTRACT FROM AUTHOR]

Published

2023

21. QTLs and Candidate Genes for Seed Protein Content in Two Recombinant Inbred Line Populations of Soybean.

Author

Park, Hye Rang, Seo, Jeong Hyun, Kang, Beom Kyu, Kim, Jun Hoi, Heo, Su Vin, Choi, Man Soo, Ko, Jee Yeon, and Kim, Choon Song

Subjects

SEED proteins, LOCUS (Genetics), SOY proteins, SUCROSE, SOYBEAN, SINGLE nucleotide polymorphisms, GENES

Abstract

This study aimed to discover the quantitative trait loci (QTL) associated with a high seed protein content in soybean and unravel the potential candidate genes. We developed two recombinant inbred line populations: YS and SI, by crossing Saedanbaek (high protein) with YS2035-B-91-1-B-1 (low protein) and Saedanbaek with Ilmi (low protein), respectively, and evaluated the protein content for three consecutive years. Using single-nucleotide polymorphism (SNP)-marker-based linkage maps, four QTLs were located on chromosomes 15, 18, and 20 with high logarithm of odds values (5.9–55.0), contributing 5.5–66.0% phenotypic variance. In all three experimental years, qPSD20-1 and qPSD20-2 were stable and identified in overlapping positions in the YS and SI populations, respectively. Additionally, novel QTLs were identified on chromosomes 15 and 18. Considering the allelic sequence variation between parental lines, 28 annotated genes related to soybean seed protein—including starch, lipid, and fatty acid biosynthesis-related genes—were identified within the QTL regions. These genes could potentially affect protein accumulation during seed development, as well as sucrose and oil metabolism. Overall, this study offers insights into the genetic mechanisms underlying a high soybean protein content. The identified potential candidate genes can aid marker-assisted selection for developing soybean lines with an increased protein content. [ABSTRACT FROM AUTHOR]

Published

2023

22. Overexpressing GmCGS2 Improves Total Amino Acid and Protein Content in Soybean Seed.

Author

Zhang, Yuchen, Wang, Qingyu, Liu, Yajing, Dong, Shuo, Zhang, Yongqiang, Zhu, Youcheng, Tian, Yu, Li, Jingwen, Wang, Zhuoyi, Wang, Ying, and Yan, Fan

Subjects

*SOY proteins, *AMINO acids, *TRANSGENIC seeds, *GENETIC overexpression, *PLANT proteins, *SOYBEAN

Abstract

Soybean (Glycine max (L.) Merr.) is an important source of plant protein, the nutritional quality of which is considerably affected by the content of the sulfur-containing amino acid, methionine (Met). To improve the quality of soybean protein and increase the Met content in seeds, soybean cystathionine γ-synthase 2 (GmCGS2), the first unique enzyme in Met biosynthesis, was overexpressed in the soybean cultivar "Jack", producing three transgenic lines (OE3, OE4, and OE10). We detected a considerable increase in the content of free Met and other free amino acids in the developing seeds of the three transgenic lines at the 15th and 75th days after flowering (15D and 75D). In addition, transcriptome analysis showed that the expression of genes related to Met biosynthesis from the aspartate-family pathway and S-methyl Met cycle was promoted in developing green seeds of OE10. Ultimately, the accumulation of total amino acids and soluble proteins in transgenic mature seeds was promoted. Altogether, these results indicated that GmCGS2 plays an important role in Met biosynthesis, by providing a basis for improving the nutritional quality of soybean seeds. [ABSTRACT FROM AUTHOR]

Published

2023

23. Research Progress on Flavor Formation in Soy Protein-Based Meat Analogs

Author

Zhu Xiuqing, ZHANG Binyang, SUN Bingyu, GAO Yuan

Subjects

soybean protein, meat analogs, flavor substances, flavor combination, Food processing and manufacture, TP368-456

Abstract

Plant-based meat products are new bionic foods for which industrial standards were formulated recently, and have tended to replace meat products in taste and flavor. The most common plant-based meat product is the one produced from soybean protein by the use of processing technologies such as extrusion, which has a meaty mouthfeel and flavor. Mouthfeel and flavor are important factors determining whether meat analogs can be accepted by consumers, and flavor is one of the first signals received by consumers. The market prospect of meat analogs is determined by whether the flavor is accepted by consumers. This paper introduces the flavor sources of soybean protein-based meat analogs, summarizes the effects of different processing factors on the flavor substances of soybean protein-based meat analogs, and discusses the retention mechanism of the flavor substances of soybean protein-based meat analogs, which will provide a basis for the research and development of the flavor of soybean protein-based meat analogs.

Published

2023

24. Effects of Catechins on Structural, Functional and in Vitro Digestion Characteristics of Soybean Protein Isolate under Spray Drying

Author

Changbo SHI, Xinmeng SUN, Juyang ZHAO, Huiping YUAN, and Changmou LIANG

Subjects

heat treatment, spray drying, catechin, soybean protein, structure, functional characteristics, Food processing and manufacture, TP368-456

Abstract

After the commercial soybean protein isolate (SPI) treated by high-temperature spray drying, the proteins were prone to undergo a certain degree of denaturation and aggregation, which reducing the solubility and other functional properties. The present study was aimed to investigate the interaction between different concentrations of catechins and SPI under spray drying treatment and the effects on the structural and functional properties of proteins. The results showed that the loading rate and loading content of catechin increased gradually with the increasing of catechin content, and the surface hydrophobicity and sulfhydryl content decreased gradually after the combination of SPI and catechin. The functional characteristics of spray drying SPI were improved after interacted with catechin. When the addition of catechin was 1%, the solubility of SPI was increased by 36.4%, and the emulsifying property and emulsifying stability were increased by 13.7% and 14.3% respectively. The hardness of gel was increased by 43.6% with the addition of 0.25% catechin. Correlation analysis showed that the network structure of gel mainly depended on disulfide bonds, followed by hydrogen bonds and ionic bonds. Furthermore, the storage modulus of gel rheological properties was significantly higher than that of other treatment groups (P < 0.05). It was found by atomic force microscope that the microstructure of the gel changed to homogeneous and dense in each group of proteins with the complexation of catechin. The addition of catechin at 0.25% could promoted minimal aggregation of gel when compared to the other samples. However, the interaction between catechin and protein led to the decrement of the digestibility of spray dried SPI. These results showed that catechin prevented the heat-induced aggregation and improved the structural and functional properties of SPI after spray drying.

