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Comparative evaluation of potential tyrosinase inhibitors as skin-whitening agents

Huang Shang su

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Tyrosinase is a key enzyme in melanin metabolism. Substances that inhibit tyrosinase activity can have potential whitening activity. In this paper, the inhibitory effects of N-acetylneuraminic acid (Neu5Ac), hyaluronic acid (HA), nicotinamide mononucleotide (NMN) and nicotinamide (NAM) on tyrosinase activity were compared with kojic acid (KA) as positive control, and the inhibitory effects on tyrosinase were analyzed by enzyme inhibition kinetics, spectroscopy and molecular docking. The results showed that all five substances could inhibit tyrosinase activity, among which Neu5Ac (IC50=2.16 mmol·L-1) was second only to KA (IC50=0.36 mmol·L-1). Neu5Ac ( IC50=2.73mmol·L-1) was also second only to KA (IC50=1.48 mmol·L-1). The enzyme inhibition kinetics showed that Neu5Ac was non-competitive inhibition, HA, NMN and NAM were mixed, and KA was competitive. UV, fluorescence, and infrared spectroscopy showed that the five substances changed the conformation of the enzyme by changing the microenvironment of the hydrophobic residues of tyrosinase, thereby inhibiting enzyme activity. Molecular docking showed that the five substances bound to the hydrophobic cavity of the enzyme through hydrogen bonds and hydrophobic interactions. In particular, Neu5Ac had the lowest docking binding energy (?7.1kcal·mol-1) and the best binding stability. In summary, in contrast, Neu5Ac has the potential to develop whitening products due to its strong tyrosinase inhibitory activity.
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Analysis of the Influence of Angelica sinensis from Different Regions on the Flavor of Chicken Soup Using Electronic Nose and GC-IMS Techniques

gao ping, zhou jian qin, xu pei, wen yu, zhang kai, tang ying ming

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Abstract: To investigate the influence of Angelica sinensis from different regions on the flavor of chicken soup, samples were prepared using A. sinensis sourced from Gansu, Sichuan, and Yunnan. The volatile compounds were analyzed and compared using Gas Chromatography-Ion Mobility Spectroscopy (GC-IMS) combined with an electronic nose. Principal component analysis (PCA) of the electronic nose data revealed a wide distribution distance among the different origins, indicating significant differences in flavor characteristics, ranked as Sichuan > Yunnan > Gansu. The electronic nose analysis confirmed that the samples from the three origins exhibited distinct differences. GC–IMS identified a total of 73 volatile compounds, including 27 aldehydes, 11 terpenes, 10 alcohols, 10 ketones, 8 esters, 2 acids, 3 heterocycles, and 2 benzenes, with aldehydes, terpenes, and alcohols accounting for 43.73%, 7.66%, and 5.29% of the relative content, respectively. Orthogonal partial least squares discriminant analysis (OPLS–DA), validated by permutation testing, was used to identify 15 key compounds based on variable importance in projection (VIP) values: 4 alcohols, 4 aldehydes, 3 ketones, 2 terpenes, 1 ester, and 1 heterocyclic compound. Overall, aldehydes were determined to be the key flavor compounds in chicken soup, contributing floral, herbal, fruity, and other characteristic aromas. This study provides a comprehensive analysis of the flavor compounds in A. sinensis from different origins, offering a theoretical basis and technical support for the development and application of medicinal chicken soups, and introducing new perspectives and methods for practical implementation.
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Research Advances in Biological Functions Mediated by Milk-Derived Bioactive Peptides through the Regulation of Intestinal Health

XIANG Xueqin, HAN Wang, 徐菁雯, 周津羽, 滕政蓉, 乌日娜

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Milk-derived bioactive peptides are small peptide fragments generated from milk proteins through enzymatic hydrolysis or fermentation, possessing specific physiological functions. Due to their high bioavailability and diverse biological activities, they exhibit great potential in promoting human health. This review summarizes the core biological functions of milk-derived bioactive peptides, with a primary focus on their mechanisms of action in modulating intestinal health. After being efficiently absorbed by the intestine via specific transport pathways, milk-derived bioactive peptides directly influence the gut microenvironment. On one hand, they regulate microbial balance by inhibiting pathogens and promoting the proliferation of beneficial bacteria, while also enhancing the intestinal physical barrier by upregulating the expression of tight junction proteins and maintaining mucosal integrity. On the other hand, they exert anti-inflammatory, antioxidant, and immunomodulatory effects at the cellular and molecular levels by precisely modulating key intracellular signaling pathways and strengthening antioxidant defenses. These multi-layered mechanisms collectively form a network through which milk-derived bioactive peptides influence systemic health with the gut as a central hub. Finally, this review provides a summary and outlook on the research and application prospects of milk-derived bioactive peptides, aiming to offer insights for elucidating their health-promoting mechanisms and supporting the advanced development of milk-derived bioactive peptides-related products.
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Anti-Fatigue Effect of Ready-To-Eat Red Ginseng Tablets on Caenorhabditis Elegans

su sheng nan

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To explore the anti-fatigue effect of ready-to-eat red ginseng tablets, the main active components of ready-to-eat red ginseng tablets were determined in this study. Then, using Caenorhabditis elegans as the model, indicators such as lifespan, locomotor ability, pharyngeal pumping rate, in vivo antioxidant capacity, and expression levels of anti-fatigue-related genes were measured to evaluate the anti-fatigue effects of ready-to-eat red ginseng tablets (JSHS), dried red ginseng decoction pieces (HSYP), and formula solution (ZFY).The results showed that the contents of total saponins and total polysaccharides in JSHS were higher than those in HSYP and ZFY. In the Caenorhabditis elegans experiment, compared with the blank group, JSHS and HSYP increased the average lifespan of Caenorhabditis elegans by 16.56% and 10.85%, respectively. The pharyngeal pumping rate of Caenorhabditis elegans was extremely significantly increased by 25.32% (P<0.0001) by JSHS. The stress resistance of Caenorhabditis elegans was significantly improved by JSHS (P<0.01), and the activities of catalase (CAT), superoxide dismutase (SOD), and glutathione peroxidase (GSH-Px) in Caenorhabditis elegans were all significantly increased (P<0.05), while the content of malondialdehyde (MDA) was significantly decreased (P<0.05) by JSHS. The expression level of the daf-2 gene was extremely significantly down-regulated, and the expression levels of the daf-16, sod-3, and skn-1 genes were extremely significantly up-regulated in Caenorhabditis elegans by JSHS (P<0.0001). In conclusion, the content of main active components in JSHS, which is processed by combining HSYP with ZFY, was significantly increased. Moreover, JSHS comprehensively enhanced the anti-fatigue ability of Caenorhabditis elegans by extending their lifespan, improving their locomotor ability and pharyngeal pumping rate, enhancing their stress resistance and in vivo antioxidant capacity, and regulating the expression of anti-fatigue-related genes. This study preliminarily indicates that ready-to-eat red ginseng tablets have anti-fatigue effects, providing a theoretical basis for the development and application of health food.
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The distribution characteristics of pyrolysis products from distiller's grains vary with temperature

Yang Wei

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The investigation into the effects of pyrolysis temperature on the composition and distribution characteristics of the three-phase products of distillery residue was conducted using gas chromatography (GC), gas chromatography-mass spectrometry (GC-MS), and Fourier transform infrared spectroscopy (FTIR) to analyze the composition and structure of the gas, liquid, and solid products. The formation of gases and bio-oil during the pyrolysis of distillery residue is closely related to components such as crude protein, cellulose, lignin, and crude fat. At low temperatures (≤500℃), the main reactions involve hemicellulose, crude protein, cellulose, and crude fat. At high temperatures (600~800℃), the main reaction is the decomposition of lignin to form gases and bio-oil. Increasing temperature promotes the generation of pyrolysis gas, with a gas yield of up to 54% at 800℃. The formation of combustible components such as CO, H2, and CH4 is favored by high temperatures, and the calorific value of the gas is increased. At 400℃, the acid and ester content in the bio-oil is 27.19% and 33.18%, respectively. Increasing the pyrolysis temperature reduces the ester content and increases the hydrocarbon content, reaching 44.44% at 800℃. The composition evolution of the bio-oil is closely related to the pyrolysis temperature, and the appropriate pyrolysis temperature should be selected based on specific applications. High-temperature pyrolysis promotes the decomposition of organic functional groups and enhances the graphitization and aromatization of the biochar. This indicates that biochar from distillery residue has potential in energy, environmental, catalytic, and agricultural applications as a replacement for traditional fossil-based materials. This study provides a theoretical basis for the directional catalytic pyrolysis of complex distillery residue components to produce high-quality products.
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The Preservation effect of Seabuckthorn Leaf extract on Seabuckthorn Fruit

