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Study on the Ultrasonic-assisted Extraction of Total Flavonoids from Mesona chinensis and its Hypoglycemic Activity

YANG Feiran, LUO Xuanquan, 张迪

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Abstract： In the study, the extraction process of total flavonoids from Mesona chinensis Benth was optimized, and their hypoglycemic efficacy was evaluated. The optimum extraction conditions were explored by single-factor tests and response surface methodology (RSM). The optimum conditions were determined as follows: ethanol concentration 86%, liquid-solid ratio 1:18 (g·g-1), ultrasonic extraction time 36 minutes, ultrasonic extraction temperature 66°C.Under the above optimum conditions, the predictive extraction rate of total flavonoids from Mesona chinensis was 2.15%, the actual extraction rate was 2.17%, and it had a 0.93% relative error to the predictive yield. The effects of four factors on the extraction rate of total flavonoids from Mesona chinensis Benth was as follows: ultrasonic extraction time > ultrasonic extraction temperature > ethanol concentration> solid-liquid ratio, and the interaction between ultrasonic extraction time and ultrasonic extraction temperature had a significant (P<0.05) impact on the extraction rate of total flavonoids.The results of hypoglycemic test in vitro showed that the impact of 6.0 (mg·g-1) total flavonoids on the inhibition rate of α-glucosidase activity was 72.18%, and the impact of 8.0 (mg·g-1) total flavonoids on the inhibition rate of α-amylase activity was 64.57%;10 (μg·g-1) total flavonoids could significantly (P<0.05) increase the glucose consumption of Human Hepatocellular Carcinoma Cell Line cells (HepG2) , and promote the synthesis of liver glycogen (increased by 45.4%). This indicated that the total flavonoids from Mesona chinensis Benth had well auxiliary hypoglycemic effect. The results of this study can provide a theoretical basis for the exploration and utilization of the total flavonoids in Mesona chinensis Benth.
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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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Comparison of the Preservation Effect of Carbon Dioxide Content on Different Precisely Processed Pig Products

Min Chengjun, LI Hongyu, WU Xi, CHANG Guangqiang

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To ensure the edible quality of different modified atmosphere pig products during their shelf life, improve the economic benefits of modified atmosphere pig products, the effects of different carbon dioxide ratios on the quality of precision processed cold fresh pig products were studied. In this experiment, the fresh pork tenderloin, pork belly, and pork ribs were selected as the research objects to study the changes in color difference, shear force, total volatile base nitrogen (TVB-N) value, pH value, water content, and total bacterial count (CFU) of the three products during storage under modified atmosphere packaging conditions of 70 % O2 / 15 % CO2 / 15 % N2 and 70 % O2 / 30 % CO2. The experimental results showed that upon8 days of storage under the 70 % O2 / 30 % CO2 treatment：the TVB-N and lg CFU/g values of pork tenderloin were 14.63 mg/100g and 5.55, of pork belly slices were 14.95 mg/100g and 5.78. However, under the 70% O2/15% CO2/15% N2 treatment, the TVB-N and lg CFU/g values of similar products exceeded the national standard limit requirements, 70% O2/15% CO2/15% N2 treatment has a less significant impact on the brightness of the product and a significant impact on the redness value (P<0.05). The correlation between the two treatment methods on the water content of the product is relatively small. Comprehensive analysis shows that 70 % O2 / 30 % CO2 treatment can significantly (P<0.05) control the changes in the total bacterial count and TVB-N value of the product, and control the increase in pH value, which is more conducive to maintaining the quality of modified atmosphere pig products.
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Isolation, Identification and Process Optimization of Nitrite-degrading Bacteria in Low-nitrite Cured Meat from Northeastern Chongqing

Liu Qi, Zhao Chanjuan, Tan Xianxin, Chen Ruixi, Huang Lingdong, Zhu Qiuhao, Zhang Jikai, Liu Ju, Zheng Dongren, Zhao Feng

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To explore the reasons for the low nitrite content in low-nitrite cured meat from the northeastern part of Chongqing and to screen out efficient nitrite-degrading strains, and further optimize the processing technology of low-nitrite cured meat. This study determined the nitrite content of cured meat from four counties and districts in the northeastern part of Chongqing, selected low-nitrite samples for microbial analysis, and isolated dominant lactic acid bacteria; evaluated the performance of the strains through degradation experiments, and studied the effects of salt addition and curing temperature on nitrite content. The results showed that the key to the low nitrite content in low-nitrite cured meat from the northeastern part of Chongqing was the efficient degradation effect of lactic acid bacteria. Lactobacillus sakei FBG1-D33 was successfully isolated, and its nitrite degradation rate reached 95.20% within 24 hours, significantly higher than the existing reported levels. When the inoculation amount was 108 CFU·g-1, the pH value of the cured meat was 5.0 to 5.2. The optimized process parameters were: salt addition of 3%, curing temperature of 4℃, curing time of 7 days, inoculation of FBG1-D33 (108 CFU·g-1), and fermentation at 37℃ for 24 hours. The final nitrite content of the cured meat was less than 1 mg·kg-1, which was superior to similar studies. The strong degradation ability of Lactobacillus sakei FBG1-D33 combined with the optimized process parameters provided a theoretical basis and technical support for the production of low-nitrite cured meat.
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Research Progress on the Hypoglycemic Mechanism of Edible Fungal Proteins

Miao Nan, Xiao Chun, Liu Yuanchao, Hu Huiping, Wu Qingping

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Diabetes mellitus, as a common metabolic and endocrine disorder, can lead to various severe complications,impacting patients' quality of life. Although there are multiple hypoglycemic drugs available for clinical use, these medications all have varying degrees of adverse reactions. In recent years, with the deepening research on edible fungal proteins, their potential in lowering blood sugar has gradually attracted the attention of the scientific community. This article reviews the mechanisms of edible fungal proteins in regulating glucose metabolism through pathways such as modulating immunity, regulating the body's utilization of glucose, modulating insulin signaling pathways, and alleviating oxidative inflammatory responses, aiming to provide safer and more effective treatment options for patients with diabetes.
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Development of NO Donor Sustained-Release System and Its Application in Food Preservation Research Progress

Hu Zheng, Han Fangrui, Chen Die, Ma Mingzhu, Chen Yan, Luo Hongyu

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Nitric oxide (NO), as an endogenous diatomic signaling molecule, exhibits excellent preservation function in food field due to its outstanding antibacterial, antibiofilm and anti-pest properties. Although NO possesses significant physiological and biochemical functions, its further promotion and application are constrained by factors such as inherent poor stability, low utilization rate, toxicity from excessive or improper use, and associated side effects. Currently, a significant number of researchers are dedicated to the development of NO donor sustained-release vectors and systems that exhibit improved stability, higher efficiency, and enhanced safety. In this paper, the production and signaling pathways of NO are reviewed, and the design and development of various types of NO donor sustained-release systems are analyzed, as well as their practical effectiveness and application potential in food preservation across categories such as meat, seafood, fruits and vegetables are summarized. The development of NO donor sustained-release system can provide new ideas and solutions to enhance the bioavailability of NO, improve the food quality and extend its shelf life. This approach demonstrates significant potential for application in the food industry.
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Research Progress on the Composition and Biological Activity of Ferulic Acid Polymers in Whole Grains