Published

2023

25. 我国大豆蛋白加工产业现状及发展趋势Current situation and development trend of Chinese soybean protein processing industry

Author

林凤岩1，黄永娜1，褚洪俊1，王文昕1，宋宇2，薛亚南1，郑峰1，李庚1 LIN Fengyan1,HUANG Yongna1, CHU Hongjun1, WANG Wenxin1, SONG Yu2, XUE Yanan1, ZHENG Feng1, LI Geng

Subjects

大豆蛋白；加工产业链；产品结构；发展趋势, soybean protein, processing industrial chain, product structure, development trend, Oils, fats, and waxes, TP670-699

Abstract

随着人民日益增长的美好生活需要和科学技术的快速发展，我国食品行业，尤其是大豆蛋白加工产业的发展登上了新的台阶。为更好地引导大豆蛋白加工产业的健康可持续发展，对大豆蛋白加工产业的现状及发展趋势进行综述。从原料、产业链、加工企业及市场需求等4个方面，介绍了我国大豆蛋白原料供需、加工企业规模、产品结构等方面情况，分析了大豆蛋白产业亟须解决的问题及发展趋势。国产非转基因大豆在大豆蛋白加工产业中存在竞争优势，提高我国非转基因大豆的自给能力，研发高附加值的大豆蛋白产品，有利于形成与进口大豆错位竞争、相互补充的格局，从而促进我国大豆蛋白产业长期高质量发展。With the increasing needs of the Chinese people for a better life and the rapid development of science and technology, the development of Chinese food industry, especially the soybean protein processing industry, has reached a new level. In order to better guide the healthy and sustainable development of the soybean protein processing industry, the current situation and development trend of the soybean protein processing industry were reviewed. The supply and demand of soybean protein raw materials, the scale of processing enterprises, and product structure in China were introduced from four aspects: raw materials, industrial chain, processing enterprises, and market demand. The development trend, and urgent difficulties that need to be solved of the soybean protein industry were analyzed. The domestic non-transgenic soybeans has competitive advantages in the soybean protein processing industry. Improving the self-sufficiency of non-transgenic soybean in China and developing high value-added soybean protein products are conducive to form a pattern of dislocation competition and mutual supplementation with imported soybeans, so as to promote the long-term high-quality development of Chinese soybean protein industry.

Published

2023

26. Chickpea and soybean protein delivery systems for oral ingestion of hydroxycitric acid

Author

I. Farrah Shakoor, Geethi K. Pamunuwa, and D. Nedra Karunaratne

Subjects

Bioaccessibility, Chickpea protein, Encapsulation, Hydroxycitric acid, In vitro release kinetics, Soybean protein, Food processing and manufacture, TP368-456

Abstract

The plant derived product, hydroxycitric acid (HCA), extracted from the rind of Garcinia cambogia is a promising weight loss agent. Since HCA irritates the stomach and undergoes gastrointestinal degradation, encapsulation was carried out using two protein matrices, chickpea and soybean, towards fabricating vehicles for oral delivery of HCA. Encapsulated particles of both proteins displayed high encapsulation efficiency and loading capacity of HCA and were spherical with micron to submicron range sizes. The particles displayed steric stability or incipient instability in solution. Storage stability studies revealed that HCA shows photosensitivity and thermal sensitivity, and therefore, dark and refrigerated conditions are suggested for the improvement of stability of HCA on storage. Chickpea protein facilitated photo-stability while soybean protein facilitated storage-stability of HCA. At pH 2 and pH 6.8, release profiles of HCA from chickpea protein and soybean protein particles fitted best to the Higuchi model displaying mainly a diffusional release mechanism with a less Fickian behaviour. At the intestinal pH, the bioaccessibility of HCA from chickpea protein matrix was higher (52%) compared to that from soybean protein matrix (35%). Results indicate that chickpea protein is a promising matrix for encapsulation of HCA for safe, efficacious and controlled oral delivery of HCA.

Published

2023

27. Application of SVR-Mediated GWAS for Identification of Durable Genetic Regions Associated with Soybean Seed Quality Traits.

Author

Yoosefzadeh-Najafabadi, Mohsen, Torabi, Sepideh, Tulpan, Dan, Rajcan, Istvan, and Eskandari, Milad

Subjects

SOYBEAN, SEED quality, GENOME-wide association studies, PLANT breeding, LOCUS (Genetics), SEED proteins

Abstract

Soybean (Glycine max L.) is an important food-grade strategic crop worldwide because of its high seed protein and oil contents. Due to the negative correlation between seed protein and oil percentage, there is a dire need to detect reliable quantitative trait loci (QTL) underlying these traits in order to be used in marker-assisted selection (MAS) programs. Genome-wide association study (GWAS) is one of the most common genetic approaches that is regularly used for detecting QTL associated with quantitative traits. However, the current approaches are mainly focused on estimating the main effects of QTL, and, therefore, a substantial statistical improvement in GWAS is required to detect associated QTL considering their interactions with other QTL as well. This study aimed to compare the support vector regression (SVR) algorithm as a common machine learning method to fixed and random model circulating probability unification (FarmCPU), a common conventional GWAS method in detecting relevant QTL associated with soybean seed quality traits such as protein, oil, and 100-seed weight using 227 soybean genotypes. The results showed a significant negative correlation between soybean seed protein and oil concentrations, with heritability values of 0.69 and 0.67, respectively. In addition, SVR-mediated GWAS was able to identify more relevant QTL underlying the target traits than the FarmCPU method. Our findings demonstrate the potential use of machine learning algorithms in GWAS to detect durable QTL associated with soybean seed quality traits suitable for genomic-based breeding approaches. This study provides new insights into improving the accuracy and efficiency of GWAS and highlights the significance of using advanced computational methods in crop breeding research. [ABSTRACT FROM AUTHOR]