Song Jingjing, Wang Yueli

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To investigate the preservation effect of sea buckthorn leaf extract on sea buckthorn fruits, fresh sea buckthorn fruits were used as the research object in this study. With sterile distilled water as the control, the fruits were soaked in sea buckthorn leaf extracts of different mass concentrations (5.0, 10.0, 15.0, and 20.0 g·L-1) and stored at 4℃ for 9 days. Changes in the appearance, sensory quality, nutritional components, enzyme indexes, and antioxidant indexes of the sea buckthorn fruits during storage were determined. The results showed that the treatment group with a mass concentration of 15.0 g·L-1 exhibited the best fresh-keeping effect throughout the storage period. After 9 days of storage, compared with the control group, the color difference value, weight loss rate, rot rate, and malondialdehyde (MDA) content were reduced by 12.9%, 25.5%, 40.6%, and 28.3%, respectively; the sensory score, soluble solid content, titratable acid content, vitamin C content, and hardness were increased by 21.5%, 11.6%, 13.6%, 68.9%, and 12.7%, respectively; the activities of superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT), as well as the scavenging rates of DPPH free radicals and ABTS free radicals, were 1.8, 2.0, 1.4, 1.5, and 1.2 times those of the control group, respectively. In conclusion, it is indicated that the sea buckthorn leaf extract with a mass concentration of 15.0 g·L-1 can effectively delay the quality deterioration of sea buckthorn during storage, prolong the storage period of sea buckthorn fruits, and has high practicality and economic value, which provides a theoretical basis for the preservation of sea buckthorn fruits.
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Changes in the Physicochemical Properties and in Vitro Hypoglycemic and Antioxidant Activities of Eucommia Ulmoides Leaves under Different Crushing Degrees

gongpin, 王洁玉

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Eucommia ulmoides leaves are a potential alternative to Eucommia ulmoides bark in traditional Chinese medicine because of their similar chemical constituents and biological effects. To investigate the impact of grinding on the physicochemical properties, active ingredients, and its in vitro activities of Eucommia ulmoides leaves,three raw materials with different particle sizes (ultrafine powder, 100-mesh powder, and coarse powder) were prepared using superfine grinding and coarse grinding techniques. The physicochemical properties, polysaccharide content, in vitro hypoglycemic activity, and antioxidant activity of Eucommia ulmoides leaves were examined. The results showed that the superfine powder of Eucommia ulmoides leaves had the smallest particle size (D50 = 9.63 μm), with the highest bulk density, tapped density, water-holding capacity, oil-holding capacity, and solubility; however, its fluidity was poor. The contents of polysaccharides (22.47%) in the superfine powder were the highest, and the inhibition rates of its polysaccharides on α-glucosidase and α-amylase, as well as the scavenging rates on DPPH·, O- 2·, and ·OH, were significantly superior to those of other samples. In conclusion, superfine grinding effectively improved the physicochemical properties of Eucommia ulmoides leaf powder and enhanced its in vitro hypoglycemic and antioxidant activities, which could be used as a beneficial pretreatment method for large-scale production of Eucommia ulmoides leaves in the food and pharmaceutical fields. Additionally, the superfine powder of Eucommia ulmoides leaves is also a usable raw material for functional foods and nutritional applications.
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Structural Characterization, Film-forming Property Analysis and Fresh-keeping Study of Prulandoligosaccharide-Collagen Composite Film for Grapes

Zhang Qingya, 彭媛媛, 熊双丽, 郝刚

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To improve the performance of the edible coating, different concentrations of sucrose esters were added, and the pullulan polysaccharide-collagen-sucrose ester composite film was prepared by the casting method and applied for the preservation of red grape. Through multi-dimensional characterization methods such as scanning electron microscopy and thermogravimetric analysis, the effects of different sucrose esters on the microscopic morphology, molecular conformation, rheological properties, thermal stability and barrier properties of the film )sucrose esters had good compatibility with the pullulan polysaccharide-collagen matrix, and there was a synergistic effect between them and the polysaccharide and collagen molecules. The formed film liquid was a non-Newtonian fluid with good spreading properties. Compared with the pullulan polysaccharide-collagen film, after adding sucrose esters, the maximum disintegration temperature of the composite film increased from 310 °C to 332 °C, the transmittance decreased from 42% to 16.21%, and the oxygen permeability increased from 2.38×10_-4^g/(m₂^{.s) to 5.62×10}_-4^g/(m_².s). In grape coating preservation, when the sucrose ester addition amount was 1%, it had the best preservation effect. The decay rate, weight loss rate and colony count were reduced by 43.66%, 14.81% and 45.11% respectively, and the titratable acid was slowed down by 29.17%. Compared with the uncoated group, the shelf life of the grapes was extended by 6 days. The research provided a theoretical basis for the application of PE films in the preservation of fruits and vegetables.
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Impact of Milling Fineness on Bioactive Component Retention and Physicochemical Properties of Tartary Buckwheat Flour

CHANG Xianhui, LIfuli, LI Yuanyuan, LIU li, LYU Qingyun, DING Wenping, WANG Yuehui

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Abstract: In order to screen high-activity tartary buckwheat raw materials, this study compared the retention of active ingredients and physicochemical properties of tartary buckwheat powder from Gansu, Shanxi, Yunnan, and Sichuan provinces under different milling durations. The results showed that the cortex structure of Gansu tartary buckwheat was dense, with a milling yield of 15% after 6 minutes of milling. The retention of active ingredients was significantly better than that of buckwheat from other regions. After 6 minutes of milling, the rutin content decreased by only 8.66% (compared to a 43.44% decrease in Sichuan tartary buckwheat after 3 minutes), and quercetin decreased by 35.2% (while Shanxi buckwheat showed a 47.25% decrease after 3 minutes). The damaged starch content in samples from all four regions remained within the range of 25.00%–28.00%, but the estimated glycemic index (eGI) increased significantly (P<0.05). The eGI of Gansu tartary buckwheat increased the slowest (only 1.96% after 3 minutes of milling), while that of Shanxi buckwheat increased the most rapidly during the same period, by 5.36%. In addition, Gansu tartary buckwheat exhibited higher swelling capacity. Therefore, tartary buckwheat powder from Gansu retains more nutritional active components and demonstrates better edible quality. The powder obtained after 6 minutes of milling is the most suitable raw material for developing high-activity tartary buckwheat foods. This study provides a theoretical basis for the precision processing of high-activity tartary buckwheat products.
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Quality Characteristics and Protein Digestibility of Commercially Available High-Protein and High-Energy Meat Products

HOU Xinning, GAO Ziwu, WU Ruiyun, HE Jinhua, LIU Linggao, WU Rui, ZHANG Dequan, WANG Zhenyu

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To address the nutritional requirements of diverse special populations, commercially available meat products labeled with high protein and high energy content have emerged; however, their quality characteristics and nutritional digestive properties have not been fully elucidated. In this study, representative commercially available products were selected, and their nutritional composition, total energy levels, flavor profiles, textural properties, and protein digestibility were evaluated. The results indicated that low-fat chicken sausages (D, G) exhibited superior protein characteristics, with protein contents of 22.15 g/100g and 22.07 g/100g and digestibility rates of 76.44% and 73.23%, respectively, alongside favorable textural properties. A total of 32 characteristic volatile flavor compounds were identified using Headspace Gas Chromatography-Ion Mobility Spectrometry (HS-GC-IMS), with 4-vinylguaiacol being identified as the primary key volatile flavor compound in the commercially available nominal high-protein meat products, and (E,E)-2,4-nonadienal in the nominal high-energy meat products. Multivariate correlation analysis revealed negative correlations between the protein digestibility of commercially available meat products and protein content, carbohydrate content, and energy levels. In conclusion, low-fat chicken sausages possess the advantages of high protein content and high digestibility, while pork luncheon meat cans (inferred from the provided text to represent the high-energy category not detailed with specific results in this abstract) are characterized by higher energy content but also higher fat content. The findings of this study provide data support and theoretical references for the research and development of specialized meat products.
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Optimization of the Fermentation Process of Polygonatum sibiricum and Rosa roxburghii Tratt Compound Enzyme and Analysis of Its In Vitro Antioxidant Activity

