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The lipid-reducing effect of sanhua tea and its application in milk tea

fujing, zhaoxinrui, liujia, yangchenxi

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In order to explore the lipid-lowering effect of Sanhua tea milk tea, Instant Sanhua tea extraction prepared from rose, jasmine, tortoise, lotus leaf and ligusticum Chuanxiong was selected as the experimental material to explore the lipid-lowering effect of Sanhua tea through in vitro experiment, and to optimize the best formula of low-sugar and lipid-lowering milk tea containing black tea via fuzzy mathematical comprehensive method. Cholesterol esterase inhibition rate, pancreatic lipase inhibition rate and sodium cholate absorption efficiency were selected as indicators to evaluate the lipid-lowering activity of Sanhua tea in vitro. By adding Sanhua tea to low-sugar milk, the optimal formula of low-sugar and fat-reducing milk tea was optimized by using fuzzy mathematical sensory evaluation and single factor test and response surface test. The results showed that the inhibition rate of cholesterol esterase (87.11%) of Sanhua tea was significantly higher than that of pancreatic lipase (53.91%) and sodium cholate absorption efficiency (3.97%). The best recipe is composed of 0.35% instant black tea, 6.00% Sambucus tea, 35.00% pure milk, honey and xylitol (1.5:1) 4.45%, sucrose ester and monoglyceride (1:1) 0.10%. The main physicochemical properties of low sugar and fat reducing milk tea were analysed. The total sugar, crude fat, crude protein content and the stability coefficientwere 0.152 mg/g, 0.010 mg/g, 0.455 mg/g, and 1.048, respectively. This study confirmed that instant Sanhua tea can effectively inhibit the body's absorption of cholesterol in vitro and has potential lipid-lowering effects, which can provide theoretical basis and data support for the development of new products of low-sugar and low-fat milk tea with good sensory quality and health benefits.
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Research Status of The Effect of Trace Elements on Intestinal Function

DENG Yuxin, QIU Lili, HUANG Qianqian, HU Mengxiao, SUN Yuchen, ZHANG Tong, WANG Xiaoyu

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Maintaining its normal physiological function is essential for the health of the body. Trace elements can regulate the expression of intestinal cell transporters, mucosal tight junction proteins, immune proteins, and Wnt signaling pathway-related proteins in intestinal stem cells, and play an important role in maintaining the integrity of the intestinal barrier, enhancing intestinal immune function, and promoting the proliferation and differentiation of intestinal stem cells. However, unreasonable intake of trace elements may lead to intestinal damage and hurt intestinal function. Therefore, it is of great significance to clarify the regulatory mechanism of trace elements on intestinal function to guide the rational diet of trace elements. In this paper, the effects of trace elements such as iron, copper, and zinc on intestinal function were reviewed. The regulatory mechanisms of trace elements on the intestinal barrier, digestion and absorption, and intestinal stem cells were described in detail. The negative effects of trace elements deficiency and excess on intestinal function were discussed, aiming to provide theoretical support for intestinal health-related research, and provide theoretical basis and scientific guidance for reasonable intake of trace elements and treatment of related diseases.
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Preservation Mechanism of Plant Polyphenols and Its Application in Fish

孙美君, 崔姗, 杨佳华, 陶浩, 亢春雨, 赵春青

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The quality of fish is significantly reduced by various factors, including microbial contamination and lipid and protein oxidation, making it necessary to develop effective preservation techniques. Plant polyphenols are a category of secondary metabolites that are found in substantial quantities in nature. Because of their excellent bacteriostatic and antioxidant qualities, as well as their accessibility, safety, and environmental friendliness, they have gained a lot of attention in the food preservation industry and have emerged as one of the most promising bio-preservatives. However, plant polyphenols are easily oxidized and have poor stability, and the single use of plant polyphenols can no longer meet the higher preservation requirements. Therefore, synergistic preservation technology has emerged combining plant polyphenols with other preservatives/conservation techniques. The paper begins by outlining the primary categories of contemporary fish preservation methods, along with each one's benefits and drawbacks. This paper focuses on the mechanism of action of plant polyphenols as preservatives and the current status of their practical application in fish preservation. It explores the development prospects of plant polyphenols in fish preservation. This study aims to offer theoretical references for the investigation of plant polyphenols' potential use in fish preservation.
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Analysis of non-volatile compounds among Xinyang Maojian tea with different aroma types based on UHPLC-Q-Exactive-MS

曹璐, 郭桂义

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The differential non-volatile compounds among Xinyang Maojian tea (XYMJ) with refreshing, orchid-like and tender corn-like aroma were identified by ultra-high performance liquid chromatography-Q-Exactive-mass spectrometry (UHPLC-Q-Exactive-MS). A total of 177 chemical compounds were identified in the XYMJ teas with different aroma types, 24 of which were found to show significantly different among the XYMJ tea samples, including 11 flavonoids, 7 amino acids and their derivatives, 2 sugars and their derivatives, and 4 other kinds. There were 7 differential compounds between the refreshing and tender corn-like XYMJ teas, 5 of which were the flavonoids. There were 9 differential compounds between the refreshing and orchid-like XYMJ teas, 6 of which were the L-amino acids and their derivatives. KEGG metabolic pathway enrichment analysis showed that the differential compounds were significantly enriched in the pathways of alanine, tyrosine and tryptophan biosynthesis, and flavonoids biosynthesis. L-valine, L-isoleucine and L-leucine were found to show significantly different among the XYMJ teas with different aroma types, which contributed importantly to the XYMJ tea aroma formation. Understanding the differences of non-volatile compounds among the XYMJ teas with different aroma types had important implications for promoting the precious processing technology of XYMJ teas.
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Evaluation of Active Ingredients and Antioxidant Activity of Chrysanthemum morifolium cv. Fubaiju at Different Parts and Different Harvesting Stages

马其华, 周庆, 陈巧环, 王筱, 方艳, 龚玲, 刘大会

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In order to effectively utilize the non medicinal parts of Chrysanthemum morifolium cv. Fubaiju and achieve comprehensive development and utilization of chrysanthemum resources, the content of its active ingredients was systematically measured and evaluated using C. morifolium cv. Fubaiju from different harvesting periods and parts as experimental materials. Simultaneously, the in vitro antioxidant capacity of the compound was evaluated using three antioxidant indicators: 1,1-diphenyl-2-trinitrophenylhydrazine (DPPH) radical, 2 '- bis (3-ethylbenzene and thiazolin-6-sulfonic acid) diamine salt (ABTS) radical scavenging ability, and iron ion reducing ability (FRAP). The results showed that the content of active ingredients in different parts of Chrysanthemum morifolium was 9.13-52.18 mg/g crude fat, 62.72-189.50 mg/g protein, 138.26-459.12 mg/g crude fiber, 8.19-45.32 mg/g total amino acids, and 0.45-4.6 mg/g essential amino acids, respectively，11.86-80.99 mg/g total flavonoids, 13.11-99.33 mg/g total phenols, 20.24~96.78 mg/g neutral polysaccharides and 9.46~43.28 mg/g acidic polysaccharides, respectively. Further amino acid composition analysis showed that the proportion of taste amino acids in Chrysanthemum morifolium was 41.78%~56.19%, followed by medicinal amino acids at 12.50%~46.72%; Analysis of 9 polyphenolic monomers showed that phenolic acid compounds had higher content and significant differences compared to flavonoid compounds. The comprehensive analysis of effective components using principal component analysis and fuzzy mathematical membership function method resulted in seedlings (0.814), leaves (0.522), flowers (0.378), and stems (0.058). The comprehensive results of antioxidant antioxidant of Chrysanthemum were seedlings (65.76%), leaves (64.56%), flowers (62.53%) and stems (61.91%). In summary, the experimental results provide strong scientific and technological support for the application of non-medicinal parts of chrysanthemum, which is helpful to further broaden its application field.
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Evaluation of Effect and Modification of Heating on the Quality Attributes of Comminuted Meat Products: A Review