Published

2023

28. Soybean protein and soybean peptides: Biological activity, processing technology, and application prospects.

Author

Tianyu ZHANG, Wenhui LI, He LI, and Xinqi LIU

Subjects

PEPTIDES, SOYBEAN products, SOYBEAN industry, SOY proteins, PRODUCT safety, SOY flour, SOYBEAN

Abstract

Soybean, a staple crop, is a source of high-quality protein and, thus, has broad prospects in the food industry and other fields. This review first introduces common soybean protein products and then elaborates on the safety and biological activity of soybean protein. In addition, excellent processing characteristics are introduced and an example of the comprehensive utilization of soy protein is given. Soybean peptides are an essential extension product in the soybean processing chain. Hence, this paper also introduces soybean peptides' biological activity. Moreover, traditional, and novel techniques for processing soybean protein isolate and peptides are compared in terms of their advantages and characteristics, and new ideas are proposed for their green production on an industrial scale. It is hoped that the analysis and innovative concepts proposed in this work will promote the healthy development of the soybean protein industry chain. [ABSTRACT FROM AUTHOR]

Published

2023

29. Preparation and Characterization of Soybean Protein Adhesives Modified with an Environmental-Friendly Tannin-Based Resin.

Author

Li, Hanyin, Wang, Yujie, Xie, Wenwen, Tang, Yang, Yang, Fan, Gong, Chenrui, Wang, Chao, Li, Xiaona, and Li, Cheng

Subjects

*SOY proteins, *ADHESIVES, *BOND strengths, *THERMAL stability, *FUNCTIONAL groups

Abstract

Soybean protein-based adhesives are limited in their application due to their poor wet bonding strength and poor water resistance. Herein, we prepared a novel, environmentally friendly soybean protein-based adhesive by adding tannin-based resin (TR) to improve the performance of water resistance and wet bonding strength. The active sites of TR reacted with the soybean protein and its functional groups and formed strong cross-linked network structures, which improved the cross-link density of the adhesives and then improved the water resistance. The residual rate increased to 81.06% when 20 wt%TR was added, and the water resistance bonding strength reached 1.07 MPa, which fully met the Chinese national requirements for plywood (Class II, ≥0.7 MPa). SEM observations were performed on the fracture surfaces of all modified SPI adhesives after curing. The modified adhesive has a denser and smooth cross-section. Based on the TG and DTG plots, the thermal stability performance of the TR-modified SPI adhesive was improved when TR was added. The total weight loss of the adhesive decreased from 65.13% to 58.87%. This study provides a method for preparing low-cost and high-performance, environmentally friendly adhesives. [ABSTRACT FROM AUTHOR]

Published

2023

30. 大豆蛋白素肉风味影响研究进展.

Author

朱秀清, 张宾洋, 孙冰玉, and 高 远

Subjects

FLAVOR, SOY proteins, MEAT, EXTRUSION process, MEAT markets, SOYBEAN

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

31. Control of Beany Flavor from Soybean Protein Raw Material in Plant-Based Meat Analog Processing.

Author

Yang, Lingyu, Zhang, Tianyu, Li, He, Chen, Tianpeng, and Liu, Xinqi

Subjects

SOY proteins, FLAVOR, RAW materials, EXTRUSION process, FOOD quality, MEAT industry

Abstract

The development of plant-based meat analogs is currently hindered by the beany flavor generated by raw soybean protein and extrusion processing. Wide concern has led to extensive research on the generation and control of this unwanted flavor, as an understanding of its formation in raw protein and extrusion processing and methods through which to control its retention and release are of great significance for obtaining ideal flavor and maximizing food quality. This study examines the formation of beany flavor during extrusion processing as well as the influence of interaction between soybean protein and beany flavor compounds on the retention and release of the undesirable flavor. This paper discusses ways to maximize control over the formation of beany flavor during the drying and storage of raw materials and methods to reduce beany flavor in products by adjusting extrusion parameters. The degree of interaction between soybean protein and beany compounds was found to be dependent on conditions such as heat treatment and ultrasonic treatment. Finally, future research directions are proposed and prospected. This paper thus provides a reference for the control of beany flavor during the processing, storage, and extrusion of soybean raw materials used in the fast-growing plant-based meat analog industry. [ABSTRACT FROM AUTHOR]

Published

2023

32. Impact of Cavitation Jet on the Structural, Emulsifying Features and Interfacial Features of Soluble Soybean Protein Oxidized Aggregates.