changyunhe

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The fermentation process of Polygonatum sibiricum–Rosa roxburghii Tratt enzyme was optimized, and its functional components, antioxidant activity, and in vitro digestive characteristics were evaluated, with the aim of providing a reference for the development of homology of medicine and food products. Using Polygonatum sibiricum and Rosa roxburghii Tratt as raw materials and yeast and lactic acid bacteria as fermentation strains, optimization of time, temperature, inoculation amount, and sugar content was performed through single-factor and response surface methodology, with total phenolic content and sensory score as comprehensive indicators. Under the optimal conditions, the enzyme and its freeze-dried powder were prepared. Total acid, total phenols, total sugar, total flavonoids, pH value, and SOD enzyme activity were measured. The scavenging rates of DPPH·, ABTS·, ·OH, and O??· were determined. In vitro simulated digestion analysis was conducted on the freeze-dried powder. The optimal process parameters were determined as follows: time 66 h, temperature 34 °C, inoculation amount 4.8%, and sugar content 4%. Under these conditions, the enzyme had a sensory score of 93, total acid of 8.64 g/100mL, total phenols of 1.00 mg·mL-1, total sugar of 1.12 mg/100mL, total flavonoids of 0.072 mg·mL-1, and a pH of 3.12. SOD activity was 83.67 U·mL-1. The scavenging rates for DPPH·, ABTS·, ·OH, and O??· were 50.85%, 78.96%, 81.48%, and 77.12%, respectively, indicating significantly enhanced antioxidant activity.The freeze-dried powder exhibited total acid of 9.36 g/100mL, total phenols of 1.75 mg·mL-1, and total sugar of 3.15 mg/100mL, which complied with the industry standard (QB/T 5760-2023). In vitro digestion revealed that the total flavonoid content increased by 56.29% during gastric digestion and by 42.85% during intestinal digestion.This study successfully optimized the fermentation process for Polygonatum sibiricum–Rosa roxburghii Tratt enzyme. The product was rich in functional components, exhibited significantly enhanced antioxidant activity, and provides a basis for developing functional products from medicinal and edible homologous plants.
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Effect of Glycosylated-separated Protein of Chickpea on The Characteristics of Myofibrillar Protein Gel

HAN Xue, He Xiangli

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To develop high-quality plant protein-animal protein composite products, glycosylation modification on chickpea protein isolate (CPI) through heat induction was conducted to investigate the effects of adding different mass fractions (1%, 5%, 10%) of CPI on the gel properties of myofibrillar protein (MP). The results indicated that the addition of CPI significantly reduced the whiteness value and cooking loss rate of MP, significantly increased the binding amount of bromocresol blue, and increased the amount of weakly bound water (T22) in the water distribution while reducing the amount of free water (T23). The effect was more pronounced especially after the CPI underwent glycosylation. At the 10% addition level of glycosylation CPI, the cooking loss rate of the MP gel was decreased by 43.98% compared to the MP gel without CPI addition, the binding amount of bromophenol blue was increased by 49.98%, the red feature of the pseudo-color image was more obvious, and the laser confocal microscopy (LSCM) revealed that the microstructure of the gel was more dense. Furthermore, the addition of CPI significantly reduced the gel properties of MP (P<0.05). However, the effect of glycosylated CPI on the gel properties of MP was significantly better than that of the unglycosylated CPI. Dynamic rheology showed that the gel elasticity of all samples was increased significantly, indicating that the gelation of MP-CPI composite system was enhanced. In conclusion, glycosylated CPI was more conducive to improving the performance of MP gel, providing a theoretical basis for the further development of new plant protein-animal protein composite systems.
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Research Progress on Extraction, Identification and Application of Exosomes from Food and Medicine-Related Plants

Li Jiaojiao, Xu Wen, Han Yalan

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Exosomes are nanoscale (with a diameter of approximately 30-150 nm) lipid bilayer membrane vesicles secreted by cells, which are rich in various biologically active substances, including proteins, nucleic acids, lipids, and small molecules. In recent years, plant exosome-like nanovesicles (PENs) from food and medicinal plants have become a research hotspot in the biomedical field due to their excellent biological activity, good biocompatibility, and potential therapeutic applications. This article reviews the research progress of exosomes from food and medicinal plants, summarizes their extraction and identification methods, analyzes the physiological activities of common mi RNA in PENs, and summarizes the current research on the efficacy of exosomes from food and medicinal plants, with the aim of providing a reference for the research on exosome resources from food and medicinal plants.
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Recent Advances in the Main Components, Biological Activities, and Detoxification of Peach Kernel

GAO Wanheng, WANG Yuxiao, SUN Xin, ZHANG Rentang

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Peach kernel, a dual - purpose food and medicinal material, is rich in nutrients and bioactive components. It contains unsaturated fatty acids, proteins, flavonoids, phenylpropanoids, and cyanogenic glycosides, which endow it with anticoagulant, anti - atherosclerotic, antioxidant, and anti - tumour activities. However, the presence of amygdalin in peach kernel restricts its extensive application in the food industry due to toxicity and bitterness. This review systematically examines the main components and bioactivities of peach kernel, discusses amygdalin's toxicity and removal methods, and highlights advances in traditional processing and modern detoxification technologies like ultrasound, fermentation, and microwave. The goal is to provide a basis for the deep processing and application of peach kernel, promoting its innovative use in functional foods.
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The role of metabolic reprogramming in the development and development of chronic intestinal inflammation and the regulatory potential of natural flavonoids

guanwenying, zhengzixuan, mengxianghui, guoci, wangrui, songyutong

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With the development of economy and society, the shift from monotonous dietary habits to diverse eating patterns has increasingly burdened intestinal systems, leading to a yearly rise in patients with chronic inflammatory bowel disease (IBD). As a complex inflammatory disorder, the occurrence and progression of IBD are closely associated with metabolic reprogramming. Dysregulated lipid metabolism has been proven to play significant roles in IBD pathogenesis, not only affecting intestinal barrier function but also mediating inflammatory responses through regulating immune cell activation, inflammatory cytokine release, and oxidative stress levels. In recent years, natural flavonoids have attracted extensive attention due to their widespread presence in foods and their excellent anti-inflammatory, antioxidant, and metabolic regulatory properties. Studies indicate that natural flavonoids can influence the progression of intestinal inflammation by regulating lipid metabolism factors, improving fatty acid metabolic pathways, and maintaining cholesterol homeostasis. However, the specific mechanisms by which natural flavonoids affect IBD through lipid metabolism reprogramming remain to be thoroughly investigated. This review summarizes the mechanistic roles of lipid metabolism reprogramming in IBD, explores the potential value of natural flavonoids in lipid metabolism regulation, and analyzes their possible mechanisms in alleviating IBD through metabolic reprogramming, aiming to provide new research perspectives and scientific evidence for dietary interventions in IBD management.
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Research Progress on Storage Quality Deterioration, Preservation Technology Application and Analysis Methods of Fresh Garlic after Harvest

ding hui min, shi jun yan

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Garlic is a common medicinal and edible plant. It is still an organism with life activities after harvest. It is prone to quality deterioration such as germination, browning, softening and decay during storage, which in turn leads to nutrient loss and even serious economic losses. Therefore, taking certain preservation measures, such as low temperature, controlled atmosphere, coating and other methods can effectively slow down the physiological activity of fresh garlic, reduce the respiratory intensity, so as to maintain its nutrients and achieve the purpose of storage and preservation ; in addition, the analysis of the quality of garlic by transcriptome and metabolomics analysis methods can more accurately grasp the quality changes of garlic. This paper comprehensively summarized the physiological changes and quality deterioration of fresh garlic during post-harvest storage, and systematically reviewed the research progress of the application and analysis methods of post-harvest quality preservation technology of fresh garlic, so as to provide theoretical reference for the development of high-quality products and industrial quality and efficiency of fresh garlic in the future.
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Isolation, Identification and Fermentation Characteristics Analysis of Dominant Lactic Acid Bacteria from Guizhou Traditional Sauerkraut

Xu die, 汤鹏宇, 孟繁博, 林茂

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To screen for excellent strains suitable for sauerkraut fermentation, 19 lactic acid bacteria were isolated and purified from traditional sauerkraut in Guizhou. Firstly, a preliminary screening was carried out based on acid production capacity and growth conditions, and then a secondary screening was carried out based on the nitrite degradation ability, acid tolerance, viscosity production and hydrogen sulfide production properties. The results showed that the overall performance of the strain RS11 exhibited the best: its nitrite degradation rate was 98.8%, it exhibited optimal tolerance at pH 3.50, and produced neither viscosity nor hydrogen sulfide. Safety evaluation showed that RS11 had no hemolytic activity; showed tolerance to streptomycin and kanamycin, showed moderate sensitivity to tetracycline, vancomycin and erythromycin, and was sensitive to chloramphenicol, ampicillin and gentamicin. It was identified as Lactiplantibacillus plantarum through 16S rDNA sequencing. It underwent homolactic fermentation, utilized all tested carbohydrates, exhibited rapid growth and acid production: It entered the logarithmic growth phase within 2 h, reached the stationary phase by 12 h, and reduced the pH to 3.98 within 12 h. The inoculation and fermentation results showed that compared with traditional natural fermentation, the fermentation cycle can be shortened from 7 days to 2 days by using RS11, and the peak nitrite content during the fermentation process is only 0.62 mg·kg-1. In summary, the local Lactobacillus plantarum RS11 screened from the traditional sauerkraut fermentation system has excellent fermentation characteristics and safe regulation functions, and is an excellent strain suitable for sauerkraut production.
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The Effect of O3 Fumigation Combined With Modified Atmosphere Packaging on Post Harvest Quality of Fresh American Ginseng