辛光斌, 许玉娟, 李聪, 王兆明, 周辉, 徐宝才

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Comminuted meat products are very popular because of their unique texture and flavor, occupying a large consumer market in China. Heating is a prerequisite for achieving safety and taste in most meat products, and heat-induced changes in the structural and functional properties of myofibrillar protein (MP) are essential for conferring desirable eating qualities and textural properties to the products. However, there are usually irreversible negative effects on MP during excessive heat treatment, which reduces the final quality of the product. Therefore, how to modify the quality of comminuted meat products under heating is of great importance. Based on this, this review firstly outlines the changes of structural and functional properties of MP during the heating process and their manifestation in the quality of comminuted meat products; Then, this review will focus on the current mechanisms regarding MP modification methods under heating and further elaborate on their effects in meat products, with a view to providing references in the field of heating processing of meat products.
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Activation Mechanism and Stability of Alcohol Dehydrogenase Activating Peptide from Sea Buckthorn Seed

郝刚

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In this study, the activation rate of alcohol dehydrogenase (ADH), antioxidant properties, stabilizing effects on ADH, endogenous fluorescence spectra, and amino acid composition of ADH-activating peptides from sea buckthorn seeds at various concentrations were assessed in order to investigate their mechanism of action and stability in diverse conditions. It was demonstrated by the results that the ADH activation activity of sea buckthorn seed peptides is concentration-dependent, with an activation rate of 48.92% observed at a concentration of 10 mg/mL. Strong free radical scavenging capabilities were exhibited by the peptides, with a DPPH free radical scavenging rate of 87.17% and an ABTS free radical scavenging rate of 99.76% achieved at a concentration of 1 mg/mL, while an ·OH scavenging rate of 87.98% was reached at 4 mg/mL. ADH is protected from free radical attacks by this activity. The sea buckthorn seed ADH activating peptide can be interacted with by ADH, resulting in structural extension of ADH at concentrations of 5 mg/mL and 10 mg/mL. This structural adjustment facilitates the binding of ADH to the substrate, which is also the reason for the increased activity and stability of ADH. The amino acid composition of the peptide is considered relatively balanced, with a rich content of alcohol-metabolizing amino acids such as leucine and alanine. The sea buckthorn seed ADH activating peptide is stable under heat, acidic and alkaline treatments, exposure to certain metal ions (Na?, Ca2?, K?), and gastric digestion. An inhibitory effect is exerted on its activity by Fe2+ and Fe3+ in a concentration-dependent manner, and approximately 50.70% of its ADH activating activity can still be maintained after intestinal digestion. In summary, a strong ADH activating effect is possessed by the sea buckthorn seed ADH activating peptide, a stable and favorable environment for ADH is created, and good stability is demonstrated.
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Correlation Analysis Between the Chemical Characteristics and Bacterial Flora of Different Dried Longan by High-throughput Sequencing

XIE XI, Xie Bixin, YuWeixiang, Liu Huifan, Lin Xiaozhi, Wu Keyi, Liu Dongjie, Xiao Gengsheng, Wang Qn

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In this study, the genomic library of microflora in dried longan was constructed by high-throughput sequencing using tissues from four varieties of longan. The abundance of bacterial flora from these samples was analyzed at the phylum, order, family, and genus levels, and the diversity of microbial communities was evaluated by combining with the alpha diversity analysis. In addition, the correlation between the composition of microflora and characteristic chemical levels was compared. As the results, the pectin content of the four varieties of dried longan ranged from 7.21 mg/g to 10.62 mg/g. The highest content of vitamin C and total sugar were observed in Feng Li Sui longan variety, containing 4.25 mg/100g and 116.89 mg/g, respectively. And the highest titratable acid content was 0.061% in Chu Liang longan variety, while Thai and Feng Li Sui longan varieties' titratable acid content was similar. The diversity of microbial flora from four varieties of dried longan indicated that the differences in the composition and relative abundance of bacterial flora were observed in different varieties. For example, Proteobacteria were relatively high in Thai and Feng Li Sui longans, accounting for 65.35% and 64.89% respectively, while Firmicutes mainly accumulated in Mu Yan (51.36%) and Chu Liang (46.78%) longan samples. The correlation analysis showed that vitamin C and sugar content had greater effects on the diversity of microbial communities. In contrast, the level of titratable acid had a relatively minor effect on the diversity and number of bacteria in dried longan. This experiment provides an important reference basis for the selection of processing varieties and storage of dried longan, and provides a research basis for the processing and quality control of dried longan products.
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Preparation of Magnesium Oxide Modified Biochar and Its Adsorption of Ferulic Acid

陈廷莎, 韦竑志, 李琦, 李雪松, 陈金足, 何美妮, 李利军, 程昊

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In this paper, bagasse was used as raw material to produce biochar with adsorption properties by optimizing the calcination conditions, and magnesium oxide-modified biochar was prepared by introducing magnesium salt. The biochar was characterized by Scanning Electron Microscope (SEM), Energy Dispersive Spectrometer (EDS), X-ray Diffraction (XRD), Infrared Spectroscopy (FT-IR) and Specific Surface area and Porosity Analyzer(BET).The adsorption rate on ferulic acid sucrose solution was used as the evaluation index to explore the four one-factor adsorption conditions: solution pH, adsorption temperature, adsorption time, and adsorbent dosage. Adsorption kinetic model and thermodynamic model experiments were used to fit the data and explore the adsorption behavior. The results showed that the best adsorption performance of the biochar produced at a carbonization temperature of 600℃ and a carbonization time of 2 h; SEM; EDS, XRD, FT-IR and BET showed that the surface of the biochar was successfully loaded with magnesium and the pore structure has changed greatly, with large specific surface area and void ratio, and strong adsorption capacity; the best conditions measured in the one-way experiment were pH 5.5, temperature 75℃, stirring time 120 min, and adsorbent dosage 150.00 mg; the adsorption rate of modified biochar on ferulic acid sucrose solution was 42.01%, which is a big improvement compared with the adsorption rate of unmodified biochar 29.01% and that of the macroporous resin 22.09%, and the adsorption behavior was dominated by the chemical adsorption of the multimolecular layer. Thus, magnesium oxide-modified biochar has a certain application prospect as a scavenger in the sugar juice clarification process.
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Evaluation of Lipid deterioration markers in Pork after Simulation of Cold Chain Interruption Using Rapid Evaporation Ionization Mass Spectrometry

汪薇

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In order to develop a rapid, sensitive and accurate real-time detection technique to assess the degree of deterioration of pork during cold chain breaks, in this study, lipidomic data of pork samples with different cold chain interruption times were analyzed by rapid evaporative ionization mass spectrometry (REIMS) combined with an intelligent knife (iKnife). The results showed that the relative abundance of the characterized ions differed significantly among the samples (P < 0.05). Temperature fluctuations occurring during cold chain logistics of chilled meat led to lipid oxidation. A total of six ions were identified as potential markers, including m/z 353.2703, m/z 507.44259 ([FAHFA(16:1(9Z)/5-O-16:0)]?), m/z 352.2861 ([N-palmitoyl proline]?), m/z 271.2284 ([2-hydroxy palmitic acid]?), m/z 331.2494 ([9,10,13-trihydroxy-Octadecanoic acid]?), and m/z 309.2438 ([9R-HODE, methyl ester]?), which could serve as markers for cold chain deterioration. By incorporating the typical marker m/z 353.2703 into the REIMS scanning scope through target enhancement, the overall recognition accuracy improved significantly, increasing from 55.77% (non-targeted acquisition mode) to 97.60% (target enhancement scanning). In conclusion, the target-enhanced iKnife-REIMS method can accurately discriminate cold chain interrupted pork according to different levels of lipid deterioration, providing near real-time results.
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Comparative Study on Structure and Biological Activities of Polysaccharides from Different Varieties of Ziziphus Jujuba