Author

Guo, Yanan, Liu, Caihua, Wang, Yichang, Ren, Shuanghe, Zheng, Xueting, Zhang, Jiayu, Cheng, Tianfu, Guo, Zengwang, and Wang, Zhongjiang

Subjects

SOY proteins, CAVITATION, INTERFACIAL tension, MOLECULAR weights, MOLECULAR size, SOYBEAN

Abstract

A cavitation jet can enhance food proteins' functionalities by regulating solvable oxidized soybean protein accumulates (SOSPI). We investigated the impacts of cavitation jet treatment on the emulsifying, structural and interfacial features of soluble soybean protein oxidation accumulate. Findings have shown that radicals in an oxidative environment not only induce proteins to form insoluble oxidative aggregates with a large particle size and high molecular weight, but also attack the protein side chains to form soluble small molecular weight protein aggregates. Emulsion prepared by SOSPI shows worse interface properties than OSPI. A cavitation jet at a short treating time (<6 min) has been shown to break the core aggregation skeleton of soybean protein insoluble aggregates, and insoluble aggregates into soluble aggregates resulting in an increase of emulsion activity (EAI) and constancy (ESI), and a decrease of interfacial tension from 25.15 to 20.19 mN/m. However, a cavitation jet at a long treating time (>6 min) would cause soluble oxidized aggregates to reaggregate through an anti-parallel intermolecular β-sheet, which resulted in lower EAI and ESI, and a higher interfacial tension (22.44 mN/m). The results showed that suitable cavitation jet treatment could adjust the structural and functional features of SOSPI by targeted regulated transformation between the soluble and insoluble components. [ABSTRACT FROM AUTHOR]

Published

2023

33. Co-Delivery System of Vitamin B12 and Vitamin E Using a Binary W/O/W Emulsion Based on Soybean Isolate Protein–Xanthan Gum/Carrageenan: Emulsification Properties, Rheological Properties, Structure, Stability, and Digestive Characteristics

Author

Tian Gao, Xixi Wu, Yiting Gao, Fei Teng, and Yang Li

Subjects

soybean protein, polysaccharide, co-delivery, W/O/W emulsion, digestive characteristics, Chemical technology, TP1-1185

Abstract

In this study, the soybean protein isolate (SPI)–xanthan gum (XG) or carrageenan (CA) W/O/W emulsions for the co-delivery of vitamin B12 and vitamin E were prepared. The effects of XG and CA concentrations on the physicochemical properties and digestive characteristics of the emulsions were also investigated. The addition of XG and CA improved the SPI aggregation and increased its electrostatic repulsion so that more SPI was adsorbed at the phase interface. The emulsifying activity index and emulsifying stability index increased to 24.09 (XG 0.4%) and 14.00 (CA 0.5%) and 151.08 (XG 0.4%) and 135.34 (CA 0.5%), respectively. The adsorbed protein content increased to 88.90% (XG 0.4%) and 88.23% (CA 0.5%), respectively. Moreover, the encapsulation efficiencies of vitamin B12 and vitamin E were increased to 86.72% (XG 0.4%) and 86.47 (CA 0.5%) and 86.31% (XG 0.4%) and 85.78% (CA 0.5%), respectively. The bioaccessibility of vitamin B12 and vitamin E increased to 73.53% (XG 0.4%) and 71.32% (CA 0.5%) and 68.86% (XG 0.4%) and 68.74% (CA 0.5%). The best properties of the emulsions were obtained at a 0.4% concentration of XG and 0.5% of CA. This study offers a novel system for delivering bioactive substances, which is favorable for the advancement of food with delivery capability in food processing.

Published

2023

34. In-House Extracted Soybean Protein Can Reduce the Enzyme Dosage in Biomass Saccharification.

Author

Simões, Igor R., Brondi, Mariana G., and Farinas, Cristiane S.

Subjects

SOY proteins, BIOMASS, LIGNOCELLULOSE, ENZYMES, CELLULASE, BIOMASS conversion, BAGASSE

Abstract

Bioconversion of the complex carbohydrates present in lignocellulosic biomass into simple sugars, in order to obtain biofuels and bio-based products, is still limited by the low performance of the enzymatic saccharification reaction and the high cost of cellulolytic enzymes. Low-cost additives such as soybean protein can reduce the unproductive adsorption of cellulases onto lignin, increasing conversion rates and reducing enzyme losses. Here, investigation was made of the effects of different soybean protein fractions, extracted in-house, on the enzymatic saccharification of hydrothermally pretreated sugarcane bagasse. The glucose released during biomass saccharification increased by up to 76% in the presence of the in-house extracted soybean protein, compared to the control (without additive). A remarkable finding was that the technique allowed the enzyme loading to be decreased four-fold. The results suggested that the alkali-extracted proteins presented high surface hydrophobicity, which enhanced their interaction with lignin and reduced the unproductive binding of cellulases. Among the main soybean protein fractions, glycinin had the best effect in improving saccharification, which could have been due to its higher hydrophobicity. Hence, in-house extracted soybean proteins seem to be interesting alternative additives capable of increasing the lignocellulosic biomass conversion efficiency in future biorefineries. [ABSTRACT FROM AUTHOR]

Published

2023

35. Effect of cavitation jet on the structural, emulsifying properties and rheological properties of soybean protein‐oxidised aggregates.

Author

Guo, Yanan, Li, Bailiang, Cheng, Tianfu, Hu, Zhaodong, Liu, Shuangqi, Liu, Jun, Sun, Fuwei, Guo, Zengwang, and Wang, Zhongjiang

Subjects

*RHEOLOGY, *CAVITATION, *MOLECULAR weights, *MOLECULAR size, *SOYBEAN, *FLOUR

Abstract

Summary: The objective of this study was to investigate the effects of cavitation jets on the structural, emulsifying and rheological properties of soybean protein oxidation aggregates. The results showed that oxidation might induce the formation of larger particle sizes and molecular weight protein aggregates and the decrease of emulsifying properties. The cavitation jet at a short treatment time (<6 min) broke down the disulphide bonds and protein skeleton structures, which reduced the aggregate sizes and molecular weights and increased the emulsion activities, emulsion stabilities, apparent viscosity and elastic modulus. The cavitation jet at a long treatment time (>6 min) supported disulphide bond formation among molecules by intermolecular interactions to form protein aggregates. In addition, the skeleton structure showed cross‐linking aggregation. This increased the particle sizes and molecular weights and reduced the emulsion properties, consistency index K and elastic modulus. The findings showed that a cavitation jet at 6 min on oxidised aggregates of soybean protein might enhance the structural, emulsifying and rheological characteristics for the industry. [ABSTRACT FROM AUTHOR]