冯芝英

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Phenolic compounds are important active components of whole grains for their health effects. In addition to monomeric phenolic acids such as ferulic acid and p-coumaric acid, ferulic acid polymers are also important phenolic active components enriched in cereal bran.Compared with phenolic acid monomers such as ferulic acid, ferulic acid polymers are more complex and special in structure, while possessing significant antioxidant activity, antibacterial activity, disease and insect resistance, and other potential health benefits.To comprehensively assess the value and potential applications of whole grain ferulic acid polymers in the field of health, this article reviews the research progress of composition, distribution of content, antioxidant activity, and in vitro colonic fermentation of whole grain ferulic acid polymers, and the research prospect was proposed to provide guidance for profound research in the field of health and reference for further promotion of the whole grain food industry.
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Research Progress of Hazards and Their Reduction in Coffee Roasting

刘贝宁, 李宏, 付晓萍, 卢开华, 刘秦明, 胡永金

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Coffee is one of the most important and widely used cash crops in the world, and is the first of the world"s top three beverages due to its unique flavor and biological functions. Roasting is a pivotal step in the formation of coffee flavor. Raw coffee beans are roasted, ground, brewed or boiled to reach consumers. While Maillard and caramelization reactions give coffee its unique flavor, hazards such as acrylamide, 5-hydroxymethylfurfural and furans are also generated, which not only affect coffee quality but also pose a threat to consumers" health. Compared with other thermally processed foods, the abatement of hazards in coffee is still a challenge. This paper describes the formation mechanism of hazardous substances in the coffee roasting process, the influencing factors and their abatement measures, and looks into the future development trend. It aims to deepen people"s understanding of hazards in coffee roasting and provide theoretical references for the green processing of coffee and the control of hazards in the roasting process.
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Potential Applications of Water Kefir in Different Fermentation Substrates

王亚妮, 汤晓娟, 李延龙, 宋国志, 林祥娜

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Water kefir is a kind of non-animal source traditional fermented beverage with great development potential, which is named for its rich probiotics and beneficial substances. It can be applied to different raw material substrates, such as fruits, vegetables, cereals and teas, etc., with low sugar content, low acidity, carbonation and alcohol content after fermentation, and can be used to develop products for specific consumers, such as lactose intolerance, veganism or vegetarianism. Water kefir particle fermentation can increase the added value of products, make full use of by-products, reduce environmental pollution and crop waste. It also has great development potential in terms of functional activity, and can be used for disease prevention and treatment and health care. The co-culture mode of yeast and lactic acid bacteria in water kefir medium increased the number of interacting bacteria, which described that the interaction between strains in water kefir granules was mutually beneficial. In this paper, the physiological function, formation mechanism, fermentation type and microbial species of water kefir were reviewed to clarify the significance and application prospect of developing functional water kefir fermented beverage. Moreover, different fermentation substrate types at home and abroad were summarized to provide reference value for the development of new fermented beverage and functional product according to their physical properties and microbial species.
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The protective effect of highly oxygenated water on the acutely hypoxic mice

李安宁, 胥亮, 陈小庆, 熊黎, 杨东梅, 高鸿, 黄毅娜

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In order to investigate the protective effect of highly oxygenated water on on the brain tissue of acutely hypoxic mice, 80 female Kunming mice of SPF level were randomly divided into the control and the highly oxygenated water groups. After 30 days of treatment, they were randomly divided into four groups with 10 mice in each group, respectively, of which three groups were used to determine the survival time in the atmospheric hypoxia experiment, sodium nitrite poisoning experiment, and acute cerebral hypoxia experiment. Additionally, brain tissue samples from the remaining 20 decapitating after atmospheric pressure hypoxia died, to detect the contents of HIF-1α and VEGF, the levels of protein expression, and mRNA of HIF-1α, VEGF, and AMPK. The results show that, compared to the control group, the survival time of the three hypoxia experiments in the highly oxygenated water group was extended by 6.79%, 28.02%, and 10.83%, respectively. Furthermore, there was a significant reduction in the content of HIF-1α (P < 0.05) and VEGF (P < 0.01), and the protein expression of HIF-1α and VEGF was down-regulated (P < 0.05). Moreover, HIF-1α mRNA levels significantly increased (P < 0.01). These results suggest that intake of highly oxygenated water can promote the rapid adaptation of cells and tissues to hypoxia by consuming HIF-1α during acute hypoxia, at the same time regulate the transcription process of HIF-1α, and exert a multi-directional hypoxia tolerance effect. Conclusion: Short-term consumption of highly oxygenated water has a protective effect on the brain tissue of acutely hypoxic mice.
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Characterization of Beef Tallow Flavor based on Controlled Oxidation-Maillard Reaction

funa, wanghongqiang

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Refined beef tallow was used as a raw material and processed using enzymatic digestion, aeration oxidation, and the Maillard reaction to investigate the effects of controlled oxidation and the Maillard reaction on the quality of beef tallow, including acid value, peroxide value, and volatile components. The results showed that the acid value of the original beef tallow was 1.22 mg/g and the peroxide value was 0 g/100 g. The acid value and peroxide value of the original beef tallow were increased after processing by oxidation and the Maillard reaction. The results of the sensory evaluation showed that moderate oxidation in combination with the Maillard reaction reduced off-flavors and acidity and enhanced the meaty, roasted, and caramelized flavors of the beef tallow. Beef tallow oxidized at higher temperatures (160, 180, 230 °C) contain a greater variety of volatile components than those oxidized at lower temperatures (130, 140, 150 °C). After Maillard reaction, the content of some aldehydes was reduced or even not detected, such as 2-hexenal, trans-2-heptenal, (E, E)-2,4-heptadienal, (E, E)-2,4-nonadienal. The results of principal component analysis showed that the 6 samples of oxidized beef tallow, and the 6 samples of oxidation-Maillard reaction co-treated beef tallow, cab be classified into four distinct groups. The results of partial least squares regression analyses indicated that beef tallow treated by oxidation at 150~180°C and Maillard reaction has better roasted nutty, caramelized and meaty flavors. In conclusion, the combination of oxidation at 160~180 ℃ and Maillard reaction can improve the flavor quality of beef tallow. The study may provide a theoretical basis for controlled oxidation and Maillard reaction in the manufacture of high-value beef tallow flavors.
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Tricholoma Matsutake Extract Improves Cognitive Impairment in AD Model Mice and Its Mechanism

王洋, 李金壁, 刘夫锋

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To investigate the protective mechanism of Tricholoma Matsutake extract (TM) on AD mice, an AD mouse model was established using brain injection of Aβ42 oligomers, and behavioral, neuroinflammatory, oxidative stress, and gut microbiota-related indicators were assessed. The findings demonstrated that 2g/kg TM significantly improved behavior and cognitive impairment. Pathological markers of AD, including inflammatory factors TNF-α, IL-1β, and MDA, were elevated in the model mice. However, these changes were reversed by the upregulation of the anti-inflammatory factor IL-10 and the antioxidant enzymes SOD and GSH. Compared to the model group, the expression levels of inflammatory factors TNF-α and IL-1β were significantly reduced by 53.98% and 53.41%, while the levels of antioxidant enzymes SOD and GSH increased significantly by 88.46% and 40.24%, respectively. Additionally, TM inhibited the activation of microglial cell marker IBA-1 and astrocyte marker GFAP, with expression levels significantly decreased by 61.39% and 55.82%. These results indicate that TM improves neural damage by reducing neuroinflammation and oxidative stress.16S rRNA sequencing results indicated that TM effectively restores dysbiosis in AD mice, significantly increasing the relative abundance of SCFA-producing genera such as Lachnospiraceae, Lactobacillus, and Prevotellaceae, while significantly decreasing the abundance of the inflammation-related Proteobacteria. The adjustment of the Firmicutes/Bacteroidetes (F/B) ratio further suggests that the imbalance of gut microbiota has been ameliorated. In summary, TM was found to effectively improve neuroinflammation, reduce oxidative stress, and restore gut microbiota dysbiosis, which collectively enhanced cognitive function in AD mice. Based on these findings, TM shows great potential in the treatment of AD.
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Effect of Citronella Essential Oil on Bud Inhibition and Reactive Oxygen Species Metabolism in Stored Potatoes