易宇欣, 薛地, 宋年年, 阿衣吐逊·阿布都外力

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In this research, four different kinds of Ziziphus jujuba including Junzao, Huizao, Yaozao, and Ruoqiangzao as research objects, and four types of jujube polysaccharides JP, HP, YP, and RP were prepared by water extraction and alcohol precipitation method, then their structures and functional properties were compared. The yield of polysaccharides was ranging in 5.71%~7.01%. All the polysaccharides were acidic polysaccharides with the uronic acid content of 34.80%~48.61%. Molecular weight was 29.17 kDa~140.71 kDa; Ziziphus jujuba polysaccharides consisted of galactose, glucose, arabinose, rhamnose, xylose, and mannose with a different molar ratio. Ziziphus jujuba polysaccharides have better water holding, oil holding, emulsifying properties, and biological activity, YP has stronger free radical scavenging abilities against 1-1-diphenyl-2-trinitrophenylhydrazine, 2-2,-diazo-bis (3-ethylbenzothia zolin-6-sulfonic acid), and hydroxyl radicals with IC50 values of 0.20, 7.00×10-2, and 0.59 (mg/mL), respectively. Ziziphus jujuba polysaccharides showed different cell proliferation activities and cytokine secretion abilities on macrophages RAW264.7. Among them, JP had significant promoting effects on cell proliferation (P<0.05), all polysaccharides significantly promote the secretion of IL-1β (P<0.01), and RP and HP have significant effects on promoting the secretion of TNF-α (P<0.01). In conclusion, the results showed that Ziziphus jujuba polysaccharides have different application potential. This study will provide a reference for the study on the structure-activity relationship of Ziziphus jujuba polysaccharides and the further development and utilization of this resources.
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Research progress on the volatile components and biological activities of hydrosols from aromatic plants

李梦丹, 张倩, 何玲利, 侯方域, 田玉红

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Hydrosols are generated during the process of essential oils extraction from aromatic plants. They are constituted by the condensing water of the distillation process and by polar, hydrophilic, oxygenated volatile components. The volatile components in hydrosols from aromatic plants are rich in oxygenated terpenoids such as alcohols, aldehydes, cids , phenols, etc., which are different from essential oils mainly composed of terpenes. They play an important role in the aroma quality and biological activity of hydrosols. With epidemic infectious diseases raging in the world, research on the medicinal properties of plants received more and more attention. Hydrosols from aromatic plants have been proved to have various biological activities due to its volatile components.The application of hydrosols used in the products for food, health and medicine has received more and more attention due to the functional characteristics of hydrosols, such as antibacterial, anti-inflammatory, antioxidant, antiviral, and insecticidal properties.This paper focuses on the volatile components in the hydrosols, and the current status of research of hydrosols from aromatic plants on the important biological activities including antioxidant, antibacterial, anti-inflammatory, and insecticide. The aim is to provide theoretical basis for the development and practical production of hydrosols.
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Physicochemical Characterization and Inhibitory Activity against α-Glucosidase of Polysaccharides from Phyllanthus emblica L. by Gradient Ethanol Precipitation

Fang Jiaqing, Zhang Tong, Fu Shuyong, Fu Xiong, Guo Weixiong, Chen Chun

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To realize the relationship between structure and activity, this study extracted Phyllanthus emblica L. polysaccharides by hot water and precipitated them by 50% and 80% ethanol into two fractions (PEP-50 and PEP-80). PEP-50 and PEP-80 were made up of comparable types of monosaccharides in varying quantities in which galacturonic acid was the main constituent. Besides, the molecular weight of PEP-80 was mainly distributed in 234.45 kDa (accounting for 99.21%), which was lower than PEP-50 that mainly distributed in 256.26 kDa (accounting for 92.51%). Moreover, PEP-50 and PEP-80 had hypoglycemic activity, and the IC50 values were 3.34 and 0.46 mg/mL respectively. Both of them exhibited a mixed-type inhibition of α-glucosidase. In addition, PEP-80 had stronger inhibitory effects on α-glucosidase than PEP-50, exhibiting stronger binding ability to α-glucosidase and α-glucosidase-substrate complex. These differences might be closely related to different chemical composition and molecular weight. These data suggest the molecular weight of Phyllanthus emblica L. polysaccharides had great impact on their hypoglycemic activity, providing important theoretical guiding significant for developing Phyllanthus emblica L. food products with different types.
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Prediction of Trypsin-Catalyzed Protein Cleavage Specificity Based on Deep Learning

刘洋, 黄峻洪, 岑幸仪, 肖楚乔, 李谆淳, 陈选, 李桂香, 徐巨才, 刘磊

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The prediction of trypsin-catalyzed specific proteolysis is vital for guiding the theoretical degradation and structural analysis of proteins. In this study, a deep learning-based model was constructed to predict trypsin-catalyzed protein cleavage using convolutional neural networks (CNN) and long short-term memory (LSTM) networks. The impact of various hyperparameters on the model's performance was also explored. Results showed that a lower learning rate, higher batch size, and fewer convolutional layers were beneficial for the model's training stability, ensuring better predictive outcomes. The optimal parameters were identified as a learning rate of 0.001, batch size of 512, and one convolutional layer. In that case, the model achieved an accuracy of 0.950, specificity of 0.987, precision of 0.986, recall of 0.961, and an F1 score of 0.973 on dataset PXD010627, demonstrating excellent predictive capability and stability. Furthermore, when applied to publicly available datasets from different species, the model maintained an accuracy above 0.920, with AUC values, precision, recall, and F1 scores all ranging between 0.900 and 0.989. This indicates a strong generalization ability of the model in predicting specific cleavage sites of trypsin-catalyzed proteins, which could significantly enhance the accuracy and reliability of cleavage site predictions. We hope the work could offer a new idea for protein identification and spatial structure analysis in proteomics, promoting advancements in proteolytic research and bioinformatics.
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Analysis of Nutritional Constituents of Different Commercially Available Blueberry Wines

ZENG Wenwen, LI Xiao, DING Yuwen, WU Yanxin, YU Qiang

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In order to explore the basic nutrients in commercially available blueberry wine, polysaccharide components from 10 commercially available blueberry wines were isolated and extracted, their content and monosaccharide composition were determined, at the same time, the organic acids and vitamins contents were analyzed by high performance liquid chromatography. The contents of nutrients such as total phenols, total flavonoids, and total anthocyanins were determined by chemical methods. It was shown that the polysaccharides in most commercially available blueberry wines had multiple components, with mannose, arabinose, and galactose being the main monosaccharides, similar to the composition of blueberry polysaccharides. High levels of organic acids, such as quinic acid (271.73~10693.36 μg/mL), lactate citric acid (67.65~1766.40 μg/mL), and malic acid (151.53~6006.40 μg/mL), were found in the 10 commercial blueberry wines. The contents of vitamin B1, vitamin B2, and vitamin B6 in the blueberry wines ranged from 0.08 to 2.89 mg/100 mL, 0 to 4.35 mg/100 mL, and 0 to 4.95 mg/100 mL, respectively. Additionally, the contents of total phenols, total flavonoids, and total anthocyanins in the 10 blueberry wines ranged from 0.18 to 1.65 mg/mL, 0.29 to 3.48 mg/mL, and 3.47 to 117.27 mg/L, respectively. By comparing various ingredients and their contents, it was found that No. 4 blueberry wine contained more types and better content of vitamins and had a significantly higher content of phenolic substances than the other blueberry wines, indicating the best quality. Overall, the nutritional composition of blueberry wine was preliminarily revealed, laying the foundation for further investigation of its biological activity.
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Rapid Determination of Trace Benzo[a]pyrene in Food Based on Magnetic Material Co3O4 Nano-electrochemical Sensor