Published

2023

36. High-moisture extrusion cooking on soybean-wheat protein mixtures: Effect of sodium alginate/xanthan gum/maltodextrin on promoting a fibrous structure

Author

Fengqiujie Wang, Yang Gao, Xuelian Gu, Binyu Luan, Ying Zhu, Yuyang Huang, and Xiuqing Zhu

Subjects

high-moisture extrusion cooking, soybean protein, wheat protein, polysaccharide, dead-stop operation, Nutrition. Foods and food supply, TX341-641

Abstract

At present, the changes in fibrous structure of plant proteins improved by polysaccharides during high-moisture extrusion cooking (HMEC) are still unclear. In this study, different additions (1, 2, 3, 4, and 5%) of sodium alginate (SA), xanthan gum (XG), and maltodextrin (MD) were used in the preparation of organised protein products based on soybean protein and wheat protein under high moisture extrusion conditions. It was revealed that SA-4%, XG-2%, and MD-2% (w/w) significantly enhanced the structural and physical properties of the fibres. The polysaccharides increased the water distribution of extrudates by enhancing protein-water interactions through hydrogen bonding, with MD-2% having the strongest ability to trap free water. The mechanism by which the polysaccharides improved the fibrous structure of extrudates involved the reorganization of molten proteins from the die head region to the cooling region, formation of new molecular bonds and enhancement of thermal stability. XG-2% significantly increased the β-sheet structure in the molten region (48.9 ± 1.35%) and showed the best thermal stability. Overall, SA-4% was able to better maintain the molecular bonding transformation and strong water absorption, which stabilised the protein conformation and formed the highest fibrous degree (2.1 ± 0.03). This suggests that the properties of the three polysaccharides can be used as modifiers of high water extruded plant proteins to improve the extruded materiality, functional and nutritional properties.

Published

2023

37. QTLs and Candidate Genes for Seed Protein Content in Two Recombinant Inbred Line Populations of Soybean

Author

Hye Rang Park, Jeong Hyun Seo, Beom Kyu Kang, Jun Hoi Kim, Su Vin Heo, Man Soo Choi, Jee Yeon Ko, and Choon Song Kim

Subjects

quantitative trait loci, soybean protein, high protein, genetic map, single-nucleotide polymorphism, Botany, QK1-989

Abstract

This study aimed to discover the quantitative trait loci (QTL) associated with a high seed protein content in soybean and unravel the potential candidate genes. We developed two recombinant inbred line populations: YS and SI, by crossing Saedanbaek (high protein) with YS2035-B-91-1-B-1 (low protein) and Saedanbaek with Ilmi (low protein), respectively, and evaluated the protein content for three consecutive years. Using single-nucleotide polymorphism (SNP)-marker-based linkage maps, four QTLs were located on chromosomes 15, 18, and 20 with high logarithm of odds values (5.9–55.0), contributing 5.5–66.0% phenotypic variance. In all three experimental years, qPSD20-1 and qPSD20-2 were stable and identified in overlapping positions in the YS and SI populations, respectively. Additionally, novel QTLs were identified on chromosomes 15 and 18. Considering the allelic sequence variation between parental lines, 28 annotated genes related to soybean seed protein—including starch, lipid, and fatty acid biosynthesis-related genes—were identified within the QTL regions. These genes could potentially affect protein accumulation during seed development, as well as sucrose and oil metabolism. Overall, this study offers insights into the genetic mechanisms underlying a high soybean protein content. The identified potential candidate genes can aid marker-assisted selection for developing soybean lines with an increased protein content.

Published

2023

38. Physicochemical Antioxidative and Emulsifying Properties of Soybean Protein Hydrolysates Obtained with Dissimilar Hybrid Nanoflowers.

Author

Li, Geng, Xu, Jingwen, Wang, Huiwen, Jiang, Lianzhou, Wang, Huan, Zhang, Yan, Jin, Hua, Fan, Zhijun, Xu, Jing, and Zhao, Qingshan

Subjects

SOY proteins, PROTEIN hydrolysates, TRANSMISSION electron microscopes, FOOD emulsifiers, INFRARED spectroscopy

Abstract

This study investigated the changes in the structure and properties of soybean protein after hydrolysis using two types of hybrid nanoflowers (alcalase@Cu3(PO4)2•3H2O (ACHNs) and dispase@Cu3(PO4)2•3H2O (DCHNs)) and examined the basic properties and oxidative stability of hydrolyzed soybean protein emulsions. The formations of the two hybrid nanoflowers were first determined using a scanning electron microscope, transmission electron microscope, and Fourier infrared spectroscopy. The structure and functional properties of soybean protein treated with hybrid nanoflowers were then characterized. The results indicated that the degree of hydrolysis (DH) of the ACHNs hydrolysates was higher than that of the DCHNs for an identical reaction time. Soybean protein hydrolysates treated with two hybrid nanoflowers showed different fluorescence and circular dichroism spectra. The solubility of the hydrolysates was significantly higher (p < 0.05) than that of the soybean protein (SPI) at all pH values tested (2.0–10.0)*: at the same pH value, the maximum solubility of ACHNs hydrolysates and DCHNs hydrolysates was increased by 46.2% and 42.2%, respectively. In addition, the ACHNs hydrolysates showed the highest antioxidant activity (DPPH IC50 = 0.553 ± 0.009 mg/mL, ABTS IC50 = 0.219 ± 0.019 mg/mL, and Fe2+ chelating activity IC50 = 40.947 ± 3.685 μg/mL). The emulsifying activity index of ACHNs and DCHNs hydrolysates reached its maximum after hydrolysis for 120 min at 61.38 ± 0.025 m2/g and 54.73 ± 0.75 m2/g, respectively. It was concluded that the two hydrolysates have better solubility and antioxidant properties, which provides a theoretical basis for SPI product development. More importantly, the basic properties and oxidative stability of the soybean-protein-hydrolysates oil-in-water emulsions were improved. These results show the importance of proteins hydrolyzed by hybrid nanoflowers as emulsifiers and antioxidants in the food and pharmaceutical industry. [ABSTRACT FROM AUTHOR]

Published

2022

39. 水热参数组合对大豆蛋白-鱼糜共混高水分挤压 过程及产品品质的影响.