Zhang Qianqian, 关文强, 林琼, 何兴兴, Wang Fengling

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In order to explore the effect of citronella essential oil (CEO) fumigation on postharvest potato storage bud inhibition and reactive oxygen species metabolism mechanism. “Inner Mongolia V7” potato was used as the test material, and the self-made fumigation device was used to fumigate the potatoes regularly for 6 h at 20±2 °C, and the germination inhibition effect and reactive oxygen species metabolism indexes were measured every 14 days. The results showed that after 70 days of potato storage, the germination rate and weight loss rate of the CEO treatment group were reduced by 100.00% and 28.30% relative to the control group. The respiration intensity of potatoes treated by CEO was lower than that of the control group before storage, but higher than that of the control group after 42 days of storage. CEO treatment reduced the hydrogen peroxide content and the rate of superoxide anion radical generation in potatoes after 70 days of storage, they were 38.32% and 59.02% lower than those in the control. CEO treatment increased the activities of catalase, ascorbate peroxidase, peroxidase and superoxide dismutase during potato storage, and the effects of catalase and ascorbate peroxidase were significant (P<0.05). In conclusion, CEO treatment can increase the activity of antioxidant enzymes in potato tubers, reduce the accumulation of reactive oxygen species, effectively prolong the storage period of potatoes, inhibit potato germination, and have the potential to be applied in improving potato storage quality.
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Research progress of biosensors in the detection of fat soluble vitamins

聂嫒嫒, 邱满艳, 赵倩玉, 王旭, 满朝新, 姜毓君, 裴晓燕, 郭鸰

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Fat-soluble vitamins are essential micronutrients for human growth and development, and fat-soluble vitamin deficiencies pose a serious threat to human health. Furthermore, the most of fat-soluble vitamins cannot be synthesized in the human body and must be obtained from external sources. Therefore, the rapid and sensitive detection of fat-soluble vitamins is crucial to ensure the safety of vitamin intake. Although traditional methods (such as high-performance liquid chromatography (HPLC), high performance liquid chromatography and tandem mass spectrometry (LC-MS), and supercritical fluid chromatography (SFCS)) has the advantages of high selectivity and sensitivity. Nevertheless, the disadvantages of complex sample pre-treatment, time-consuming, and reliance on large-scale instrumentation have limited the applicability of traditional methods in the rapid detection of fat-soluble vitamins. Recently, biosensors have been applied to the detection of fat-soluble vitamins due to their high specificity, high sensitivity, low cost, on-site analysis, and ease of handling. This review first summarized the physiological functions of common fat-soluble vitamins. Secondly, the advantages and disadvantages of traditional methods and biosensors for detection of fat-soluble vitamins were discussed. Finally, the latest research progress of biosensors in the detection of fat-soluble vitamins was comprehensively summarized and discussed. This paper mainly summarizes the biological components, linear sensing range, sensitivity and detection limit of lipid-soluble vitamin detection biosensors, providing reference and basis for the development of future lipid-soluble vitamin detection biosensors.
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The Change of Flavor Quality and Sensory Characteristics of ‘Huangguan’ Pear during Storage Analyzed by Partial Least Squares Regression

chenmeiyu, wangyongxia, guanjunfeng, chenghong, chengyudou, tianxiayu, zhangzishen

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In order to study the changes of flavor quality and sensory characteristics of ‘Huangguan’ pear during storage, this paper analyzes the flavor compounds affecting the changes of sensory characteristics of ‘Huangguan’ pear during storage by using flavor quality analysis and sensory evaluation combined with partial least squares regression (PLSR) method. Through 90 d cold storage and 7 d shelf-life storage, it is demonstrated that the glucose content in ‘Huangguan’ pear flesh increased from 14.73 mg/g to 18.29 mg/g, the total acid content decreases from 4.07 mg/g to 2.43 mg/g, and the content of malic acid, citric acid and quinic acid decreases from 1.98 mg/g, 1.02 mg/g, 0.82 mg/g to 1.38 mg/g, 0.64 mg/g, 0.26 mg/g, respectively; meanwhile, the content of esters, alcohols and alkenes increase and aldehydes content decrease both for ‘Huangguan’ pear flesh and peel. It is shown that the sweetness and aroma sensory attributes of ‘Huangguan’ pear increase, while the appearance, sourness and hardness sensory attributes of ‘Huangguan’ pear decrease, after 90 d cold storage and 7 d shelf-life storage by sensory evaluation results; PLSR is further used to screen the vital variables affecting the sensory attributes of ‘Huangguan’ pear. In addition, it is found that the sweetness of ‘Huangguan’ pear increases and the acidity and astringency decrease after 90 d cold storage and 7 d shelf-life storage by electronic tongue results and it is showed that the aroma characteristics of ‘Huangguan’ pear for 0 d post-storage are significantly different from the aroma characteristics of that after 90 d cold storage and 7 d shelf-life storage by electronic nose results. In conclusion, the relationships between the flavor quality and sensory characteristics of ‘Huangguan’ pear are analyzed in order to provide theoretical basis for the flavor quality evaluation.
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Optimization and quality alteration of the bacteria reduction technology for garlic slices treated by cold plasma

fengyu, Lu xiaoming, Hu yanna, Qiao xuguang

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The optimization of bacteria reduction process and quality change of dehydrated garlic slices treated by cold plasma were studied. With bacterial reduction rate as the main index and color difference as the reference index, single-factor experiments were carried out on three factors: treatment time (min), treatment height (cm) and loading (kg/m2), respectively. The response surface test design was carried out, and the optimal treatment process was obtained. The content of allicin and volatile flavor components were determined before and after cold plasma treatment. The results show that the order of influencing factors is: processing time > processing height > loading; After the response surface optimization and considering the actual production, the optimal bacteria reduction process of cold plasma treatment of garlic slices was as follows: treatment time 3 min, treatment height 3 cm, loading 1 kg/m2. Under these conditions, the bacteria reduction rate was 98.11%. The color difference is 3.14 under the optimal bacteria reduction process, and the color difference has no obvious change within the acceptable range. After treatment, the allicin content of dehydrated garlic slices increased by 31.68%; The volatile flavor components were partially decomposed and the overall content decreased. It is concluded that the cold plasma technology has obvious bacteria-reducing effect and little damage to quality, which provides a new idea and method for the bacteria-reducing technology of garlic slices.
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Analysis of Main Antioxidant Substance Contents and Antioxidant Activity of Green Tea from Different Regions in Guangxi