Deng Xiuli, Ren Ziyan, Song Di, Yang Xiangzheng, 贾连文

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Abstract: In order to investigate the effects of the synergistic treatment of low temperature (0 ± 1°C), ozone (O3) fumigation and gas-conditioned packaging(MAP) on the postharvest quality of fresh American ginseng, the experiment was conducted using 0.5 × 10-6 O3 fumigation for 30min in combination with four gas-conditioned packaging materials (IE3900-MY, IE3900-L400, IE3900-MK10 and L400 PBAT-HP101), which PE group was used as the control. The preservation quality was comprehensively evaluated by multi-dimensional indexes (appearance quality, CO2 and O2 content in the bag, water loss rate, spoilage rate, antioxidant enzyme activity, saponin content and glycoside content). The results showed that the treatment with O3 fumigation and L400 PBAT-HP101 packaging led to significantly delay on the quality deterioration. on the 120th day of storage, the water loss rate decreased by 1.19% and the decay rate decreased by 7 times. The treatment with O3 fumigation and IE3900-MK10 packaging resulted in the antioxidant defense system and the activities of antioxidant enzymes were activated, such as PAL, SOD and CAT, were increased by 13.39%, 5.19% and 11.16%, respectively. Additionally, the treatment with O3 fumigation with IE3900-MY packaging and the treatment with IE3900-L400 packaging regulated CO2 and O2 levels, reducing CO2 content by approximately 23.85% and increasing O2 content by 13.24% compared to the PE group. Furthermore, the treatment with O3 fumigation with L400 PBAT-HP101 packaging was shown to regulate the saponin metabolism: after 120 d of storage, although the Rg1 content was reduced by 28.24%, the Re and Rb1 contents were increased by 23.44% and 52.46%, respectively. In conclusion, the treatment with O3-MAP synergistic technology was demonstrated to prolong the storage period by regulating enzyme activity and saponin homeostasis, and the treatment with O3 fumigation and L400 PBAT-HP101 was identified as the the most effective in preserving the intrinsic quality and saponin compositions of fresh American ginseng. The results of this study can provide a theoretical basis and technical support for the green preservation of high value-added traditional Chinese medicinal materials.
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Optimization of Extraction Process for Congrong Zaoren Wumei Beverage Extract and Evaluation of Its Sleep-Improving Effects

Zhang Zhengxu

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To optimize the extraction process of Congrong Zaoren Wumei Beverage (composed of Cistanche deserticola, Ziziphi Spinosae Semen, and Mume Fructus) and evaluate its sleep-improving effects, an HPLC method for the simultaneous determination of echinacoside, verbascoside, spinosin and citric acid was established. Using the content of these four compounds and polysaccharides as evaluation criteria, the extraction process for the Congrong Zaoren wumei Beverage (composed of Cistanche deserticola, Ziziphi Spinosae Semen, and Mume Fructus) was optimized through orthogonal experiments, followed by validation and scale-up trials. The sleep-improving effects of the extract were investigated in mice using direct sleep tests, open-field tests, subthreshold dose sodium pentobarbital sleep tests, and sodium pentobarbital sleep latency tests. The results demonstrated that the optimal extraction conditions for the Congrong Wumei Zaoren beverage extract were an extraction temperature of 100 ℃, a solid-to-liquid ratio of 1:12 (g·mL-1), and an extraction time of 2 hours. It was found that continuous administration of the extract for 30 days did not induce direct sleep effects in mice but significantly alleviated anxiety in the open-field test, indicating a certain sedative effect. The extract enhanced the sleep-inducing effects of sub-threshold doses of sodium pentobarbital (sleep rates for low, medium, and high doses were 33.33%, 41.67%, and 50.00%, respectively) and significantly shortened the sleep latency induced by sodium pentobarbital (sleep latencies for low, medium, and high doses were 22.77, 22.18, and 14.93 minutes, respectively). This study optimized the extraction process for Congrong Zaoren Wumei Beverage and demonstrated its sleep-improving effects, providing a scientific foundation for developing sleep-enhancing products derived from Cistanche deserticola.
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A Flow Cytometry-based System to Assess the Effects of Genipin on Mitochondrial Function and Inflammation

Pan Xiang, Gu Zhenglong, Zhou Feibai

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Mitochondria are major cellular energy donors and immunoregulatory centers. This study selected nine representative components of Gardenia, including geniposide, genipin, crocetin I, etc., and used HEK293T-mtKeima and HeLa-mtKeima cells as tools to conduct a preliminary screening of these components, focusing on their pro-mitophagy activity. The results showed that genipin exhibited the strongest pro-mitophagy activity in both cell lines, with the proportion of activated mitophagy reaching 78.91±1.63% and 18.96±3.86%, respectively. It is therefore considered a promising active substance for protecting mitochondrial function. Further investigation focused on genipin to explore its dose-response relationship with respect to mitophagy. The results demonstrated that genipin could activate mitophagy in both cell lines in a dose-dependent manner without causing cellular damage. At a concentration of 40 μM, its effect was even significantly stronger than that of the positive control, activating mitophagy in over 80% of the cells. Using THP1 cells as a tool, the dose-response relationship of genipin on mitochondrial function was systematically evaluated. Incubation with 50 μM genipin significantly increased mitochondrial membrane potential to 1.15 times that of the control group. Additionally, genipin also dose-dependently increased mitochondrial reactive oxygen species (ROS), which may be related to its promotion of energy metabolism. A preliminary evaluation of genipin"s anti-inflammatory capacity was conducted in THP1-ASC-GFP cells. The results showed that genipin could significantly reduce the number of ASC specks, and this effect was concentration-dependent. These findings indicate that genipin can modulate mitochondrial function and possesses anti-inflammatory properties.
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Study on Changes of Volatile Flavor Substances and Microbial Communities in Citri Reticulatae Pericarpium Under Different Years and Microbial Inoculation

HE Huijun, ZHONG Ruimin, XU Yantao, WANG Weibi, LIANG Zhihang, LIANG Yuxiang, ZHANG Deming, XIAO Zijun

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To investigate the effects of different aging years (0, 1, 2, 3, 8, and 16 years) and inoculation with three fungal strains on the bioactive substances and microbial community of Citri Reticulatae Pericarpium, the strains used were Cladosporium perangustum CP16-M1, Aspergillus versicolor CP16-M2, and Penicillium brocae CP16-M4.GC-MS and high-throughput sequencing were used to analyze total flavonoids, volatile compounds, and quality-related microorganisms in the samples. The results showed that the 8-year-aged sample was a critical period for total flavonoid accumulation. Terpene D-limonene was the main volatile component, and a total of 40 compounds including alcohols and phenols were identified.The 16-year-aged sample contained 30 volatile components, among which L-carvone (2.36%) might be the material basis for the "minty aroma" of aged Citri Reticulatae Pericarpium. After inoculation with CP16-M2 and CP16-M4, the total flavonoid content was significantly higher than that in the control group (P < 0.05). Inoculation with the three strains increased the number of volatile components, and CP16-M4 increased the content of methyl N-methylanthranilate—a unique component of Citri Reticulatae Pericarpium to 37.91%..The abundance of Xeromyces increased with aging time, reaching 95.82% in the 16-year-aged sample. Clavispora, the dominant fungus in the fresh sample (50.37%), showed the greatest difference from samples of other years. After inoculation with the three strains, the dominant genera were Hanseniaspora (44.54%), Clavispora (34.74%), and Xeromyces (33.35%), respectively. Penicillium and Aspergillus showed a strong positive correlation with D-limonene and 3-carene, respectively (P < 0.001). In conclusion, there is a correlation between the volatile components and microbial community. Inoculation with the three strains isolated from 16-year-aged Citri Reticulatae Pericarpium can alter the microbial community, providing theoretical support for elucidating the aging mechanism and directional regulating the quality.
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Analysis of Physical and Chemical Characteristics and Quality Evaluation of Commercially Available Old Duck Soup