YUAN Zhao-Hui, SONG Zi-Wei, HE Huan--Ge, Li Shu-Guo

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An AB@Co3O4@MWCNTs-COOH electrochemical sensor for rapid detection of trace BaP in foods was prepared. The electrochemical reaction of BaP on various sensors was determined by cyclic voltammetry (CV), exhibiting a well-defined oxidation peak but no reduction peak, indicating that is irreversible oxidation-reduction process. AB@Co3O4@MWCNTs-COOH sensor were characterized by Scanning electron microscopy (SEM) and electrochemical impedance spectroscopy (EIS). The experimental conditions were optimized, the results as follow: electrolyte solution, 0.3 mol/L lithium perchlorate solution (pH=2); Modification solution composition, VCo3O4@MWCNTs-COOH: VAB=2:1; Cosmetic volume: 6 μL; Enrich time: 15 minutes. Under optimal conditions, the oxidation peak current has a well linear increases with BaP concentration (Ip=3.1939CBaP+1.5439, R2=0.996), with LOD is 3.12×10-10 mol/L and recovery rates ranged from 85.7 % to 94.21 %. The developed method was utilized to determine the content of BaP in food samples, and the results obtained are consistent with those from other methods. It was practical to determinate the content of BaP in foods with is easy to operate, had a low detection limit, good anti-interference ability, good stability, and was suitable for on-site quantitative analysis of BaP in food.
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Preparation and Oxidative Stability of Ascorbic Acid-Sugar Eutectic Mixture

Xia Xinyi, Han Chuanwu, Fang Suqiong

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L-ascorbic acid (ASC) is well-known for its excellent antioxidant properties. In addition to its significant role in maintaining human health and preventing scurvy, ASC is widely used as an effective antioxidant in the food industry. Despite its widespread application in liquid foods, ASC is poorly stable in aqueous solutions, where it readily degrades under light and heat. To improve the stability of ASC in aqueous solutions, this study employed co-crystallization technology, using liquid-assisted ball milling to prepare eutectic mixtures of ASC with sucrose (SUC), D-glucose (GLU), and trehalose (TRE). The results demonstrated that all eutectic mixtures exhibited significantly reduced melting points. The microstructure of the eutectic mixtures was transformed from irregular large blocks to more uniform small particles. Under pH conditions of 3.50, 4.50, and 7.00, the protective effect of eutectic mixtures on ASC was 1.05, 1.17, and 1.78 times greater, respectively, compared to pure ASC, confirming that eutectic mixtures can enhance ASC stability in aqueous solutions, with the most effective protection observed under neutral condition. The SUC-ASC-1.5 H eutectic mixture, which exhibited the best pH stability, was selected for further study. It was shown to provide optimal protection in acidic environments, with its protective effect ranging from 1.09 to 1.33 times greater than pure ASC after exposure to high temperatures and UV light. In this study, three types of sugar-ASC eutectic mixtures were successfully prepared, and their ability to inhibit the oxidative degradation of ASC in aqueous solutions under unfavorable processing conditions was demonstrated. The findings offer a new method for enhancing ASC's stability in aqueous environments and provide new research directions for developing more stable ASC-based functional foods and health products.
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Synthesis of GDP-L-fucose by multi-enzyme cascade catalysis in vitro

凌贺, 梁书利, 林影

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GDP-L-fucose is recognized as an important nucleotide sugar and a critical glycosyl donor in fucosylation modification. In order to build a new method to synthesize GDP-L-fucose, in this study, a biosynthetic pathway from starch to GDP-L-fucose was designed. The pathway is catalyzed by eight enzymes. After these eight enzymes were screened and identified, they were expressed in Escherichia coli and subsequently purified. Based on this, a multi-enzyme cascade system was constructed in vitro to synthesize GDP-L-fucose, and the reaction conditions were optimized to enhance the synthesis. The eight enzymes, all derived from thermophilic bacteria, include alpha-glucan phosphorylase (αGP), phosphoglucosamine mutase (PGM), glucose-6-phosphate isomerase (PGI), class I mannose-6-phosphate isomerase (ManA), phosphomannomutase (ManB), mannose-1-phosphate guanylyltransferase (ManC), GDP-mannose 4,6-dehydratase (Gmd), and GDP-L-fucose synthetase (WcaG). After the reaction temperature, pH, enzyme ratio, Mg2? concentration,NADPH concentrationand phosphate buffer concentration were optimized, the reaction was conducted with 1 g/L starch in one pot, resulting in a GDP-L-fucose yield of 53.23% and 0.53 g/L. This study is the first study to achieve the biosynthesis of GDP-L-fucose from starch in vitro, providing a new method for the synthesis of GDP-L-fucose from starch-based renewable resources in vitro.
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Proteomic Analysis of Three Kelp Polysaccharides Metabolized by Microbulbifer sp. ALW1 Based on Two-Dimensional Gel Electrophoresis and Mass Spectrometry

LI Hebin, WU Ting, HONG Xuan, Huang Xiumei, XIONG Weide, NI Hui, ZHU Yanbing

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In order to elucidate the molecular mechanism of kelp polysaccharides metabolism by Microbulbifer sp. ALW1 with kelp-degrading ability, the proteome of kelp polysaccharides metabolism by this strain was studied in this study. Two-dimensional gel electrophoresis (2-DE) and mass spectrometry (MS) were utilized to identify the differential proteins of strain ALW1 metabolizing three kelp polysaccharides (laminarin, fucoidan, and pectin). The results of two-dimensional gel electrophoresis revealed 202 differentially expressed protein spots, and 161 proteins were finally identified using mass spectrometry. Cluster analysis showed that a total of 35 up-regulated proteins were identified in intracellular proteins cultured with laminarin as a carbon source compared to those cultured with fucoidan and pectin. A total of 88 up-regulated proteins were identified in intracellular proteins cultured with fucoidan as a carbon source compared to the other two protein samples. A total of 68 up-regulated proteins were identified in intracellular proteins cultured with pectin as a carbon source compared to the other two protein samples. GO analysis showed that differentially expressed proteins were mainly concentrated in cell and cell part in terms of cellular component, mainly concentrated in catalytic activity and binding function in terms of molecular function, and mainly involved in cellular process and metabolic process in terms of biological process. The proteomic study on the metabolism of different kelp polysaccharides by Microbulbifer sp. ALW1 lays a theoretical foundation for the molecular mechanism of polysaccharides metabolism by this strain and the production of kelp low molecular weight polysaccharides and oligosaccharides using this strain.
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Screening for recombinant xylanase strains and comparative analysis of their secretory expression