MENG Juan, 陆淑雯, 赖颖苗, LIU Hongcun

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By detecting the differences in the contents of 10 main antioxidant?active substances, including caffeine and epigallocatechin gallate, through high-performance liquid chromatography (HPLC), and evaluating their antioxidant capacity comprehensively by DPPH radical scavenging rate, hydroxyl radical scavenging rate, and total antioxidant capacity, this study explored the relationship between the chemical composition and antioxidant capacity of different origin green teas in Guangxi. The results showed that that the content of caffeine in tea was between 17.08 mg/g and 37.16 mg/g; the content of theobromine was around 5 mg/g; the content of theophylline was low (between 0 mg/g and 0.47 mg/g); the content of epigallocatechin gallate was between 10 mg/g and 20 mg/g; the content of epigallocatechin gallate was high, around 50 mg/g; the content of epicatechin gallate was variable, ranging from 2.14 mg/g to 21.2 mg/g; the content of epicatechin was around 5 mg/g; the content of gallic acid and epigallocatechin gallate was low (≤5 mg/g); the content of epigallocatechin gallate was basically below 2 mg/g. Combining the results of similarity evaluation and clustering analysis, green tea from the high and middle latitudes regions of Guangxi was highly similar, that could be clearly distinguished from the low latitudes regions. The DPPH radical scavenging rate of all teas was above 60%; the hydroxyl radical scavenging rate ranged from 1.68% to 85.38%; the total antioxidant capacity was between 1.644 mmol/g and 3.608 mmol/g. Overall, these results show that green tea from Guangxi has good antioxidant activity on average, and the content of polyphenols is positively correlated with its antioxidant activity. This study provides data for the quality evaluation and differential analysis of Guangxi green tea.
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Antioxidant Activity of Polysaccharide from Broussonetia papyrifera panicle and Its Protective Effect on Oxidative Damage of Human Red Blood Cells Induced by AAPH

CHEN Wenbo, ZHEN Dihui, YANG Zhihao, YANG Qiankun

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In this paper, the antioxidant activity and protective effect of polysaccharides from Broussonetia papyrifera panicle on human erythrocyte oxidative damage induced by AAPH were studied. In this study, the single factor experiment was designed with hot water extraction method and the optimal extraction process of crude polysaccharide was optimized by response surface method. The antioxidant activity and hemolysis inhibition of Broussonetia papyrifera panicle polysaccharide in vitro were studied with the scavenging rate of ABTS free radical, DPPH free radical and hydroxyl free radical, the reducing ability of Fe3+ and the protective effect on human red blood cell oxidative damage induced by AAPH. The results showed that the optimal extraction conditions were as follows: solid-liquid ratio 1:32.33 g/mL, extraction temperature 89.89oC, extraction time 116.53 min, and the yield of crude polysaccharide was 23.67%. The scavenging rates of ABTS free radical, DPPH free radical and hydroxyl free radical were 76.92%, 57.81% and 80.76%, respectively. The absorbance of the polysaccharide to Fe3+ was 1.668 at the concentration of 8 mg/mL and the wavelength of 700 nm. Red blood cell hemolysis experiment showed that polysaccharides could effectively inhibit the production of ROS and MDA in red blood cells treated by AAPH, reduce the conversion rate of GSH to GSSG, and regulate the enzyme activities of CAT, GSH-PX and SOD to normal red blood cell levels. It has been proved that the polysaccharides of Broussonetia papyrifera panicle have good antioxidant capacity and can protect red blood cells from oxidative damage caused by AAPH.
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The Effect of Different Concentration Methods on The Quality of Pear Juice Concentrate

劳颖仪, 孟千杰, 徐玉娟, 吴继军, 余元善, 邹波, 程丽娜, 温靖, 胡腾根

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The effects of vacuum concentration, membrane concentration, freezing concentration and thermal concentration on the nutrient composition and antioxidant active components of crystal pears were investigated using polyphenol oxidase (PPO), 5-hydroxymethylfurfural (5-HFM), total phenol content, titratable acid, vitamin C (Vc) and antioxidant activity as the indicators. The results showed that all four concentration methods enhanced the total phenolic content, total antioxidant activity, ABTS+ and DPPH radical scavenging capacity of pear juice; while there was no significant difference in reducing sugar content. Vacuum-concentrated pear juice had the highest sugar content (60 oBx) and showed the best antioxidant effect; however, it had higher PPO activity. Heat-concentrated pear juice had the highest total phenol content and the lowest soluble protein content (0.015 mg/mL); however, 5-HMF was generated, which was not detected otherwise. Freeze-concentration and membrane-concentration had different effects on the titratable acid and Vc contents of pear juice. The correlation analysis showed that there were different degrees of correlation between the indicators, and the cumulative contribution of the three characteristic factors extracted from the principal component analysis reached 94.53%, reflecting the comprehensive influence of multiple indicators on the quality of pear juice. The comprehensive analysis showed that the pear juice obtained from vacuum concentration had the highest comprehensive score (1.95) and had significant advantages in concentration efficiency and antioxidant activity; thermal concentration had certain advantages in improving the nutritional content of pear juice, but due to the generation of 5-HFM, its comprehensive score was the second highest. This study provides a theoretical basis for pear juice concentration and fruit deep processing.
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Analysis of the Effect of Different Grades of Pi Xian Douban Stir Fried Flavor Characteristics Based on QDA and GC-IMS

周剑琴, 易宇文, 乔明锋, 刘阳, 姜元华, 张振宇, 陈雨佳, 张浩

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To identify the changes in flavor characteristics of Pi Xian Douban (special grade, first grade, second grade) after being stir-fried, the sensory quantitative description method (QDA) and gas chromatography-mass spectrometry (GC-IMS) technology were combined to analyze the differences in flavor characteristics and flavor compounds, and to explore the taste characteristics of Pi Xian Douban after stir frying. The results indicate that the moisture content of Douban affected the formation of flavor after stir frying. QDA analysis revealed that premium Douban had the lowest moisture content, and presented good fruit, wine, malt, and roasted flavors after stir frying. The higher moisture content of first and second grade Douban results in significant differences in sensory ratings compared to premium Douban, but has a relatively small impact on the main sauce aroma of Douban. GC-IMS detected a total of 45 compounds, including 11 alcohols, 9 aldehydes, 8 esters, 6 ketones, 5 alkenes, 2 acids, 2 heptane, 1 pyridine, and 1 furan. Many compounds remain unidentified. After stir frying, the proportion of alcohols in Douban increased from 14% to 37%, and esters significantly increased from 2% to 11%. This indicates that stir frying transforms and concentrates a large amount of alcohol in Douban through the Maillard reaction, resulting in fruity, alcoholic, malt sweet, sour, and grassy aromas. High temperature stir frying also converts some aldehydes into esters and ketones, transforming the sauce aroma of Douban into burnt and greasy aromas. This study reveals the differences in volatile flavor compounds after stir frying different grades of Pi Xian Douban, which can provide technical support and guidance for the deep processing and innovative development of Pi Xian Douban.
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Optimization of Enzymatic Hydrolysis Process for Mulberry Leaf Protein Peptides and Their In Vitro Hypolipidemic Activity