Zhou Liang Liang, Wang Heng Peng, Zhang Tang Lei, Ji Yang, Gao Zi Wu, Meng Xiang Ren

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Abstract:

Old duck soup combines traditional flavor with consumption convenience and holds high economic value in the ready-to-eat food market. However, its quality evaluation still lacks multidimensional technical support, and a systematic assessment standard has not yet been established. In this study, commercial old duck soup samples from three brands (WJ, WH, and SC) were analyzed using a colorimeter, electronic tongue, electronic nose, texture analyzer, and gas chromatography–mass spectrometry (GC–MS) to systematically investigate differences in color, taste, flavor, texture characteristics, and volatile compound composition. Correlation and principal component analyses were further applied to construct a comprehensive evaluation model for the edible quality of old duck soup. The color difference results showed that the yellowness (b* value) of WH (22.58) and SC (22.12) was significantly higher than that of WJ (19.39). Electronic tongue analysis indicated that WH exhibited the highest umami response value (7.09). Texture analysis revealed that the duck meat in SC had the greatest hardness (7136.64 g) and chewiness (2709.66 g). GC–MS combined with odor activity value (OAV) analysis showed that 2-methyl-3-hepten-2-one and trans-2,4-decadienal were the major odor-active compounds contributing to aroma. Sensory evaluation demonstrated that WH achieved the highest score (78.67), significantly exceeding the other two groups (P<0.05). Correlation and principal component analyses indicated that color, mouthfeel, aldehyde compounds, saltiness, and elasticity were the key indicators influencing the edible quality of old duck soup. Based on these findings, a comprehensive evaluation equation (F= 0.50F? +0.50F?) was established, with the calculated overall score of WH (0.55) being the highest. The comprehensive evaluation system established in this study effectively simplified the detection indices and provided a convenient and efficient quality assessment method for industrial production.
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Protective Effect of Resveratrol on Hydrogen Peroxide-Induced Oxidative Damage in Mesenchymal Stem Cells

Zhang Yujia, Liu Chengqi, Zhang Huitu, Wang Haikuan

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The protective effects and possible mechanisms of resveratrol on hydrogen peroxide (H2O2)-induced oxidative injury in mesenchymal stem cells were investigated. In this study, the half inhibitory concentration (IC50) of mesenchymal stem cells treated with H2O2 for 24 h was determined by the CCK-8 method, and an oxidative injury model was established based on this concentration. The experiment was divided into a normal group, a model group (500 μmol·L-1 H2O2), a positive control group (vitamin C), and resveratrol low- (25 μmol·L-1), medium- (50 μmol·L-1), and high-dose (100 μmol·L-1) groups. The results showed that compared with the model group, a more pronounced effect was observed with medium- and high-dose resveratrol pretreatment, as both the relative apoptosis rate and relative reactive oxygen species levels of mesenchymal stem cells were significantly reduced, with relative apoptosis rates of 4.66 and 3.01, and relative reactive oxygen species levels of 6.23 and 4.39, respectively (using the normal group as the reference, with its value set as 1). In addition, the contents of superoxide dismutase (SOD) and glutathione (GSH) were increased, and the content of malondialdehyde (MDA) was decreased; the expression levels of antioxidant-related genes (Nrf2, NQO1, and HO-1) were upregulated. In conclusion, H2O2-induced oxidative injury in mesenchymal stem cells was effectively alleviated by resveratrol pretreatment, and the mechanism may be closely associated with the activation of the Nrf2 signaling pathway and the enhancement of endogenous antioxidant capacity. This study provides a theoretical basis for resveratrol in improving the survival rate and therapeutic efficiency of mesenchymal stem cell transplantation.
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Exploring the Changes in Gut Microbiota and Metabolites of Drosophila under Benzalkonium Chloride Exposure Based on 16S rRNA Sequencing and Metabolomics

Chong CHEN, 张建强, 汪晓纯, 代聪聪, 曹荣安, 宋晨龙, 刘红艳, 申宝堂

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Abstract:

To systematically elucidate the effects of long-term, low-dose exposure to benzalkonium chloride (BAC) on gut microbiota composition and metabolic homeostasis, Drosophila melanogaster W1118 was employed as the model organism. Acute and chronic toxicity assays were conducted, combined with 16S rRNA sequencing and non-targeted metabolomics analyses. The results showed that the lethal effects of BAC exhibited clear dose- and time-dependent characteristics; under acute exposure, the 48 h median lethal concentration (LC50) was determined to be 0.54%. In chronic exposure, the survival rate of the 1/10 LC50 treatment group was reduced to 70% from day 9 onward.16S rRNA sequencing revealed that gut microbial structure was significantly perturbed by BAC exposure, with Firmicutes decreasing from 16.33% to 5.93%, Bacteroidota increasing from 0.04% to 0.61%, and Proteobacteria increasing from 83.57% to 91.19%. Metabolomics analysis identified 386 significantly altered metabolites (137 upregulated and 249 downregulated), mainly involved in purine metabolism, amino-acid biosynthesis and metabolism, and glycerophospholipid metabolism. Correlation analysis further indicated that differential bacterial taxa such as Proteobacteria and Bacteroidota were closely associated with key metabolites including AMP, ADP, and glutamate.In summary, long-term low-dose BAC exposure was found to markedly disrupt the gut microbial community and metabolic network of fruit flies, thereby disturbing core physiological processes such as energy conversion, cell proliferation, and membrane-lipid metabolism. This study provides an important reference for the food safety risk analysis and toxicity assessment of quaternary ammonium compounds.
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Sodium Selenite Inhibits the Proliferation and Migration of KYSE-150 Esophageal Squamous Cell Carcinoma Cells via Ferroptosis

song ruxin, 李芳, 王普, 刘俊梓, 张睿

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To investigate the activity and mechanism of sodium selenite (Na?SeO?) in inhibiting the KYSE-150 esophageal squamous cell carcinoma cells. Morphological observation, cell proliferation inhibition assay, wound healing assay, and Transwell assay were employed to evaluate the inhibitory effects of Na?SeO? on KYSE-150 cell proliferation and migration. Transcriptome sequencing was performed to identify the main mechanism mediating this inhibition. The effects of Na?SeO? on the contents of Reactive Oxygen Species (ROS), Fe2?, Malondialdehyde (MDA), and Glutathione (GSH) in cells were analyzed, and the impact on subcellular structures was observed by transmission electron microscopy. The results showed that Na?SeO? exhibited significant activity in inhibiting the proliferation and migration of KYSE-150 cells. After 24 h of high-concentration treatment, the proliferative activity was only 50.89% of that in the control group. Transwell assay results indicated that the number of cells passing through the chamber in the high-concentration group at 24 h of treatment was 15.38% of that in the control group; wound healing assay showed that the healing rate of the 10 μmol·L?1 group at 24 h was 34.22% of that in the control group. Transcriptome sequencing results revealed that differentially expressed genes were enriched in the ferroptosis signaling pathway. Cells exhibited iron-dependent ROS accumulation, with Fe2? and ROS levels in the highest concentration group reaching 2.57-fold and 15.81-fold those of the control group, respectively. Additionally, MDA content was increased (8.93-fold of the control group), while GSH content was decreased (0.39-fold of the control group), and subcellular structures showed a certain degree of damage. Whereas the anticancer effect of Na2SeO3 can be attenuated by Fer-1. In conclusion, Na?SeO? can induce imbalance of the intracellular redox system and damage to subcellular structures, thereby inhibiting the proliferation and migration of KYSE-150 cells via the ferroptosis pathway. This study provides an application prospect for the prevention and treatment of tumors.
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Screening of Prebiotics for Alistipes indistinctus and Verification of Synbiotic Effects

WANG Tianyi, XU Yingxi, YANG Huanshuai, ZHU Shanshan, LI Linsha, WANG Xinyi, LIAO Siping, LIU Yan, 胡丽娜, XIA Min

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Abstract:

To screen prebiotics that promote the growth of Alistipes indistinctus (A. indistinctus) and evaluate their synbiotic effects on improving gut barrier function, this study employed an in vitro fermentation system to investigate a range of candidate prebiotics, including Inulin, Resistant Starch, Maltodextrin, β-glucan, Fructooligosaccharides (FOS), Isomaltooligosaccharides (IMO), and Xylooligosaccharides (XOS). Low-degree polymerized XOS was identified as the optimal prebiotic based on its growth-promoting effects. Subsequently, liquid chromatography-mass spectrometry (HPLC-MS) was applied to analyze the metabolic characteristics of XOS with different degrees of polymerization. In a mouse model, the gut colonization ability of A. indistinctus and its effects on the expression of colon barrier proteins (ZO-1, Occludin, MUC-2) were evaluated through oral gavage of A. indistinctus+XOS, and fluorescence in situ hybridization (FISH) was used to observe the attachment of the bacteria to the intestinal mucosa. In LPS-induced Caco-2 cell models, the effects of this combination on bacterial adhesion and barrier repair were examined. The results indicated that XOS was the most effective prebiotic for enhancing the growth and metabolic activity of A. indistinctus among all tested prebiotics, with various degrees of polymerization being efficiently utilized. In the mouse model, the A. indistinctus+XOS group exhibited prolonged gut colonization time compared to the A. indistinctus-only group, with a 43.26% and 21.12% increase in ZO-1 and MUC-2 protein expression, respectively, and an 118.75% increase in bacterial adhesion to the intestinal mucosa. In the Caco-2 model, this combination significantly reduced LPS-induced increases in barrier permeability and restored barrier protein levels to approximately 70.83% of the control group. In conclusion, XOS is an optimal prebiotic for promoting the growth and gut colonization of A. indistinctus. The A. indistinctus+XOS combination shows significant synbiotic potential in enhancing gut barrier function, providing a theoretical basis and experimental foundation for the development of functional foods and microbiological formulations.
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Changes in Post-Harvest Quality and Antioxidant Activity of Blueberries Treated with Bacillomycin D

yufulong, weihongmei, zhailigong, yangjianting, zhaoyanyan, 张献领, fengyanhui, weizhaohui

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Abstract:

Bacillomycin D (BD) is an antibacterial lipopeptide derived from Bacillus bacteria. To investigate its application in post-harvest preservation of blueberries, "Huaxiang" blueberries were used as experimental material and concentrations of 8, 16, and 32 μg were applied. A 32 μg/mL BD immersion treatment was administered to the blueberries, which were then stored at 28°C. Changes in spoilage rate, weight loss rate, firmness, free radical scavenging capacity, and antioxidant enzyme activity were measured every 2 days. It was found that, compared to the control group (CK), the 32 μg/mL BD treatment significantly reduced the spoilage rate and weight loss to 20.00% and 2.09%, respectively, by the end of storage. Meanwhile, the 16 μg/mL BD treatment demonstrated superior effects in maintaining fruit quality, delaying decreases in blueberry firmness and soluble solids content. The BD-treated group exhibited total phenolic, total flavonoid, and anthocyanin contents of 1.59, 0.16, and 0.73 mg·g?1, respectively, during the later storage period. Superoxide dismutase (SOD) and catalase (CAT) activities were 50.66 and 5.10 U·g?1, respectively, significantly higher than those of the control group, while polyphenol oxidase (PPO) activity was 127.8 U·g?1, lower than the control group’s 188.64 U·g?1. In summary, it was concluded that BD treatment effectively regulates antioxidant content and related enzyme activities, significantly delays post-harvest physiological aging in blueberries, and enhances storage quality, providing theoretical support for the application of BD in blueberry post-harvest preservation.
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Preparation and Characterization of Crude Pumpkin Peel Polysaccharides/Chitosan Composite Films

Zhang Wei

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Pumpkin peel waste was targeted for high-value utilization in this study, with the aim of developing edible packaging materials of optimized performance. Crude polysaccharides (PP) were extracted from pumpkin peel waste, followed by the determination of their content and characterization of structure. Subsequently, composite films were fabricated via the solution casting method by blending chitosan with PP at different addition levels, and the law of performance regulation was investigated. The total sugar content of PP was determined to be 62.63 wt.% , with a polysaccharide purity of 52.1 wt.%. The presence of proteins and other minor components in PP was confirmed by ultraviolet spectroscopy analysis. With increasing PP addition, the thickness and solubility of the composite films were significantly increased, reaching maximum value of 23 μm and 56.32 wt.%, respectively, while the moisture content was reduced to a minimum of 15.6 wt.%. In contrast, the water vapor permeability of films was first decreased and then increased, reaching a minimum value of 15.63 g·mm·m-2·d-1·kPa-1 at a PP addition of 40 wt.%, which corresponded to the most compact film structure. Regarding mechanical properties, when the PP addition was increased to 60 wt.%, the tensile strength of the composite film was maximized at 45.1 MPa; meanwhile, the elongation at break at a PP addition of 20 wt.% was reached an approximately threefold increase compared to that of the pure chitosan film. Structural and thermal analyses confirmed that hydrogen bonds were formed between PP and chitosan, leading to the disruption of the ordered crystalline structure of chitosan and alterations in the thermal stability of the composite films. Based on the requirements of food packaging processing and application, 60 wt.% PP loading serves as the optimal ratio for the composite film. At this ratio, the film exhibits excellent flexibility, thermal stability and barrier properties, which can meet the requirements of fresh-keeping packaging for fresh food, thus providing a novel approach for the high-value utilization of pumpkin peel.
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Effects of Different Activated Carbons on Decolorization, Debittering, and Bioactivity of Wheat Protein Hydrolysate

sunqicheng, wangyuanpeng, panlong

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To elucidate the differential regulatory effects of various activated carbons on the quality of wheat gluten hydrolysate, this study compared the treatment efficacy of five activated carbons (TX-108 to TX-369) under fixed conditions (dosage of 2 wt.%, 50 °C, 30 min). Physicochemical and spectroscopic analyses revealed that the different activated carbons exhibited significant functional selectivity. Specifically, TX-108 displayed the highest decolorization rate (76.63%) and removal efficiency of aromatic amino acids. TX-369 demonstrated the optimal debittering effect (46.15%), whereas TX-325 achieved the highest peptide retention rate (81.06%). Although the adsorption process led to an overall decline in antioxidant activity (particularly hydroxyl radical scavenging ability), it resulted in a targeted reshaping of enzyme inhibitory activities: TX-108 and TX-325 significantly enhanced the inhibition rates against α-amylase and α-glucosidase, respectively. Ultraviolet and infrared spectroscopy confirmed that the activated carbons primarily removed chromophores and aromatic amino acids via physical adsorption without disrupting the peptide backbone. These findings indicate that in practical applications, the selection of activated carbon types should be based on specific objectives such as decolorization, debittering, or functional retention. This study provides a theoretical basis for optimizing decolorization/debittering processes and the targeted preparation of functional peptides from plant protein hydrolysates.
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Comparative Analysis of Key Nutritional Components and Microstructure of Dagu Chicken Soup Under Different “Huohou” Conditions

guanhaining

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To optimize the stewing process for Dagu chicken soup, the effects of four heating methods—rapid boiling over high heat, moderate simmering over medium heat, slow stewing over low heat, and gentle simmering over minimal heat—were systematically evaluated with respect to the nutritional composition and microstructure. Key nutritional components, including crude protein, crude fat, soluble protein, oligopeptides, and purines, were determined. These analytical measurements were integrated with microstructural observations conducted using confocal laser scanning microscopy and scanning electron microscopy, and were further complemented by a comprehensive sensory evaluation. The results indicated that soup prepared with slow stewing over low heat contained the highest levels of crude protein (1.52 g/100 g), oligopeptides (1.57 mg·mL-1), hypoxanthine (29.31 mg·mL-1), adenine (20.40 mg·mL-1), and xanthine (8.58 mg·mL-1). A significantly higher crude fat content (1.48 wt.%) was found in the group subjected to gentle simmering over minimal heat. However, superior overall quality was demonstrated by the process of moderate simmering over medium heat. This method was found to yield the highest contents of total sugars (0.05 mg/100 g) and soluble protein (7.68 mg·mL-1), and was also associated with relatively lower purine content and the lowest degree of lipid oxidation (TBARS value: 0.039 mg MDA·kg-1). Microscopic analysis revealed that the fat particles in the soup prepared by moderate simmering over medium heat were fine, uniformly distributed, and formed a stable system. The superiority of this process was further confirmed by sensory evaluation, where it received the highest scores for taste and morphology. Based on these findings, moderate simmering over medium heat is established as the recommended process for producing high-quality Dagu chicken soup, thereby providing a theoretical foundation for its industrial-scale production.
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Exploring the Alleviating Effect of Noni Fruit Polysaccharides on Insulin Resistance in High-fat Diet Mice Based on Gut Microbiota