Author

张玉洁, 张金闯, 陈琼玲, 刘浩栋, 何 宁, and 王 强

Subjects

PLANT proteins, SOY proteins, MEAT alternatives, EXTRUSION process, ANIMAL products

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

40. The Effect of Soybean Peptides on Improving Quality and the ACE Inhibitory Bioactivity of Extruded Rice.

Author

Hou, Shuangdi, Zhao, Jiafeng, Zu, Yuan, Zheng, Jiaxuan, Wang, Chunyu, and Liu, Xia

Subjects

SOY proteins, PEPTIDES, ANGIOTENSIN converting enzyme, RICE flour, RICE, ANGIOTENSIN I, SOYBEAN, HYPERTENSION

Abstract

It is crucial to address the dietary problems of hypertensive patients. The effect and mechanism of different contents of soybean protein on cooking quality and angiotensin-converting enzyme (ACE) inhibitory action in the extruded rice were firstly investigated. The results showed that the extruded rice with soybean protein possessed the higher taste value (90.32 ± 2.31), hardness (2.65 ± 0.01 g), and good pasting quality (p ≤ 0.05). Meanwhile, the soybean protein notably retarded the starch digestibility; the sample with 6% soybean protein showed the fewest rapidly digestible starch (RDS) content (78.82 ± 0.01 mg g−1) and the most slowly digestible starch (SDS) content (8.97 ± 0.45 mg g−1). Importantly, the ACE inhibition rate improved from 17.09 ± 0.01% to 74.02 ± 0.65% in the 6% soybean protein sample because of the production of peptides. The peptide composition of samples were compared, which showed that the effective ACE-inhibitory peptides usually contain 2~20 amino acids, and Pro, Leu, Ile, Val, Phe, and Ala were the main components. Overall, moderate soybean protein would give a good quality and lower ACE activity in extruded food. [ABSTRACT FROM AUTHOR]

Published

2022

41. Application of SVR-Mediated GWAS for Identification of Durable Genetic Regions Associated with Soybean Seed Quality Traits

Author

Mohsen Yoosefzadeh-Najafabadi, Sepideh Torabi, Dan Tulpan, Istvan Rajcan, and Milad Eskandari

Subjects

data-driven, FarmCPU, genome-wide association study, soybean oil, soybean protein, support vector regression, Botany, QK1-989

Abstract

Soybean (Glycine max L.) is an important food-grade strategic crop worldwide because of its high seed protein and oil contents. Due to the negative correlation between seed protein and oil percentage, there is a dire need to detect reliable quantitative trait loci (QTL) underlying these traits in order to be used in marker-assisted selection (MAS) programs. Genome-wide association study (GWAS) is one of the most common genetic approaches that is regularly used for detecting QTL associated with quantitative traits. However, the current approaches are mainly focused on estimating the main effects of QTL, and, therefore, a substantial statistical improvement in GWAS is required to detect associated QTL considering their interactions with other QTL as well. This study aimed to compare the support vector regression (SVR) algorithm as a common machine learning method to fixed and random model circulating probability unification (FarmCPU), a common conventional GWAS method in detecting relevant QTL associated with soybean seed quality traits such as protein, oil, and 100-seed weight using 227 soybean genotypes. The results showed a significant negative correlation between soybean seed protein and oil concentrations, with heritability values of 0.69 and 0.67, respectively. In addition, SVR-mediated GWAS was able to identify more relevant QTL underlying the target traits than the FarmCPU method. Our findings demonstrate the potential use of machine learning algorithms in GWAS to detect durable QTL associated with soybean seed quality traits suitable for genomic-based breeding approaches. This study provides new insights into improving the accuracy and efficiency of GWAS and highlights the significance of using advanced computational methods in crop breeding research.

Published

2023

42. Soybean okara: Effect of ultrasound on compositional and emulsifying properties.

Author

Moscoso Ospina, Yeisson A., Porfiri, María C., and Cabezas, Dario M.

Subjects

*ULTRASONIC imaging, *SOY proteins, *MACROMOLECULES, *FOOD emulsions, *POLYSACCHARIDES

Abstract

High‐intensity ultrasound is widely used to modify the functional properties of macromolecules (proteins, polysaccharides, etc.) and to expand their range of potential applications. This work is aimed at studying the effects of ultrasound treatments on the composition of different soybean okara samples and their potential as an emulsifying agent. Defatted solvent‐free soybean flour (DSF) was extracted by adjusting dispersion to pH 9.0. Insoluble residues obtained after centrifugation were dried, and an unsonicated okara sample (UOK) was obtained. Furthermore, the soybean flour dispersion was subjected to treatment in a probe‐type ultrasonic homogeniser before or after the alkaline extraction process, thus producing SOK and OKS samples, respectively. The sonication process generated compositional and structural changes in okara soybeans. SOK had higher yield and protein content than UOK and OKS due to the insolubilisation of the glycinin (11S) fraction of soybean storage proteins. Due to these characteristics, the SOK sample showed the best emulsifying activity. [ABSTRACT FROM AUTHOR]

Published

2022

43. Effects of ultrasound on the structural and emulsifying properties and interfacial properties of oxidized soybean protein aggregates