LiuZhenpeng, LiHongyan, FengYu, ZhangXiaomin, LiMingxi, WuJianan, SunChongzhen

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To obtain mulberry leaf protein peptides with high lipid-lowering activity, this study used mulberry leaf crude proteins—Da10 glutelin (DSG), Da10 albumin (DS), and Tang10 albumin (TS)—as well as the ultrafiltered albumin (UDS) and glutelin (USG) as substrates. These proteins were hydrolyzed using neutral protease to produce hydrolysates NDSG, NDS, NTS, NUDS, and NUSG. The inhibitory capacities of NDSG and ADSG, the enzymatic hydrolysates obtained by hydrolyzing DSG with neutral protease and alkaline protease respectively, on pancreatic lipase (PL) and cholesterol esterase (CE)were compared. Single-factor experiments (hydrolysis time, pH, enzyme-to-substrate ratio, substrate concentration) combined with orthogonal optimization were conducted to determine the optimal extraction process for mulberry leaf lipid-lowering peptides, obtained the optimized product HDG. A NAFLD steatosis cell model was established to investigate the intracellular lipid-lowering effects of HDG through Oil Red O staining and measurements of intracellular total cholesterol (TC) and triglyceride (TG) levels. Results showed that the pancreatic lipase inhibition rate of NDSG was significantly higher than that of other groups (P< 0.05) and also higher than that of its ultrafiltration group NUDS. The cholesterol esterase inhibition rate of NDSG was significantly higher than that of ADSG, so neutral protease was selected for the optimization of enzymatic hydrolysis process. Orthogonal optimization revealed the optimal preparation conditions for the lipid-lowering peptides from mulberry leaf protein were as follows: enzymatic hydrolysis with neutral protease for 2 h, enzyme-to-substrate ratio of 4%, substrate concentration of 1%, and pH 7.5. Under these conditions, the enzymatic hydrolysate HDG had a pancreatic lipase inhibition rate of 85.68% and a cholesterol esterase inhibition rate of 69.49%. Moreover, it could significantly inhibit the accumulation of lipid droplets in HepG2 cells, reduce the intracellular contents of triglycerides (TG) and total cholesterol (TC, P< 0.05), and thus improve hepatic steatosis.
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Plant-Based Meat Substitutes: Research Progress in Raw Material Properties, Structuring Techniques, Safety Evaluation, and Future Challenges (A Review)

CHEN Sihao, ZHAO Fen, LI He, LIU Xinqi, MA Biao

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In recent years, plant-based meat analogs (PBMAs), as a core branch of alternative meat, have emerged as a global research focus within the food industry. This prominence stems from their ability to precisely emulate the sensory characteristics of animal meat using plant-derived ingredients. These products are fundamentally based on protein-lipid composite matrices extracted from legumes, cereals (e.g., wheat), and oilseeds (e.g., sunflower seeds). Leveraging structural reorganization technologies, PBMAs replicate the texture, flavor, and appearance of conventional meat, offering sustainable, plant-based dietary solutions. The rapid advancement of precision extraction techniques, molecular modification methods, and synthetic biology tools is proving decisive in enhancing the scaled production efficiency and sensory fidelity of PBMAs. Consequently, optimizing their industrial production systems has become a central research direction in the field. This review systematically synthesizes the functional properties of raw materials, mainstream production technologies (including high-moisture extrusion texturization, spun protein fiber formation, 3D printing structural engineering, etc.), and safety evaluation frameworks for PBMAs. It provides an in-depth analysis of the process mechanisms, application advantages, and implementation bottlenecks associated with various technologies, while also reviewing the technological pathways employed in typical commercialized case studies. The aim is to furnish theoretical references and technical guidance for the design of industrial processes and the optimization of production practices for PBMAs.
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Effects of Enzymatic Hydrolysis Coupled with Extrusion on the Release of Antioxidant polyphenols and Activity from Sea Rice

xuzhengang, hetianyi, wujingyuan, chentaowen, hujiarui, zhaoguanghe, liulei

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In order to study the effects of different enzymes (thermostable α-amylase, cellulase and complex enzyme) coupled extrusion on polyphenols and antioxidant activity of sea rice. Thermostable α-amylase, cellulase and the complex enzyme with enzyme concentration of 100 U·g-1 and 1000 U·g-1 were evenly sprayed on the powder of sea rice, and then processed by twin-screw extruder. Then the changes of free and bound phenolics, flavonoids, anthocyanins and antioxidant activity in sea rice were analyzed. The results showed that compared with the control group of sea rice without adding enzyme directly for extrusion, the free phenolics of the extruded sea rice with 100 U·g-1 and 1000 U·g-1 thermostable α-amylase and complex enzymatic hydrolysis increased from 95.60 mg GAE/100g DW to 110.38、176.33、108.51、195.65 mg GAE/100g DW, respectively. The free flavonoids increased from 50.42 mg CE/100g DW to 53.00、100.38、58.76、107.59 mg CE/100g DW, respectively, and the anthocyanin content increased from 5.18 μg CGE/g DW to 5.84、7.18、5.51、9.85 μg CGE/g DW, respectively. FRAP antioxidant capacity increased from 728.21 μmol Fe2+/100g DW to 754.33、882.4、764.77、929.72 μmol Fe2+/100g DW, ORAC antioxidant capacity increased from 1501.56 μmol TE/g DW to 1872.74、1925.24、1826.8、2201.48 μmol TE/g DW, respectively. In contrast, the addition of cellulase did not significantly affect the release of phenolics and flavonoids. Among them, the content of free phenolic, free flavonoid and anthocyanin increased the most by adding 1000 U·g-1 complex enzymatic hydrolysis coupled with extrusion, and its antioxidant capacity was also significantly higher than that of other groups. The aim of this study was to broaden the way of deep processing and utilization of sea rice, and to provide a theoretical basis for the development of nutritional substitute food of sea rice.
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Construction and Stability of High Loading Curcumin Pectin-Soybean Peptide-Based Nanocomposite System

Wang Biying

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As a natural occurring polyphenolic compound, curcumin exhibits notable biological activities, such as ?antioxidative, antitumor, and anti-inflammatory properties.?However, its limited aqueous solubility and low chemical stabilitysignificantly hinder its practical applications in the pharmaceutical and food industries. To address these challenges, a curcumin nanodelivery system was constructed by pH-responsive self-assembled technology based on the synergistic effects of soybean hydrophobic peptide-based aggregates and pectin. Single-factor experiments were employed to optimize the curcumin loading concentration, and the physicochemical properties and environmental tolerance of the nanocomplexes were also systematically investigated. Experimental data indicated that when the curcumin concentration was 1.5 mg/mL in a system containing soybean hydrophobic peptide-based aggregates (10 mg/mL, 10 mL) and pectin (5 mg/mL, 6 mL), the constructed nanocomplexes achieved a high encapsulation efficiency of 91.11% and a loading capacity of 17.52%, with an average particle size of 108.9 nm and a Zeta potential of -29.8 mV. Stability evaluation further demonstrated that the delivery system maintained excellent stability under near-neutral conditions (pH 6.0-7.0) and low ionic strength (1-4% NaCl), and exhibited high-temperature tolerance (70℃ for 60 min) and long-term storage stability (4℃ for 28 days). This nanodelivery system effectively enhances curcumin’s the water solubility and stability, offering new insights for its utilization in functional foods development and pharmaceutical field.
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Partridge Tea Polyphenol Extracts Attenuate D-Galactose-Induced Aging in HaCaT Cells