吴小勇, 吴子博, 陈志扬, 何绿艳, 梁家怡, 郑传进, 王志江

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In order to investigate the effect and its possible mechanisms of noni fruit polysaccharide (NFP) intervention on glucose metabolism in mice fed with a high-fat diet (HFD). 30 male C57BL/6 mice were employed to an 8-week experiment, and the glucose metabolism-related indicators and the intestinal microbiota in the cecum of mice were analyzed and compared in this study. The results showed that compared with the normal control group, the fasting blood glucose (FBG) in mice of the Model group increased by 41.38%, 50.55%, 54.44%, and 42.45% respectively in the 2nd, 4th, 6th, and 8th weeks. The glucose tolerance of mice in the Model group was also damaged to some degrees. While supplementing 200 mg/kg of NFP could alleviate the increase in FBG and the damage of glucose tolerance caused by HFD. Furthermore, compared with the Model group, the insulin resistance index and glycated serum protein content in mice of the NFP group decreased significantly by 19.03% and 22.26% respectively (P < 0.05). Gut microbiota analysis indicated that the NFP intervention suppressed the HFD-induced increases in relative abundance of Faecalibaculum, Dubosiella, Lachnospiraceae_UCG-006, and norank_f_erysipelotrichaceae. Spearman correlation analysis revealed positive correlations between Lachnospiraceae_UCG-006, norank_f_erysipelotrichaceae, and Faecalibaculum with IR index, while negative correlations were observed for norank_f_muribaculaceae and Akkermansia with IR index. In conclusion, this study suggests that HFD-induced insulin resistance in mice was closely related to the disruption of the intestinal microbiota. NFP could alleviate insulin resistance by regulating the intestinal microbiota. This research provides an important reference for the study and development of related functional foods or drugs.
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Extraction of Piper Betel Leaf ( Piper betel L. ) Pectin and Evaluation of Its Anti Aging and Whitening Effects on Skin

shen cong hui, zhang kai, xie xiao ceng, chen qi geng, xie xi, 王蓉, song yan ting, zhang ying xia, hu wen ting

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Piper betel leaf pectin was extracted via a cellulase-assisted ultrasound-acid method, and its potential for anti-skin photoaging and whitening was evaluated. The extraction process was optimized by combining single-factor experiments and response surface methodology. The free radical scavenging capacity and inhibitory activities against tyrosinase and hyaluronidase were investigated using free radical scavenging assays and enzyme inhibition experiments. A senescence model was established by UVB irradiation of HaCaT cells, and the anti-skin photoaging effects were evaluated via cell viability assay and senescence-associated β-galactosidase staining. The whitening effect and biosafety were assessed using zebrafish larva exposure tests. The results showed that the optimal conditions for cellulase assistance were as follows: enzyme addition amount 3.0 wt.%, enzymatic hydrolysis time 119 min, and temperature 60?℃, under which the actual yield of pectin reached 7.58±0.21%. At a concentration of 8 mg·mL?1, Piper betel leaf pectin exhibited scavenging rates of 51.48% and 62.40% for DPPH and ·OH radicals, respectively. It also exhibited significant inhibitory activities on hyaluronidase and tyrosinase, with IC?? values of 7.84 mg·mL?1 and 10.43 mg·mL?1, respectively. The pectin was able to mitigate the decrease in HaCaT cell viability induced by UVB and reduce the proportion of SA-β-gal-positive cells. When the mass concentration of Piper betel leaf pectin was 150 μg·mL?1, the relative melanin percentage and relative tyrosinase activity of B16-F10 cells decreased to 74.06% and 75.69% of the control group, respectively. In zebrafish larvae treated with 3 mg·mL?1 Piper betel leaf pectin, the in vivo relative percentage of melanin and tyrosinase activity were reduced to 60.52% and 64.50% of the control group, respectively, with no toxicity or irritation observed. In conclusion, the Piper betel leaf pectin extracted by the enzyme-assisted ultrasound-acid method exhibits anti-skin photoaging and whitening effects, is mild and safe, and holds promise for development as a novel food-grade natural skincare ingredient.
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The Potential and Mechanisms of Dietary Bioactive Substances in the Prevention and Treatment of Metabolic Dysfunction-Associated Steatotic Liver Disease

Zhaolingyun, 冯映雪, 贺佳诺, 张阳, 刘圆圆, 任哲, 李叶帆, 李志栩, 刘洪伟

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Metabolic dysfunction-associated steatotic liver disease (MASLD) has become the most prevalent chronic liver disease worldwide. Its continuously rising incidence poses a severe challenge to global public health systems. MASLD is closely associated with metabolic syndromes such as obesity and type 2 diabetes. Its pathological progression can evolve from simple steatosis to steatohepatitis, liver fibrosis, and even cirrhosis and hepatocellular carcinoma. Given the current scarcity of specifically approved drugs, lifestyle interventions, particularly dietary modification, are crucial for early prevention and management. The concept of "food as medicine" provides a new perspective, suggesting the use of bioactive substances abundant in daily diets to intervene in the onset and progression of MASLD. This review aims to systematically summarize recent research on the potential and molecular mechanisms of dietary-derived bioactive substances—including polyphenols, dietary fibers and prebiotics, unsaturated fatty acids, phospholipids and choline, and other compounds—in preventing and treating MASLD. It also discusses challenges in their application, such as bioavailability and dose-response relationships, and finally offers perspectives on future directions for functional food development.
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Simultaneous determination of isobutoxyquinoline and its metabolites in plant-derived foods by QuEChERS-HPLC-MS/MS method based on purification of nitrogen-doped carbon nanotubes purification

王庆雪, 粟有志

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An analytical method based on a modified QuEChERS sample preparation technique combined with high-performance liquid chromatography-tandem mass spectrometry (HPLC-MS/MS) was developed for the simultaneous determination of tebufloquin and its metabolite (tebufloquin-desacetyl) residues in plant-derived foods. Following extraction with a citrate-acetonitrile solution, the sample extract was purified using C18, PAX, and a novel adsorbent, XFM64 (nitrogen-doped multi-walled carbon nanotubes). Chromatographic separation was performed on a C18 column with a gradient elution of methanol and an aqueous solution containing 0.1% formic acid and 2 mmol·L-1 ammonium acetate. Detection was carried out in electrospray positive ionization (ESI+) and multiple reaction monitoring (MRM) modes, and quantification was achieved using a matrix-matched external standard method.Validation results in eight matrices including grape, cucumber, and pear demonstrated satisfactory performance: good linearity was observed for the target compounds (r2>0.9977), with limits of detection (LOD) ranging from 0.03 to 0.30 μg·kg-1 and limits of quantification (LOQ) from 0.10 to 1.00 μg·kg?1. At three fortified levels of 1.0, 2.0, and 10.0 μg·kg?1, the average recoveries ranged from 80.04% to 115.02%, with relative standard deviations (RSDs) between 0.76% and 13.37%. All performance indicators met the detection requirements for pesticide residues in plant-derived foods stipulated by regulations such as those of the European Union and Japan. This study provides a theoretical foundation for the import and export inspection of such pesticides in plant-derived foods in China.
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Improvement of Resistant Starch Content in Wheat Flour by Ultrasonic-hydrothermal Modification and Analysis of Dough Characteristics

Li Zhuoer

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In order to develop wheat flour with high resistant starch content and expand its application field, the technology of improving resistant starch content in wheat flour by ultrasonic-hydrothermal modification(Ultrasonic hydrothermal, UHT)was studied by screening test and optimization test, and the influence of the addition amount of UHT-WF on the powder quality, dough microstructure and rheological properties of premixed flour was analyzed. The results showed that the optimum preparation parameters of UHT-WF were as follows: wheat flour milk concentration 50 wt.%, ultrasonic time 29 min, ultrasonic power 300 W, ultrasonic temperature 40℃, hydrothermal time 5 h, hydrothermal temperature 90℃ and aging time 24 h. Under these conditions, The content of resistant starch in wheat flour increased from 7.64 wt.% to 23.93 wt.%. The peak area ratio of medium- and long-chain starches increases, while the gluten content decreases. With the increase of UHT-WF content, the farinograph index of dough decreased, the gluten holes became larger, the structure became loose, and the dynamic rheological properties showed a viscoelastic decline. UHT treatment effectively increased the content of resistant starch in wheat flour, and its dough characteristics changed in different degrees. When the UHT-WF addition exceeds 40 wt.%, it can be used as the main ingredient in flour products with lower gluten elasticity requirements, and can also be directly used as the raw material for staple food and non-staple food with high resistance starch, providing theoretical basis and technical support for developing flour products with low glycemic index.
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Research Progress on Mechanism of Spore Formation and Control Methods of Bacillus in Dairy Products