Author

Yichang Wang, Bailiang Li, Yanan Guo, Caihua Liu, Jun Liu, Bin Tan, Zengwang Guo, Zhongjiang Wang, and Lianzhou Jiang

Subjects

Soybean protein, Oxidized aggregates, Structure, Emulsifying properties, Interfacial properties, Ultrasonic treatment, Chemistry, QD1-999, Acoustics. Sound, QC221-246

Abstract

Oxidative attack leads to the oxidative aggregation and structural and functional feature weakening of soybean protein. We aimed to investigate the impact of ultrasonic treatment (UT) with different intensities on the structure, emulsifying features and interfacial features of oxidized soybean protein aggregates (OSPI). The results showed that oxidative treatment could disrupt the native soy protein (SPI) structure by promoting the formation of oxidized aggregates with β1-sheet structures through hydrophobic interactions. These changes led to a decrease in the solubility, emulsification ability and interfacial activity of soybean protein. After low-power ultrasound (100 W, 200 W) treatment, the relative contents of β1-sheets, β2-sheets, random coils, and disulfide bonds of the OSPI increased while the surface hydrophobicity, absolute ζ-potential value and free sulfhydryl content decreased. Moreover, protein aggregates with larger particle sizes and poor solubility were formed. The emulsions prepared using the OSPI showed bridging flocculation and decreased protein adsorption and interfacial tension. After applying medium-power ultrasound (300 W, 400 W, and 500 W) treatments, the OSPI solubility increased and particle size decreased. The α-helix and β-turn contents, surface hydrophobicity and absolute ζ-potential value increased, the structure unfolded, and the disulfide bond content decreased. These changes improved the emulsification activity and emulsion state of the OSPI and increased the protein adsorption capacity and interfacial tension of the emulsion. However, after a high-power ultrasound (600 W) treatment, the OSPI showed a tendency to reaggregate, which had a certain negative effect on the emulsification activity and interfacial activity. The results showed that UT at an appropriate power could depolymerize OSPI and improve the emulsification and interfacial activity of soybean protein.

Published

2022

44. Beneficial effects of substituting soybean meal for white lupin (Lupinus albus, cv. Zulika) meal on the biochemical blood parameters of laying hens

Author

Eva Straková, Lucie Všetičková, Martin Kutlvašr, Ivana Timová, and Pavel Suchý

Subjects

isa brown layers, lupin protein, soybean protein, plasma glucose, cholesterol, Animal culture, SF1-1100

Abstract

The experiment aimed to determine the effect of substituting 50% of soy protein for lupin protein in feed mixtures intended for the nutrition of high-yield Isa Brown laying hens, on selected biochemical blood plasma indicators. The trial was designed as a long-lasting feeding experiment (51 weeks) and involved a total of 180 hens divided in three experimental groups (control group C and experimental groups WLS and WDLS). At the end of the laying cycle, blood samples were taken from the hens by puncture of the vena basilica and subsequently, the required blood plasma indicators were analysed in the laboratory. The results demonstrated that the long-term feeding of white lupin (variety Zulika) did not affect the molar concentration of plasma inorganic phosphorus (P), magnesium (Mg), sodium (Na), potassium (K), chloride (Cl), uric acid (UAC) and the activity of alanine aminotransferase (AST). By contrast, the substitution of soy protein for lupin protein in the diets of the experimental groups of laying hens led to the statistically significant (p ≤ .05) decrease of total plasma protein (TP), total cholesterol (Chol), calcium (Ca) and triacylglycerides (TAG) and to an increase (p ≤ .05) of alkaline phosphatase activity (ALP).Highlights Replacement of soya protein with white lupin protein reduced cholesterol and triacylglycerides in blood plasma Feedstuff including white lupin protein did not affect negatively the health status of the layers

Published

2021

45. 蛋白种类对大豆皂苷-蛋白 W/O/W 型乳液 稳定性的影响.

Author

许杨杨, 朱力杰, 刘秀英, 李 赫, 刘 军, and 刘 贺

Subjects

SOY proteins, PROTEIN stability, INTERFACIAL tension, RHEOLOGY, EMULSIONS, CORN oil

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

46. Investigating Differential Expressed Genes of Limosilactobacillus reuteri LR08 Regulated by Soybean Protein and Peptides.

Author

Zhu, Shuya, Zhang, Yinxiao, Wang, Jingyi, Zhang, Chi, and Liu, Xinqi

Subjects

SOY proteins, PEPTIDES, ATP-binding cassette transporters, AMINO acids, GENE families

Abstract

Soybean protein and peptides have the potential to promote the growth of Lactobacillus, but the mechanisms involved are not well understood. The purpose of this study is to investigate differentially expressed genes (DEGs) of Limosilactobacillus reuteri (L. reuteri) LR08 responding to soybean protein and peptides using transcriptome. The results showed that both digested protein (dpro) and digested peptides (dpep) could enhance a purine biosynthesis pathway which could provide more nucleic acid and ATP for bacteria growth. Moreover, dpep could be used instead of dpro to promote the ABC transporters, especially the genes involved in the transportation of various amino acids. Interestingly, dpro and dpep played opposite roles in modulating DEGs from the acc and fab gene families which participate in fatty acid biosynthesis. These not only provide a new direction for developing nitrogen-sourced prebiotics in the food industry but could also help us to understand the fundamental mechanism of the effects of dpro and dpep on their growth and metabolisms and provides relevant evidence for further investigation. [ABSTRACT FROM AUTHOR]

Published

2022

47. A Comparison Study on the Therapeutic Effect of High Protein Diets Based on Pork Protein versus Soybean Protein on Obese Mice.