Chen Lu, Wang Yinhong, Hao Kexin, Zhong Ruifang, Jiang Jianguo

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The anti-aging effects of Partridge tea polyphenols were investigated by examining the protective mechanisms of its purified components (PT-1, PT-2, and PT-3) against D-galactose-induced senescence in HaCaT cells. Three polyphenol fractions were obtained through heat reflux extraction followed by purification with HPD600 macroporous resin. A cell senescence model was established, through which cell viability, SOD and CAT activities, MDA content were measured, with additional analyses of ROS levels, apoptosis and gene expression performed specifically for PT-1. Significant amelioration of senescent phenotypes was observed for all three components (100~400 μg·mL-1), among which PT-1 was found to exhibit the most pronounced effects. Under modeled conditions, cell viability was increased by up to 61.79%, while SOD activity was enhanced 22.26-fold. CAT activity was restored to 28.62 U·mg-1 protein, with concurrent reductions observed in MDA content (67.59%), ROS levels (50.25%), and apoptosis rate (45.7%). At the molecular level, PT-1 was found to upregulate SOD and CAT gene expression by 10.61-fold and 9.53-fold respectively, while downregulating Bax, Caspase-9 and Caspase-3 expression by 52.32%, 50.52% and 41.42%. Significant suppression was also observed in P53 (44.05%), P21 (52.18%), and P16 (68.33%) expression. It is indicated by these findings that anti-aging effects are exerted by Partridge tea polyphenols, particularly PT-1, through coordinated modulation of oxidative stress, cell cycle and apoptotic pathways, with a scientific basis being provided for developing anti-aging therapeutics.
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Quality Fidelity Changes of Fruit and Vegetable Gels Used For 3D Printing Under Multiple Environmental Factors Control

XU Jinjie, GUO Zhimei, PAN Yidan

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To investigate the influence of environmental factors on the quality fidelity of fruit and vegetable gel materials (pumpkin, banana, spinach) before 3D printing processing, changes in quality parameters (including colorimetric values, moisture content, total chlorophyll/carotenoids, vitamin C, total phenolic, flavonoid content, and ABTS radical scavenging capacity) of the gels were quantified under varying environmental conditions (room temperature, low temperature, high humidity, and low oxygen). These parameters were then comprehensively evaluated through principal component analysis and a quality fidelity calculation model. The deterioration of the three fruit and vegetable gels was effectively inhibited when stored under the regulation of multiple environmental factors (low temperature + high humidity + low oxygen). Retention rates of bioactive components exceeded 60% during storage. Color difference values were significantly reduced (P < 0.05). The highest composite scores were also achieved. Under the control of multiple environmental factors, the quality fidelity of pumpkin, banana and spinach was effectively maintained after 4 days of storage, reaching 72.23%, 64.83% and 68.35%, respectively. These values were over twice as high as those of the control group (32.72%, 24.27%, and 33.22%). In conclusion, the quality fidelity of fruit and vegetable gels can be successfully improved under the coordinated control of multiple environmental factors such as low temperature, high humidity, and low oxygen. This study provides a theoretical basis for the storage and fresh-keeping technology of fruit and vegetable gel raw materials.
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Differences Analysis of Non-volatile Metabolites of Fermented Mustard Inoculated with Different Microbial Strains Based on LC-MS/MS

Yang Xiaoyun, Jia Lirong

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To investigate the effects of different starter cultures on the quality of fermented mustard, Brassica juncea was used as the raw material, and three inoculated fermentation groups were established: LPMA (comprising Lactiplantibacillus plantarum, Enterococcus faecium, and Lactobacillus pentosus), LPA (L. plantarum, and L. pentosus), and LP (L. plantarum alone), with a natural fermentation group (NF) serving as the control. Non-volatile metabolites were analyzed using liquid chromatography–tandem mass spectrometry (LC-MS/MS). The LPMA group had achieved the highest sensory score (82.86). A total of 257 compounds were identified across the four groups, encompassing 11 major categories such as organic acids, flavonoids, and vitamins. Principal component analysis revealed a clear metabolic distinction between the inoculated groups (LPMA, LPA, LP) and the NF. Sixty-seven key differential metabolites were identified. Organic acids (e.g., succinic acid), umami amino acids (L-glutamic acid), esters (e.g., phenylacetic acid ethyl ester), and bioactive compounds (e.g., chlorogenic acid) were significantly enriched in the inoculated groups. In contrast, the NF exhibited higher levels of bitter compounds (4-oxoproline), biogenic amines (phenylethylamine), and potentially harmful substances (phytanic acid). Among the inoculated groups, the LPMA demonstrated the most favorable metabolic profile, with significantly higher levels of daidzein, hesperetin, β-carotene, and vitamin B2, while effectively suppressing the accumulation of phytanic acid. These findings confirm that the application of compound starter cultures can enhance the flavor, functional activity, and food safety of fermented mustard, providing theoretical support for the development of fermentation agents with improved stability and flavor harmony.
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Preparation and Structural Characterization of Perilla α-Ethyl linolenate Microencapsulated Powder

Yang Jingyao

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In order to enhance the storage stability of α-linolenic acid from Perilla, maltodextrin (MD) and soy protein isolate (SPI) were used as wall materials to prepare microcapsule powder of Perilla α-Ethyl linolenate (AEL). The preparation conditions of the microcapsule powder were optimized through single-factor experiments and response surface analysis. The physicochemical properties of the microcapsule powder were characterized by scanning electron microscopy, laser particle size analysis, Fourier transform infrared spectroscopy, X-ray diffraction, and thermogravimetric analysis.The optimal preparation conditions for the AEL microcapsule powder were determined to be: a solid content concentration of 10%, a wall material ratio of 2:5, a core-to-wall ratio of 2:5, an emulsification temperature of 50.7 °C, and a homogenization time of 6 minutes. The encapsulation efficiency of microcapsuled powder was found to be 81.68%. AEL was successfully encapsulated within the shell of the microcapsule powder. The AEL microcapsule powder exhibited a spherical shape with no cracks or pores in the shell. The weight loss rate of the AEL microcapsule powder was 76.00%, and its thermal stability was improved. After simulated gastric digestion, the core material release rate of the microcapsule powder was 15.23%; after simulated intestinal digestion, the core material release rate was 80.02%, indicating a good controlled-release effect.The oxidation stability test indicated that the microencapsulation technology had effectively delayed the oxidation process of AEL.The method is able to successfully encapsulate AEL and enhance the stability of Perilla α-linolenic acid, thereby laying the foundation for the in-depth development and application of Perilla α-linolenic acid in the fields of food and health products.
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Progress in the application of Non-Thermal Effect of Electric Field in the extraction of functional ingredients

gaoying, yangtianruo, yangna, jinyamei, xuxueming

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Electric Field-Assisted Extraction can improve the problems of low efficiency, high energy consumption and loss of target products in the extraction of functional substances by traditional methods. However, its mechanism of action is complex and its large-scale application is limited. Electric Field-Assisted Extraction Technology utilizes the non-thermal effect, namely electroporation, to effectively disrupt cell membranes and cell walls, promoting the release of intracellular and intercellular functional substances. Studies have shown that parameters such as electric field intensity, frequency, treatment time, and medium characteristics have a significant impact on extraction yield and recovery rate. In view of this, this paper reviews the research progress of the Non-Thermal Effect of Electric Fields in the extraction of functional components, elaborates on different mechanisms of action and influencing factors, and introduces the application of electric fields in the extraction of functional components from plant, animal, and microbial sources as well as their combined use with other technologies. The integration of multiple technological approaches can enhance extraction efficiency and promote industrialization, providing a theoretical foundation for the large-scale application of electric field technology in functional substance extraction.
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Comparison of protein properties of soybean tissues prepared with different moisture contents and quality analysis of vegetarian ham sausage