MINJIE

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Bacillus, particularly in its spore form, exhibits exceptional resistance to extreme conditions such as high temperatures, desiccation, radiation, and chemical disinfectants. This resilience makes it one of the most difficult contaminants to control in dairy processing, severely restricting product quality and shelf life.. Due to limited understanding of sporulation mechanisms in previous studies, conventional control methods are insufficient to eliminate contamination risks at the source, highlighting the urgent need to develop more efficient and mild novel intervention technologies. In this context, recent years have seen notable progress in both spore detection and the development of innovative control strategies. On the one hand, detection systems based on emerging methods such as Surface-Enhanced Raman Spectroscopy (SERS) and Enzymatic Recombinase Amplification (ERA) have been gradually established, enabling rapid and highly sensitive detection of spores while addressing the drawbacks of traditional methods, including long detection time and susceptibility to matrix interference. On the other hand, novel non-thermal control technologies (e.g., ultrasound, high pressure, ion beam, and pulsed electric fields) combined with biological control strategies (such as bacteriocins and other microbial metabolites) have demonstrated superior inactivation efficacy, while better preserving the natural attributes of dairy products. This review summarizes research advances from the past decade regarding spore structure and formation mechanisms, their impacts on dairy quality and safety, rapid detection techniques, and multiple control strategies. The goal is to provide guidance for the precise management of Bacillus and their spores in dairy products and for ensuring food quality and safety.
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Structural Elucidation of a Novel Tadalafil Derivative in Food Matrix using HRMS Rapid Screening Combined with NMR Characterization

Xia Jintao, Huang Xiuxiu, Wu Wanqin, Zhu Songsong

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Abstract:

To screen novel illegally added nafils in health food which claimed to have aphrodisiac effect, an analytical method combining rapid screening by high resolution mass spectrometry (HRMS) and characterization by nuclear magnetic resonance spectroscopy (NMR) was used for confirmation and detection of suspected samples. The sample to be detected was extracted with methanol/water, and diluted for rapid sampling and screening with HRMS. Further combined with the HRMS database and the characteristic fragment ions of abnormal peaks, the types of suspected compounds were confirmed. The reference standard of the suspected compound was separated by column chromatography, and its molecular structure was characterized by nuclear magnetic resonance spectroscopy. In the secondary mass spectrum of the suspected compound, the characteristic fragment ions with mass-to-charge ratio of 254.0932, 226.0984, 197.0714 and 169.0759, and the fragment ions with mass-to-charge ratio of 248.1080 and 121.0647 indicated that the suspected compound was a compound with oxygen atom leaving on the pepper ring of nortadalafil. Combined with the chemical shift value of 3.73 (3H, s) and the peak types in the 1H NMR spectrum as well as the peak intensity of chemical shifts of 129.31 and 114.03 in the 13C NMR spectrum, the novel illegally added compound was confirmed as desoxynortadalafil, which was verified by the ultraviolet spectrum. In this study, the content of desoxynortadalafil in food matrix was quantitatively analyzed by high-performance liquid chromatography. Furthermore, a fragmentation mechanism of nortadalafil and desoxynortadalafil was explained in detail, and the atoms and peak splitting were assigned by NMR, which could provide technical support for the rapid screening of novel illegal additives in health food, and provide reference model for the confirmation of compounds.
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Effects on Raw Material Characteristics and Quality of Par-baking Chiffon Cake with Xanthan Gum Addition

ZHANG Yuehua, LIANG Lanlan, WANG Xue, WU Ming, LI Bing

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Abstract:

In this study, in order to mitigate quality deterioration such as reduced volumetric expansion and increased hardness caused by the par-baking process, xanthan gum was selected as a Par-baking chiffon cake improver and compared its effects on the characteristics of cake ingredients and quality characteristics, with the expectation of exploring the relevant mechanisms through the microstructure. The results showed that the addition of xanthan gum improved the water absorption and stirring tolerance of cake flour, significantly increasing the density and viscosity of the cake batter, and reducing on the specific volume and hardness deterioration caused by the freezing process, while significantly reduce fat oxidation resulting from storage. In addition, except for reducing the sourness of the cake, the addition of xanthan gum had no effect on the flavor of the cake. At the optimal addition level of 0.45% (based on the mass of cake flour as 100%), the water absorption capacity of the low-gluten flour increased from 55.45% to 58.54%, while the Farinograph weakening value declined from 207.42 FU to 164.50 FU. Concomitantly, the viscosity and density of the cake batter increased to 8.2-fold and 1.3-fold, respectively, relative to the control devoid of xanthan gum. Upon fabrication into chiffon cakes, the specific volume of the Par-baking cake after 14 days freezing increased from 3.25 cm3·g-1 to 3.66 cm3·g-1, the hardness decreased from 375.33 g to 274.67 g, and the peroxide value and acid value decreased from 0.025 g 100g-1 and 0.94 mg g-1 to 0.015 g 100g-1 and 0.67 mg g-1, respectively. The results of water distribution and microstructure studies indicated that xanthan gum improved the gas retention and water retention of Par-baking cake by inhibiting water migration and reducing the damage of ice crystal growth to the gluten network during the freezing process. Therefore, xanthan gum was proposed to be employed as an effective improver in Par-baking cakes to ameliorate product quality. The results provide guidance for the further application of Par-baking technology in cakes.
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Efficient preparation, stability, and structure-activity relationship analysis of DPP-IV Inhibitory Peptides Derived from Lithobates catesbeiana Skin

FANG Zongmu, ZHANG Mei, LIU Jinyu, ZHAO Mouming, LUO Donghui, LIN Lianzhu

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Abstract:

In order to achieve high-value utilization of Lithobates catesbeiana skin and develop novel anti-diabetic peptides, L. catesbeiana skin collagen was used as raw material in this study and the enzymatic hydrolysis process was optimized using seven proteases. The optimal hydrolysate was selected based on hydrolysis degree, protein recovery rate, and dipeptidyl peptidase IV (DPP-IV) inhibition rate. The molecular weight distribution and processing stability of the hydrolysate were determined. The peptide sequences were identified using nano-LC-MS/MS technology, and the molecular mechanism of DPP-IV inhibition by the active peptides was explored. The results showed that when the mass ratio of papain to bromelain was 7:1, the hydrolysis time was 6 h, and the enzyme dosage was 2.4% (m/m), the hydrolysate B76 exhibited the best performance (with a hydrolysis degree of 36.63%, protein recovery rate of 53.99%, and DPP-IV inhibition rate of 58.40%). The peptides with a molecular weight less than 1000 u accounted for 92.61% of the total peptides in B76, and its DPP-IV inhibitory activity could be stably retained under high temperature and extreme acidic, alkaline conditions. Nano-LC-MS/MS analysis revealed that the peptides GPSGPSGP and VGPRGPAG were found to exhibit the lowest binding energies to DPP-IV. GPSGPSGP was synthesized and determined to possess an IC50 of 0.6812 mmol·L-1, and the DPP-IV active site was competitively inhibited by this peptide in a substrate-like manner. This experiment provided a theoretical basis for the development of L. catesbeiana skin collagen in anti-diabetic functional foods.
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Fabrication and Characterization of Whey Protein Isolate-Phloridzin-Sodium Alginate Composite Emulsion Microcapsule

Li Jiaqi, Bai Xinrui, Gao Xueqin, Wu Jinsong, Fu Li

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Abstract:

To enhance the stability of protein-based emulsion delivery systems and broaden their application in functional foods, microcapsules were fabricated using a whey protein isolate-phloridzin-sodium alginate ternary complex as the wall material via high-voltage electrostatic technology, and their delivery performance for β-carotene were systematically evaluated. The particle size of the microcapsule decreased with the increasing voltage in the range of 4~7 kV. Under the conditions of 0.45 wt.% sodium alginate and a needle diameter was 0.5 mm, the microcapsules exhibited a particle size distribution of 500~600 μm and a uniform morphology, as confirmed by scanning electron microscopy. Texture analysis revealed higher hardness (68 g) at 8 kV and 0.45 wt.% sodium alginate concentration. At 8 kV, the microcapsules achieved the highest encapsulation efficiency (48.20%), along with desirable sustained-release properties (reaching peak at approximately 2 hours) and in vitro floating ability (over 12 hours), suggesting a potential for prolonged gastric retention. Furthermore, the addition of phloridzin could significantly retard the photodegradation of β-carotene. This study elucidates the synergistic mechanism of whey protein isolate-phloridzin-sodium alginate ternary composite microcapsule in the delivery and protection of functional ingredients, providing a theoretical basis for the development of functional foods and proposing novel strategies for the application of flavonoids in the food industry.
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Volume 41,2025 Issue 12

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