Author

Jiang, Songsong, Ji, Shanshan, Tang, Xinlei, Wang, Tao, Wang, Hengpeng, and Meng, Xiangren

Subjects

DIETARY proteins, LIPID metabolism, LDL cholesterol, WEIGHT loss, BLOOD lipids, TREATMENT effectiveness, FAT

Abstract

In this study, an obese C57BL/6J mice model was induced to compare the effect of different high protein diets (soybean protein and pork protein) on obesity. The obese mice were randomly divided into four groups: natural recovery (NR), high-fat diet (HF), high soybean protein diet (HSP), and high pork protein diet (HPP) groups. After 12 weeks of dietary intervention, the obesity-related indexes of mice were measured, such as body weight, fat coefficients, blood lipid indexes and so on. Results showed that HSP and HPP decreased the weight and fat coefficients of mice, the levels of serum total cholesterol (TC), low-density lipoprotein cholesterol (LDL-C) and leptin (p < 0.05). Soybean protein was shown to be more effective in reducing the weight and fat mass of obese mice, although pork protein seemed to have a better effect on regulating serum triglyceride (TG). In addition, the two high protein diets both alleviated hepatic fat deposition effectively. Furthermore, HPP and HSP decreased the expression of hepatic peroxisome proliferator-activated receptor-γ (PPAR-γ) and increased the protein expression of phosphorylated AMP-activated protein kinase (pAMPK), phosphorylated acetyl CoA carboxylase (pACC), and uncoupling protein 2 (UCP2) (p < 0.05). In conclusion, the study shows that high protein diets based on both pork protein and soybean protein alleviated abdominal obesity in mice effectively by regulating lipid metabolism, probably via the UCP2-AMPK-ACC signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2022

48. 常见大豆制品中蛋白质的体外消化特性.

Author

阳 倩, 冯广鑫, 冯炜婷, 李彦磊, and 杨晓泉

Subjects

SOYBEAN products, DIETARY proteins, PLANT proteins, MOLECULAR weights, SOY proteins, SOYMILK

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

49. Genome-Wide Association Study and Genomic Selection for Proteinogenic Methionine in Soybean Seeds.

Author

Singer, William M., Shea, Zachary, Yu, Dajun, Huang, Haibo, Mian, M. A. Rouf, Shang, Chao, Rosso, Maria L., Song, Qijan J., and Zhang, Bo

Subjects

GENOME-wide association studies, ESSENTIAL amino acids, METHIONINE, SOY proteins, HIGH performance liquid chromatography

Abstract

Soybean [ Glycine max (L.) Merr. ] seeds have an amino acid profile that provides excellent viability as a food and feed protein source. However, low concentrations of an essential amino acid, methionine, limit the nutritional utility of soybean protein. The objectives of this study were to identify genomic associations and evaluate the potential for genomic selection (GS) for methionine content in soybean seeds. We performed a genome-wide association study (GWAS) that utilized 311 soybean accessions from maturity groups IV and V grown in three locations in 2018 and 2019. A total of 35,570 single nucleotide polymorphisms (SNPs) were used to identify genomic associations with proteinogenic methionine content that was quantified by high-performance liquid chromatography (HPLC). Across four environments, 23 novel SNPs were identified as being associated with methionine content. The strongest associations were found on chromosomes 3 (ss715586112, ss715586120, ss715586126, ss715586203, and ss715586204), 8 (ss715599541 and ss715599547) and 16 (ss715625009). Several gene models were recognized within proximity to these SNPs, such as a leucine-rich repeat protein kinase and a serine/threonine protein kinase. Identification of these linked SNPs should help soybean breeders to improve protein quality in soybean seeds. GS was evaluated using k-fold cross validation within each environment with two SNP sets, the complete 35,570 set and a subset of 248 SNPs determined to be associated with methionine through GWAS. Average prediction accuracy (r 2) was highest using the SNP subset ranging from 0.45 to 0.62, which was a significant improvement from the complete set accuracy that ranged from 0.03 to 0.27. This indicated that GS utilizing a significant subset of SNPs may be a viable tool for soybean breeders seeking to improve methionine content. [ABSTRACT FROM AUTHOR]

Published

2022

50. Plasma Metabolite Profiles Following Consumption of Animal Protein and Soybean-Based Diet in Hypercholesterolemic Postmenopausal Women.

Author

Huang, Neil K., Matthan, Nirupa R., Matuszek, Gregory, and Lichtenstein, Alice H.

Subjects

DIETARY proteins, POSTMENOPAUSE, RECEIVER operating characteristic curves, FALSE discovery rate, SOY proteins, AMINO acid metabolism

Abstract

Subjective reporting of food intake can be unreliable. No objective method is available to distinguish between diets differing in protein type. To address this gap, a secondary analysis of a randomized controlled cross-over feeding trial was conducted. Assessed were fasting plasma metabolite profiles and their associations with cardiometabolic risk factors (CMRFs). Hypercholesterolemic post-menopausal women (N = 11) were provided with diets containing predominantly animal protein (AP) and soy protein (SP). Untargeted metabolomics were used to determine the plasma metabolite profiles at the end of each diet phase. Concentrations of identified metabolites (N = 829) were compared using paired t-tests adjusted for false discovery rate, partial least square-discrimination analysis (PLS-DA) and receiver operating characteristics (ROC). Among the identified metabolites, 58 differed significantly between the AP and SP diets; the majority were phospholipids (n = 36), then amino acids (n = 10), xenobiotics (n = 7), vitamin/vitamin-related (n = 3) and lipids (n = 2). Of the top 10 metabolites, amino acid-derived metabolites, phospholipids and xenobiotics comprised the main categories differing due to dietary protein type. ROC curves confirmed that the top 10 metabolites were potential discriminating biomarkers for AP- and SP-rich diets. In conclusion, amino acid-derived metabolites, phosphatidylethanolamine-derived metabolites and isoflavones were identified as potential metabolite biomarkers distinguishing between dietary protein type. [ABSTRACT FROM AUTHOR]

Published

2022