ZHAO Gang, ZHU Liying, HU Dongsheng, GAO Liying, BAI Lu, ZUO Feng

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In order to explore the effect of moisture content on the structure, physical and chemical properties of tissue protein prepared by extrusion and the quality characteristics of vegetarian ham, this paper used soybean protein as the main raw material to explore the changes of color, organization, texture properties, microstructure, secondary structure of organized soybean protein and the sensory quality and texture characteristics of vegetarian ham with different moisture content. The results showed that with the increase of water content, the degree of organization showed a trend of first increasing and then decreasing, and reached the highest (1.55) when the water content was 50% (w/w). Hardness and chewiness decreased significantly from 3423.12 g and 2135.44 g of 40% (w/w) moisture content to 886.37 g and 417.44 g of 50% (w/w) moisture content (p<0.05). Scanning electron microscopy showed that the tissue protein prepared at 50% water content (w/w) had more fiber structure, and the increase of water content promoted the transition from β-turn to -β fold. The sensory quality of vegetarian ham sausage prepared by tissue protein with 50% (w/w) moisture content was similar to that of meat sausage. In general, the organoleptic quality of ham sausage prepared with soybean tissue protein prepared at 50% moisture content (w/w) was similar to that of meat sausage. This study provides a theoretical basis for further understanding of the formation mechanism of tissue proteins and the development of related products.
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Pu-erh Tea Theabrownin’s Protection for Lipopolysaccharide - caused Liver Injury in Rats

CUI YU

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The protective effect of Pu-erh Tea Theabrownin on liver injury induced by lipopolysaccharide (LPS) in rats was explored. SD rats were randomly allocated into two experimental groups, namely the normal control group and the lipopolysaccharide (LPS)-induced model group, Pu-erh tea theabrownin group low-dose, medium-dose and high-dose groups (0.135, 0.405 and 1.215 g·kg-1 bw). The liver injury model of rats was established by injecting LPS (1.5 mg·kg-1) every three days, and the intervention experiment lasting for 21 days was conducted. At the end of the animal experiment, the liver index was initially computed. Subsequently, the enzymatic activities of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) in liver tissues were measured. Moreover, histopathological alterations in liver tissues were scrutinized through hematoxylin-eosin (HE) staining. Additionally, the activities of serum alanine aminotransferase (ALT), aspartate aminotransferase (AST), and alkaline phosphatase (ALP), as well as the contents of total cholesterol (TC), total triglyceride (TG), high - density lipoprotein cholesterol (HDL-C), and low-density lipoprotein cholesterol (LDL-C) in serum, were detected. Results showed that compared with the Control group, the LPS group exhibited disordered arrangement of hepatocytes accompanied by extensive inflammatory cell infiltration and focal hepatocyte necrosis, accompanied by disorganized splenic nodules and indistinct red/white pulp boundaries in the spleen. Furthermore, significant elevations were observed in spleen index, liver index, serum ALT activity, and TG content (P<0.05). while the high dose of Pu-erh tea theabrownins could significantly reduce the liver index, serum ALP activity, and serum TG content in rats (P<0.05). The reductions were 24.8%, 41.3%, 34.1%, and 37.5%, respectively. Moreover, the histopathological damage caused by LPS to the liver and spleen tissues of rats was alleviated. The results showed that the liver injury induced by LPS in rats was protected to a certain extent by the Pu-erh Tea Theabrownin, providing a theoretical basis for the development and utilization of Pu-erh Tea Theabrownin.
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Comparative Analysis of Amino Acids, Fatty Acids, and Volatile Compounds in Tibetan Sheep Leg Meat from Different Grazing Regions

Jia Yujiao, 韩丽娟, 张玥, 侯生珍, 院珍珍, 桂林生, 孙胜男, 杨超

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To clarify the effects of grazing in different regions on the amino acids, fatty acids, and flavor of Tibetan sheep leg meat, an experiment was conducted using Tibetan sheep as the research subjects. Sixty Tibetan sheep were divided into two groups, which were grazed on natural pastures in either saline-alkali or non-saline-alkali regions. After 150 d, the triceps brachii and biceps femoris muscles were collected from both groups. The amino acids, fatty acids, and volatile flavor compounds were then measured. The results showed that a higher total amino acid content was observed in the foreleg meat of Tibetan sheep grazed in saline-alkali areas (48,905.77 μmol·kg-1), while a lower content was detected in the hindleg meat (29,677.35 μmol·kg-1). Compared with the leg meat of Tibetan sheep from non-saline-alkali regions, higher levels of N3 polyunsaturated fatty acids and lower levels of saturated fatty acids were found in the leg meat of sheep from saline-alkali areas. The results of gas chromatography-ion mobility spectrometry indicated that a total of 41 volatile compounds were detected in the leg muscles of the two groups of Tibetan sheep, with most volatile substances being present in higher amounts in the leg muscles of Tibetan sheep from non-saline-alkali areas. Heptanal and nine other volatile compounds were identified as key flavor compounds in the foreleg muscles of both groups of Tibetan sheep, while 3-methylbutanol and 11 other volatile compounds were identified as key flavor compounds in the hindleg muscles of both groups of Tibetan sheep. The Pearson correlation analysis revealed that positive correlations were observed between heptanal, hexanal, 1-pentanol and oleic acid, as well as between 2-methylbutanal and isoleucine. This study has demonstrated the differences in leg meat quality of Tibetan sheep from different regions, providing theoretical references for the development of animal husbandry in saline-alkali areas.
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Advances in the Prevention and Alleviation of Depression by Omega-3 PUFAs

Han Xiaoyu, Gao Pan, Wang Min, Han Lin

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Depression, as a major mental disorder that threatens human physical and mental health, has become a global public health challenge, and finding safe and effective prevention and treatment strategies is of great significance. The characteristic components of omega-3 polyunsaturated fatty acids include alpha linolenic acid (ALA), eicosapentaenoic acid (EPA), and docosahexaenoic acid (DHA), which have received continuous attention from the academic community due to their potential antidepressant functions. This article systematically reviews the clinical research and animal experimental evidence of omega-3 polyunsaturated fatty acids in the prevention and treatment of depression, and finds that they have a significant improvement effect on depressive symptoms. The mechanism of omega-3 polyunsaturated fatty acids in preventing and alleviating depression is analyzed from multiple aspects such as anti-inflammatory activity, neuroplasticity regulation, and neurotransmitter regulation. In addition, the article also summarizes the current application status of omega-3 polyunsaturated fatty acids in functional foods, dietary supplements, and other nutritional fields. This review aims to provide comprehensive theoretical references for in-depth research, new product development, and clinical applications of omega-3 polyunsaturated fatty acids in antidepressant treatment.
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Recent Advances in Stevia Research and Applications

Peng Zhi, Zhan Shuang, Yang Xiulian, Huang Sirui, Huang Huaxue, Wang Wei

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Stevia rebaudiana Bertoni has gained significant attention in the food industry and functional food sector as a natural sweetener with both commercial value and health benefits. The leaves contain steviol glycosides, which are high-intensity, zero-calorie sweetening compounds that serve as ideal alternatives to artificial sweeteners. Growing evidence indicates that beyond its sweetening properties, stevia and its active components exhibit multiple pharmacological effects, including antioxidant and anti-inflammatory activities, management of metabolic disorders, anticancer and cell cycle regulation, gastrointestinal and hepatorenal protection, as well as antibacterial and oral health benefits. These versatile properties make Stevia a promising ingredient for diverse applications in food products, dietary supplements, animal feed, and environmental remediation. This paper systematically reviews the chemical composition, pharmacokinetic characteristics, pharmacological properties, and safety evaluation of Stevia 's bioactive compounds, while highlighting its innovative applications in food, healthcare, and agriculture. We further analyze recent advances in the biosynthesis of steviol glycosides, particularly focusing on strategies to facilitate the industrial-scale production of the more palatable rebaudioside M. Our findings provide scientific support for the expanded utilization of Stevia across multiple industries, with the goal of promoting sustainable development of high-value, diversified Stevia-based products.
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Overview of Domestic and Foreign Quality and Safety Evaluation Technologies for Probiotic Foods