张会, 樊俊博, 马佳欣, 邵志伟, 李杰

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To further enhance the secretion and expression of xylanase (Xylanase, XynB), the locus of glucoamylase（Glucoamylase, GlaA）with endogenous high-expression of Aspergillus niger was utilized as the target site for gene integration. Based on the strong promoter of the six copies of the glaA gene, the expression and secretion of xynB were regulated by the signal peptide SglaA from glucoamylase and the signal peptide SpepB from acid protease B (Acid Protease B, PepB), respectively. Additionally, the impact of deleting the high-background protein acid-stable alpha-amylase （Acid-stable alpha-amylase, AsAA）on XynB secretion was also investigated. The results indicated that the recombinant strains TgX, TpX, ΔAgX, and ΔApX all displayed distinct XynB protein bands at approximately 22 kDa. Notably, the xylanase activity of strain ΔApX (21413.74 U/mL) was elevated by 70.67%, 14.92%, and 35.42% compared to strains TgX, TpX, and ΔAgX, respectively. The signal peptide exerts no significant effect on the transcription levels of the xynB gene and UPR marker genes. The absence of high-background protein AsAA can enhance the transcription level of the xynB gene and facilitate the folding and secretion of the recombinant protein, threrby alleviating endoplasmic reticulum stress. In summary, this study successfully optimized and enhanced the expression of XynB in Aspergillus niger through the utilization of efficient secretion signal peptides and the deletion of high-background proteins, thereby establishing a foundation for further continuous improvement of XynB.
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Analysis of the structure, physicochemical properties, and digestibility of pea starch before and after microwave treatment

WANG Jiameng, SUN Huijun, XU Yixuan, ZHOU Yibin, YU Zhenyu

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This study used pea starch (PS) as raw material and subjected it to microwave treatment at 280W for 30s, 60s, 90s, and 120s, respectively, to investigate the effects of microwave treatment on the various characteristics of pea starch. The results showed that with the extension of microwave treatment time, pea starch particles absorbed water and expanded, and the particle size increased; The half width of the Raman spectrum at 480 cm-1 increased from 16.20 to 20.57, the infrared absorption peak ratio R1047/1022 decreased from 0.581 to 0.385, the crystallinity decreased from 23.74% to 8.46%, and the short-range ordering decreased; In terms of hydration properties, the water absorption index, swelling degree, and cold water solubility of pea starch significantly increased, while the gelatinization parameters of starch decreased significantly and the enthalpy value decreased to disappearance. After microwave treatment, the polarization characteristics of starch gradually disappeared, and the storage modulus and loss modulus both decreased, with the RS content dropping to 10.09%.
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The Inhibitory Effect of Xanthine Oxidase Activity of Tartary Buckwheat Flavonoid and the Molecular Mechanism in Vitro

Li Shu-Guo, GUO Mengmeng, LU Hang, CHANG Dingxin, LIU Jintao, YU Fan

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In this paper, we investigated the inhibitory effect and mechanism of tartary buckwheat flavonoids on xanthine oxidase, a key enzyme of uric acid metabolism, in order to evaluate its potential as a natural inhibitor. The inhibitory effect of tartary buckwheat flavonoids on xanthine oxidase was studied by enzyme inhibition experiments. The semi-inhibitory concentration IC₅₀ value of tartary buckwheat flavonoid was 0.83 mg/mL, and the inhibition rate was (54.3 ± 1.3%) when the concentration of tartary buckwheat flavonoids was 1.0 mg/mL. Tartary buckwheat flavonoids had a good inhibitory effect on xanthine oxidase activity, and its inhibition type was reversible mixed inhibition. The inhibition mechanism of xanthine oxidase activity by rutin and quercetin, the main components of tartary buckwheat flavonoids, was studied by molecular docking and kinetic simulation. The results of molecular docking showed that rutin and quercetin were mainly bound to xanthine oxidase amino acid residues,such as SER1074, GLN1016, ASN768 and ASP872, through hydrogen bonding, water bridge and hydrophobicity, and the binding free energy was -26.42 kcal/mol and -27.70 kcal/mol, respectively. The low binding free energy indicated that rutin and quercetin were more stable in binding to xanthine oxidase, which effectively inhibited their catalytic purine oxidation to uric acid, and had a positive effect on regulating uric acid metabolism and preventing hyperuricemia and gout.
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Comparison of biological activity of royal jelly protein under different enzymatic hydrolysis methods

Li Zhenzhu, Feng Yinan, Zheng Wentao

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Royal jelly is rich in nutrients and high in protein content, which is an important source of bioactive peptides. In order to explore the effects of different enzymatic hydrolysis methods on the antioxidant and hypoglycemic activities of royal jelly proteins, royal jelly was used as the raw material, and the crude protein of royal jelly was extracted by the ammonium sulfate precipitation method. W-WSPs, Y-WSPs, and WY-WSPs were prepared through different enzymatic hydrolysis processes (using pepsin, trypsin, and a combination of pepsin and trypsin respectively). The unhydrolyzed crude protein was used as the control, and the hydroxyl radical scavenging rate, DPPH free radical scavenging rate, and α-glucosidase inhibition rate were employed as evaluation indicators to assess the differences in antioxidant and hypoglycemic activities. The thermal stability and acid-base stability of the activity were evaluated according to different temperatures and pH values.It was shown by the results that the three crude extracts were determined to be non-toxic to cells. Among them, it was found that better antioxidant activity and α-glucosidase inhibitory activity were exhibited by WY-WSPs. The scavenging rates of hydroxyl radical and DPPH radical of WY-WSPs were measured to be 48.54% and 41.59%, respectively, and the inhibition rate of α-glucosidase by WY-WSPs was determined to be 50.75%. Certain thermal stability and acid-base stability were possessed by it. Among them, under the same conditions, higher hydroxyl radical and DPPH radical scavenging rates, as well as a higher α-glucosidase inhibition rate, were exhibited by WY-WSPs, and stronger stability was also demonstrated by them.
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Effect of probiotic fermentation of soft date Actinidia arguta Juice on active ingredients, antioxidant properties and their differential metabolites

Guo Haoxin, Lei Yusheng, Liu Dejiang, 杨成君

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In order to develop new functional foods with higher nutritional value and antioxidant function, the paper used probiotic fermentation of Actinidia arguta juice to investigate the effects of the main active ingredients, anti-oxidant activity and their metabolism of different metabolites in metabolomics before and after fermentation. The experimental results showed that the probiotic fermentation could significantly increase the contents of bioactive components of A. arguta, and the contents of total phenols, flavonoids, and ascorbic acid reached the peak at 48h of fermentation, which were 4.52 mg·g-1, 4.12 mg·g-1, and 80.38 mg/100g, respectively, and were enhanced by 25.91%, 32.90%, and 36.24% compared with those before the fermentation; and the antioxidant properties were enhanced synchronously. The DPPH radical scavenging rate was elevated to 87.55%, and the hydroxyl radical scavenging rate and ABTS+· scavenging rate were both increased by more than 50% compared with the pre-fermentation period; metabolomics analyses detected a total of 446 significantly different metab-olites, mainly lipid and lipid-like molecules, organic oxides and organic acid compounds; lipid molecules can be absorbed efficiently by the human bacterial flora and provide energy, and organic acids promote the absorption of trace elements, which can have a positive effect on improving appetite and digestion. The use of A. arguta as a substrate for probiotic fermentation not only enhances its antioxidant capacity, but also optimizes the flavor and nutrient composition through metabolites, which provides a scientific method for developing high quality of probiotic-fermented juices, and provides a theoretical basis for their industrial production.
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Extraction and Antioxidant Activity Evaluation of Total Flavonoids from Pandanus amaryllifolius Roxb

huangyuhua, zhang meng meng, xinxuan, baiweidong, wangwe, renwenbin, zhaowenhong, lijiawei

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P. amaryllifolius Roxb. flavonoids are considered to have better biological activity and potential for application. To explore the extraction process and composition and antioxidant activity of total flavonoids from Pandanus amaryllifolius Roxb. leaf, this experiment employed ultrasound microwave assisted extraction technology. The optimal extraction conditions were determined using single-factor experiments combined with response surface methodology, the composition of extracts total flavonoids were analyzed by high-performance liquid chromatography-tandem mass spectrometry. The antioxidant activity of the extracted flavonoids were evaluated through DPPH and ABTS+ radical scavenging assays, oxidative radical scavenging tests, and intracellular antioxidant assays. The results indicated that the optimal extraction conditions were: ethanol concentration of 74% (V/V), liquid-to-material ratio of 1.5:1 mL·g-1, extraction temperature of 61 ℃, microwave power of 530 w, ultrasonic power of 350 w, ultrasound and microwave time of 20 min, and total extraction time of 25 min. Under these conditions, the extraction yield reached 12.14 mg·g-1. It was identified to contain 22 flavonoids, such as quercetin, rutin, and nobiletin. The flavonoids from P. amaryllifolius Roxb. leaf exhibited potent antioxidant capacity, effectively scavenging both DPPH and ABTS+ radicals, with IC50 values of 54.4 and 141.3 μg·mL-1 respectively. Additionally, the flavonoids from P. amaryllifolius Roxb. leaf showed significant potential in mitigating radical-induced oxidative stress and reducing intercellular reactive oxygen species. This experiment provides technical support for the extraction and application of P. amaryllifolius Roxb. leaf flavonoids.
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Research Progress on Se-Containing Polysaccharides from Edible Mushrooms

李楠楠, 林群英, 姚正颖, 孙力军, 金敬红, 白新宇, 王潇潇, 吴亮亮

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Edible mushrooms are large fungi with both medicinal and food values, rich in polysaccharides, proteins, vitamins, trace elements, and other nutrients, of which edible mushroom polysaccharides have attracted increasing attention from functional food and pharmaceutical researchers due to their anti-tumour, hypoglycaemic, antioxidant, immunomodulatory and other properties. Selenium-polysaccharide complexes, formed by combining selenium with polysaccharides not only retained the original structure and functional properties of the polysaccharides but also further enhanced their biological activities through the introduction of selenium, suggesting broader application prospects. This paper systematically reviews the isolation and purification methods, structural characteristics, and biological activities of selenopolysaccharides from edible mushrooms. Additionally, it examines their potential applications in functional foods and outlines prospects for developing selenopolysaccharides. The paper identifies current research gaps and provides a theoretical foundation for elucidating the structure–activity relationships and underlying mechanisms. It also provides new ideas for the innovative research and development of their functional products. It is hoped that this research will provide a theoretical basis for understanding the conformational relationship and bioactivity mechanism of selenopolysaccharides in edible mushrooms. Furthermore, we aim to provide novel perspectives for the development of selenium-enriched functional products.
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Dynamic Changes in Fermentation Process and Microbial Community of Ciba Chili Paste

LI Aimeng, JIA Lirong

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In order to optimize the existing technology of the commissioned enterprise, the 120 d fermentation process and microbial community changes of Ciba chili paste were studied. The dynamic changes of total acid, pH, electronic nose response value, and viable microbial counts during the fermentation cycle were analyzed, combined with metagenomic analysis to elucidate the microbial community succession. The results showed that the pH was decreased from 4.73 to 4.11, and the total acid content was increased from 8.28 g·kg-1 to 13.53 g·kg-1 during fermentation process. The response values of all electronic nose sensors were decreased significantly after fermentation. The numbers of lactic acid bacteria, bacteria, and yeasts increased to 5.45, 5.51, and 2.79 lg CFU/g in the middle stage of fermentation, while the number of molds peaked at 2.16 lg CFU/g in the early stage. At the final stage, the numbers of lactic acid bacteria and bacteria decreased to 5.21 and 5.35 lg CFU/g respectively and stabilized, while yeast and mold counts dropped to below 10 CFU/g. The dominant microbial community in the fermentation of Ciba chili paste was shown by α-diversity analysis to be bacteria, with the dominant genera in the early stage of fermentation being identified as Staphylococcus, Leuconostoc, Lactiplantibacillus, Bacillus, and Weissella, while Fructilactobacillus was found to dominate in the late-middle stage. The fungal community was characterized by Zygosaccharomyces, Aspergillus, Starmerella, and Wickerhamiella as the predominant genera collectively involved in the fermentation process. The findings provide a theoretical basis for optimizing the production process of Ciba chili paste and developing fermented hotpot base.
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Research Progress on Aerobic Respiration Metabolism of Lactococcus lactis Based on Heme

Zhang Yue

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Lactobacillus lactis, a major genus of lactic acid bacteria, is widely used in the food industry as a representative facultative anaerobic bacterium due to its recognised safety, relatively simple metabolic pathways, small genome size, and absence of endotoxins. With the rapid development of synthetic biology, the potential of L. lactis as a safe chassis microorganism has been increasingly recognised, and its metabolic regulatory mechanisms, particularly those related to aerobic respiration, have attracted growing attention. This paper provides an overview of recent research progress on aerobic respiration in L. lactis under conditions of heme addition and aeration. It focuses on the effects of oxygen on respiratory metabolism, the composition and mechanisms of the aerobic respiratory chain, the key role of heme in aerobic respiration, and related metabolic processes such as carbon and nitrogen metabolism in L. lactis involving heme. It also discusses the application prospects of aerobic respiration in L. lactis for food fermentation and biomedicine, This study aims to provide a reference for future collaborative research on the aerobic respiratory metabolism and fermentation of L. lactis, as well as its industrial applications.
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Effect of Gas Permeability of the Modified Atmosphere Packaging Film on Eggplant Quality During Low-temperature Storage

罗静红, 陈晴, 蔡鹏, 唐月明, 杨艺雯, 罗芳耀, 高佳

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This study aimed to investigate the effects of packaging bags with different gas permeability parameters on the quality changes of eggplants during postharvest low-temperature modified atmosphere packaging (MAP) storage, and to identify suitable packaging film materials for eggplant preservation under cold storage. Five types of high-density polyethylene (HDPE) bags (20 cm×50 cm) with varying permeability parameters were used to seal and store eggplants at (12±0.5)℃ for 30 days. Changes in gas composition (O2 and CO2) inside the packaging, peel hardness, flesh color difference, sensory evaluation scores, and the activities of peroxidase (POD), catalase (CAT), and polyphenol oxidase (PPO) were measured during storage. The results showed that the permeability parameters of the packaging film significantly influenced all measured indicators during postharvest MAP storage. The packaging with O2 and CO2 permeability parameters of (4623 ± 834) cm3/m2·d·0.1 MPa and (18033 ± 3356) cm3/m2·d·0.1 MPa, respectively, achieved relatively stable gas levels (O2:4.94%-6.29%;CO2:4.16%-4.62%) within 10 days of storage. After 30 days, this treatment maintained the highest appearance index (66.11), lowest decay index (18.75), and lowest chilling injury index (7.50). It also preserved peel hardness and flesh color (Hue value), sustained POD and CAT antioxidant enzyme activities, and suppressed PPO activity within a low range.This packaging film can be used as a suitable MAP material combined with low-temperature storage to extend the postharvest freshness period of eggplants.
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Biotechnological Utilization of Avian Blood Protein and Its Industrial Development Trends

zhong qiu xia, yang huai gu

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Avian blood protein (ABP), recognized as a high-value animal protein source characterized by rich amino acid profiles, has emerged as a valuable bioresource with broad cross-industrial applications. This paper outlines the nutritional characteristics of ABP and reviews how fermentation, enzymatic engineering, and heme purification techniques enhance its flavor, bioavailability, and functional activity during processing. Based on this analysis, it summarizes current industrial applications of bio-utilization technologies in the food, feed, and biomedical sectors, highlighting their economic, social, and ecological values. Furthermore, the paper examines existing research limitations and gaps to prospect future development trends in ABP bio-utilization, including value enhancement through innovative processing methods and novel strategies, thereby establishing a scientific foundation and offering practical guidance for advancing related industries.
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Research Progress on Deep Processing of Nut Meal and Development of Meal Protein

Zhouyirun, zhaochen, miaozhankun, liuhaoyu, liumanshun, lianglisong, wangxin

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The rapid development of the worldwide nut business is being accompanied by the growing problem of "increasing production without corresponding income growth". Consequently, "intensive processing" has emerged as a pivotal driver for the transformation and upgrading of the nut industry in recent years. As a potential bulk oilseed resource rich in oils and proteins, nut-derived products such as walnut oil and plant-based nut milks have become key focuses of intensive nut processing. Meanwhile, the comprehensive utilization of nut meal—the primary byproduct of nut processing—has become a critical bottleneck constraining industry development.This study centers on four major nut meals—walnut, almond, cashew, and hazelnut—and conducts a comparative analysis with conventional oilseed meals to elucidate their nutritional profiles and development potential. It systematically reviews current utilization approaches for nut meals, including applications in animal feed, functional food ingredients, and bioactive compound extraction. As the primary nutritional component in nut meals, meal proteins exhibit significant development potential and application value. Therefore, this paper comprehensively examines research progress in protein extraction techniques, processing methods, functional properties, and safety characteristics, identifying key challenges and future research directions.In summary, nut meal represents a high-value byproduct with broad prospects for future development and application, positioning it as a crucial catalyst for advancing the transformation and upgrading of the nut industry.
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Progress in Research and Application of Antibacterial Packaging Film Based on Starch/Polyvinyl Alcohol

DongMengXuan, 孟令伟, 张丽媛

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The antibacterial packaging film based on starch and polyvinyl alcohol has good antibacterial and biodegradable properties, and has become a current research hotspot in the field of active packaging. However, it has some problems such as insufficient mechanical properties, poor water resistance, migration of antibacterial agents, and poor environmental adaptability, which limit its application in food and medicine. The research progress on the influence of starch type and polyvinyl alcohol modification on the comprehensive performance of antibacterial packaging films were introduced, and the controlled release mechanism and methods of antibacterial active ingredients in antibacterial packaging films and the application of antibacterial packaging film based on starch and polyvinyl alcohol in the storage and preservation of fruits, vegetables, and meat products were elaborated in this article. Intelligent active packaging materials have broad development prospects. In the future, research on multifunctional composite antibacterial packaging materials will help improve the indicative, stable, and slow-release control properties of antibacterial packaging films, which are conducive to the sustainable development of the packaging industry and provide new strategies for the application of green packaging materials in the food and pharmaceutical fields.
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Synergistic High-Value Conversion of Multi-Components in Vinegar Residue for the Preparation of Xylo-oligosaccharides, Humic-like Acids, and Hydrochar

liu yining

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To enhance the high-value utilization of vinegar residue, a by-product of the brewing industry, and to explore the potential for functional material development, a combined process of organic acid-catalyzed hydrothermal pretreatment and alkali-assisted hydrothermal carbonization was systematically investigated. The effects of temperature, acid concentration, and reaction time on xylan degradation and the yield of xylo-oligosaccharides (XOS) were firstly investigated. It was found that with increasing reaction intensity, the XOS yield exhibited a trend of first increasing and then decreasing. Through response surface methodology optimization, the optimal conditions were determined to be 82.5°C, 4.7% acid concentration, and 3?h reaction time, under which the XOS yield reached 22.28%. The obtained products presented low polymerization degree, high purity. The overall retention rate of amino acids during the hydrolysis process under optimal conditions was 61.42%. Subsequently, hydrothermal carbonization (HTC) treatment under conditions of 0.9?mol·L-1 alkali concentration, 200°C, and 13?h was conducted, and yields of humic-like acid (HLA) and fulvic-like acid (FLA) reached 21.78% and 45.84%, respectively, with a hydrothermal carbon yield of 13.92%. Structural analysis indicated that HLA possessed higher aliphatic content and longer side chains compared to commercial humic acid, and the hydrothermal carbon displayed a compact, ordered layered structure. In summary, this process achieved multi-component high-value co-utilization of vinegar residue, improved resource efficiency, and reduced environmental risks, thus laying a solid technical foundation for the resource utilization and functional material development of brewing by-products.
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Screening Proteases for Collagen Tripeptide Production Using Molecular Simulation Techniques

张薄博

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To screen proteolytic enzymes capable of efficiently degrading collagen, molecular docking and molecular dynamics (MD) simulations were first employed to virtually screen proteases for hydrolyzing tilapia collagen powder. The degree of hydrolysis (DH), molecular weight distribution, kinetic constants, and molecular interaction mechanisms were subsequently determined. Results revealed that the binding energies for the three proteases exhibiting favorable collagen hydrolysis—alkaline protease, bovine trypsin, and neutral protease—were -7.09, -6.74, and -6.62 kcal·mol?1, respectively. Enzymatic hydrolysis assays demonstrated that the alkaline protease exhibited superior hydrolytic activity towards tilapia collagen powder under optimal conditions (pH 9.0, 50°C), achieving a DH of 30.22%. The hydrolysates had an average molecular weight of 548.23 Da, with collagen tripeptides (CTPs) accounting for 51.34% of the total. The Michaelis constant (K?) and maximum reaction velocity (V???) were determined as 4.26 mg·mL-1 and 1.16 μg·(min·mL)-1, respectively. outperforming both the neutral protease and trypsin. MD simulations over 50 ns indicated that the complex 1AH2-GPH (alkaline protease) reached equilibrium after 15 ns, with the root mean square deviation (RMSD) fluctuating around 0.175 ?. This complex maintained an average of 4 hydrogen bonds and a stable radius of gyration (Rg) of approximately 1.67 nm. In contrast, complexes 1NPC-GPH and 3MFJ-GPH exhibited less stability. These findings indicate that the alkaline protease identified through virtual screening exhibits high affinity and specificity for tilapia-derived protein, providing important reference for the production of collagen tripeptides.
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Optimization of Ingredients and Processing Technology for Prefabricated Twice-Cooked Pork Based on Sensory Evaluation

HUANG Ruihan, LEI Chunxiao, XING Yage, ZHOU Qiaoli, XU Qinglian, LIU Hong

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Using pre-prepared twice-cooked pork as the raw material, the ingredients and optimal processing conditions for pre-prepared twice-cooked pork were investigated. To enhance the sensory quality of pre-prepared twice-cooked pork and achieve standardization in industrial production, this study systematically optimized its ingredients and process parameters through the fuzzy mathematical evaluation method and the response surface methodology. In the experiments, stir-frying time, the amount of added side dishes, the amount of added oil, and the amount of added sauce were taken as key variables. The appropriate ranges of each factor were determined through single-factor experiments, and their interactions were analyzed using the response surface methodology. The results indicated that the optimal processing conditions were as follows: a stir-frying time of 154 s, a side dish addition amount of 54% (volume fraction), an oil addition amount of 22%, and a sauce addition amount of 24%. A weight analysis was conducted on the sensory quality of pre-prepared twice-cooked pork, with the weight set K = (color 0.19, aroma 0.22, taste 0.32, texture 0.27). Under these conditions, the fuzzy mathematical sensory score was 89.72 from the predicted value. The validation experiments confirmed the reliability of the model. This study provides scientific process parameters and theoretical foundations for the industrial production of pre-prepared twice-cooked pork, holding significant importance for improving product quality and achieving standardized production.
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Research Progress of Marine-derived Active Substances in Alleviating Hyperuricemia

LU CHENYANG, WANG LULU, MENG PENGFEI, WANG YANXIN, ZHONG YUZHEN, CHEN XIAOLONG

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Hyperuricemia is a metabolic disease related to the disorder of uric acid metabolism and is closely associated with an increased risk of cardiovascular diseases, metabolic disorders and kidney complications. With the improvement of people’s living standards and the change of dietary habits, hyperuricemia has become a globally prevalent metabolic disease. The "blue" active substances refers to the natural active compounds derived from marine organisms, which exhibit anti-inflammatory, antibacterial, anti-oxidant, anti-hyperuricemia, anti-cancer, and anti-coagulant properties. Compared with clinical drugs, the "blue" active substances with anti-hyperuricemia activity have received widespread attention, due to their advantages such as excellent activity, high safety and fewer adverse effects. As we know that various "blue" active substances show anti-hyperuricemia activity, including polysaccharides, polyphenols, peptides and saponins. This article reviews the metabolic pathways of uric acid, functional models for screening and evaluation of uric acid-lowering substances, and the structure, function and mechanism of "blue" substances with anti-hyperuricemia activity, aiming to provide a theoretical basis for development of anti-hyperuricemia functional foods.
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Optimization of Extraction, Composition, and Functional Activity of Bound Polyphenols in Red Rice Bran Dietary Fiber

GUYue, Yu Qiang

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The extraction method for bound polyphenols (BP) from red rice bran dietary fiber (RBDF) was optimized, the chemical composition of RBDF-BP was characterized, and the functional activities of RBDF-BP were evaluated. The extraction conditions were optimized through single-factor experiments combined with a Box-Behnken response surface methodology. It was demonstrated that alkaline hydrolysis was more effective than acid hydrolysis in releasing RBDF-BP, with a maximum total phenolic content (TPC) of 144.79 mg GAE·g-1 DM being obtained. A total of 21 polyphenolic compounds were identified by UPLC-ESI-QTOF-MS/MS, and 15 major compounds were further quantified using UPLC-ESI-QQQ-MS/MS. The in vitro antioxidant activities of RBDF-BP were comprehensively assessed via DPPH?, ABTS+?, and ?OH radical scavenging assays, in which significantly stronger antioxidant capacities were exhibited by RBDF-BP in comparison with vitamin C. Furthermore, dose-dependent inhibitory effects on both α-amylase and α-glucosidase were observed, with notably stronger inhibition against α-glucosidase (IC50=14.54 μg·mL-1). The optimal extraction process, chemical composition, and content of bound polyphenols from RBDF-BP were determined, and the antioxidant activity and hypoglycemic potential of RBDF-BP were verified, providing a scientific foundation for its application in functional foods and chronic disease prevention.
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Comprehensive Evaluation of the Antioxidant and Whitening Activities of Pearl Shell Peptides in Multiple Models: Studies in Cell, Drosophila, and Zebrafish Models

xujiaxin, huangpantian, 华南农业大学食品学院

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The antioxidant and whitening activities of pearl shell peptides were systematically evaluated using combined cellular and animal model systems to further elucidate their bioactive potential. The HepG2 cell model was employed to assess cellular antioxidant capacity and protection against oxidative damage, while a D-galactose-induced Drosophila melanogaster model was utilized to examine oxidative stress modulation. Additionally, the inhibitory effects on melanogenesis were investigated using both B16F10 mouse melanoma cells and zebrafish models. Significant intracellular antioxidant activity (EC50=0.163 mg·mL-1) was demonstrated, with 0.2 mg·mL-1 pearl shell peptides shown to restore viability of damaged cells from 80.99% to 96.55% (P<0.05). In D-galactose-treated Drosophila, remarkable enhancements were observed in superoxide dismutase (SOD) and catalase (CAT) activities (P<0.05), accompanied by reduced malondialdehyde (MDA) content. For whitening effects, melanin content and tyrosinase activity in B16F10 cells were significantly decreased by 26.47% and 29.79%, respectively, at 0.05 mg·mL-1. Corresponding reductions of 32.33% and 56.72% were recorded in zebrafish. The peptide profile was characterized by mass spectrometry, with identified sequences exhibiting strong correlation with bioactivity assessments. These findings collectively establish that pearl shell peptides possess dual antioxidant-whitening functionalities at both cellular and organismal levels. Collectively, pearl shell peptides were demonstrated to exhibit potent antioxidant and whitening activities across cellular and organismal models, establishing a scientific basis for their potential application as skin-health promoting nutraceutical ingredients.
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Preparation of Polysaccharides from Auricularia Auricula and its Application in Functional Jelly

Hui Yaoyao, Xu Yijuan, zhangting, Wang Shanshan, Yang Cong, Cui Shixiu

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In order to extend the industrial chain of Auricularia auricula and increase its added value, this paper used Auricularia auricula as the raw material to optimize the extraction process of Auricularia auricula polysaccharides, further evaluate the antioxidant, hypoglycemic and lipid-lowering activities, and develop Auricularia auricula polysaccharides jelly by using orthogonal test, texture characteristics, physicochemical indexes and microbiological indexes as evaluation indicators. The result shows that when the extraction was performed with the solid-liquid ratio of 1:70 (m/V) at 80℃ for 3 h, the polysaccharide yield was 17.93%. At a concentration of 2 mg·mL-1, the polysaccharides exhibited DPPH and ABTS free radical scavenging rates of 60.34% and 54.19%, respectively. At a concentration of 10 mg·mL?1, the inhibition rates against α-amylase, α-glucosidase, and pancreatic lipase reached 68.71%, 63.99%, and 75.49%, respectively. Additionally, at a concentration of 5 mg·mL-1, the polysaccharides demonstrated fat adsorption rates of 30.09% and 32.66% in simulated gastric and intestinal environments, respectively. Auricularia auricula polysaccharides also exhibited bile acid binding capacity. The optimized formulation for the jelly developed through orthogonal testing included: xylan at an addition level of 15% (m/V), Auricularia auricula polysaccharides at 0.5% (m/V), composite gel at 0.5% (m/V), potassium chloride at 0.2% (m/V), and potassium citrate at 0.8% (m/V). The texture characteristics of Auricularia auricula polysaccharide jelly were close to commercial jelly, the content of soluble solids was 18.7%, and the microbiological indexes conformed to national standards. This research provides theoretical support for applying active ingredients in jelly formulations.
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Determination of Sulfur Dioxide Content in Food by High Performance Liquid Chromatography Inductively Coupled Plasma Mass Spectrometry

SUN YA NAN, YOU YUN, ZHOU TAO HONG, SUN XIAO PENG, LIN JIN, ZHOU RUI, GENG YA WEN

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High performance liquid Chromatography-Inductively Coupled plasma mass spectrometry tandem(HPLC-ICP-MS/MS) method was established to determine the content of sulfur dioxide in food. Experimental parameters such as the target substance for sulfur dioxide detection and the gas flow rate in the collision cell were determined through testing. At the same time, the experimental conditions of formaldehyde absorption liquid mass concentration, injection volume, mobile phase pH value and concentration, and mobile phase flow rate were optimized. The results showed that there was a good linear relationship between the response signal of the analyte and the concentration of sulfur dioxide within the range of 0.0~20.0 mg·L-1 (R2=0.9999). The background equivalent concentration (BEC) was 7.4 μg·L-1, the detection limit was 3 mg·kg-1, and the quantification limit was 9 mg·kg-1. This method can accurately determine the residual sulfur dioxide in wine, pickled vegetables, and dried fruits. The recovery rates of different concentration samples based on yeast extract ranged from 93.0% to 105.9%, with relative standard deviations (RSD) below 5%. This method effectively overcomes complex matrix interference, shortens inspection time, and focuses on enhancing the applicability, accuracy, and sensitivity of the method, achieving precise determination of sulfur dioxide residues in food, providing efficient and convenient technical support for daily supervision, and helping to build a more complete food safety guarantee system.
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Volume 41,2025 Issue 5

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