ZENG Qiwen, DENG Meiqing, LU Yongcheng, CHEN Ling, WANG Qingbai, Lin Xiuhua, GUO Weipeng

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With the continuous expansion of the probiotic food market, issues related to product aspects such as strain labeling and the quantity of viable bacteria have become increasingly prominent. Consequently, the requirements for quality and safety evaluation technologies of probiotic food have also been increasingly improved. This article introduces the typical QPS (Qualified Presumption of Safety), GRAS (Generally Recognized as Safe) safety evaluation systems for probiotic strains internationally, as well as the management regulations for probiotic strains in some countries and international organizations. It also sorts out the requirements for viable bacteria content in probiotic foods both domestically and internationally, and systematically summarizes the technological development and current technical standards of probiotic foods in the fields of?strain identification, safety evaluation, viable bacteria counting, gastrointestinal tolerance detection, intestinal adhesion capability detection, and functional evaluation of probiotic foods. The aim is to provide a theoretical foundation for constructing a quality and safety evaluation system that aligns with the development of the industry.
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Analysis of Walnut Milk Quality Under Different Deastringency Treatments

ZHAO Huibo, 刘畅, 申亚春, 夏君霞

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Walnut milk has gained increasing attention as a nutritious beverage due to its high nutritional value and plant-based protein content. However, the presence of polyphenols in walnut kernels often results in astringency and emulsion instability, posing challenges to product quality. In this study, Xinjiang walnut kernels were used as the raw material to evaluate the effects of three distinct debittering methods—whole-walnut debittering treatment (WWT), heat-alkali treatment (HA), and enzymatic treatment (BE)—compared with untreated control on the quality attributes of walnut milk. Comprehensive evaluations were conducted on nutritional composition, physicochemical properties, emulsion stability, and sensory performance. The results demonstrated that WWT achieved the highest protein utilization rate (98.6%), producing walnut milk with a uniform and fine particle size distribution, excellent static stability (turbiscan stability index, TSI < 1.5), and significantly enhanced brightness (L* value). Cluster analysis of volatile aroma compounds revealed that UT and BE samples clustered together, retaining more green and nutty notes, whereas WWT and HA samples exhibited dominant roasted and nutty aromas, indicating that debittering treatments significantly alter the aroma profile of walnut milk. Taken together, WWT presented multiple advantages, including flavor improvement, stability enhancement, and increased protein utilization, thereby exhibiting promising potential for industrial application and sustainable processing. It is recommended as an optimal debittering strategy for the production of high-quality walnut milk.
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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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Structure and component identification analysis of blueberry wine haze

ZENG Wenwen, LIU Hui, DING Yuwen, Ao Xianhong, YU Qiang

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To clarify the causes of haze formation during blueberry wine storage and improve product quality, the morphology of haze was observed using scanning electron microscopy, with basic components determined through combined application of Fourier transform infrared spectroscopy (FTIR), chemical analysis, high-performance liquid chromatography, and high-performance liquid chromatography-tandem mass spectrometry. Analysis was focused on amino acid composition, protein classification, qualitative and quantitative characterization of polyphenols and organic acids. It was demonstrated that an irregular layered stacking structure with smooth edges was exhibited by the haze. Polyphenols were identified as the principal components (640.98 mg·g-1), significantly exceeding concentrations of polysaccharides (322.92 mg·g-1), proteins (44.59 mg·g-1), and anthocyanins (7.46 mg·g-1). Glutamic acid (18.06%), glycine (11.28%), proline (7.75%), and serine (7.51%) were established as the primary amino acids, while proteins were determined to originate predominantly from Saccharomyces cerevisiae. Fifty-three compounds were qualitatively identified, comprising 12 phenolic acids and derivatives, 15 flavonoids and derivatives, 7 other phenolics, 10 anthocyanins, and 9 organic acids. Syringic acid (19,205.17 μg·g-1), epicatechin (31.12 μg·g-1), and fumaric acid (195.33 μg·g-1) were quantified as the predominant phenolic acid, flavonoid, and organic acid, respectively. This study reveals for the first time that blueberry wine haze is dominated by polyphenols, clarifies its complex compound composition and key substance content, and provides an important theoretical basis for controlling the formation of haze.
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Alleviating Effects of Polyphenols from Litsea cubeba Fruits against Oxidative Stress in HepG2 Cells

Fanxinlvhui, 徐秋雄, 徐燕婷, 郑必胜

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To investigate the alleviative effect of polyphenols from Litsea cubeba fruits on cellular oxidative stress, fresh and dried fruits were used as raw materials in this study. The polyphenol content was analyzed by the Folin-Ciocalteu method, while the in vitro antioxidant activity was evaluated using ORAC and PSC assays. An oxidative stress model of HepG2 cells induced by H2O2 was established to explore the protective mechanism of Litsea cubeba fruit polyphenols against oxidative damage. The results indicated that the total polyphenol content of fresh fruits (2053.29 mg GAE/100 g) was 4.99 times higher than that of dried fruits (411.47 mg GAE/100 g), with approximately 90% existing in free form. The antioxidant activity of fresh fruit polyphenols was significantly stronger than that of dried fruits, with higher ORAC/PSC values. High mass concentrations of Litsea cubeba fruit polyphenols increased the viability of oxidatively damaged HepG2 cells by 2~3 times, while significantly enhancing SOD, CAT, and GSH levels and reducing LDH and ROS levels. At the molecular level, it was demonstrated that the polyphenols activated the Nrf2/NQO1 signaling pathway and upregulated the gene expression of downstream antioxidant enzymes (SOD1, CAT, and GSS), thereby exerting antioxidative effects. These findings provide a theoretical foundation for the application of Litsea cubeba fruit polyphenols in functional foods.
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Identification of Pueraria Powder adulteration Based on Ultra Performance Liquid Chromatography Coupled with Quadrupole Time-of-Flight Mass Spectrometry and Progenesis QI

Wang Bin, 朱晓玲, 刘艳, 张伊动, 汪薇, 陈冉, 黎星

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Abstract:

To establish a high-resolution mass spectrometry database for Pueraria powder and its common adulterants (cassava starch and corn starch) by ultra-performance liquid chromatography-quadrupole time-of-flight mass spectrometry (UPLC-Q-TOF), and establish an adulteration identification method based on characteristic components. Samples were extracted by methanol-water (7:3, V:V) ultrasonic wave, separated by BEH C18 column (2.1 mm×100 mm, 1.7 μm), the mass spectrometry data were collected in positive ion mode through an electrospray ionization (ESI) source. To screen differential metabolites between Pueraria powder and adulterants, the UPLC-Q-Tof data were analyzed by multidimensional analysis (principal component analysis, volcano plot differential analysis, partial least squares-discriminant analysis, and trend analysis) with Progenesis QI omics software. According to the precise molecular weight, isotopic distribution, fragment ion information, the online databases and literature data were matched, 10 characteristic differential compounds were identified. Principal component analysis showed that Pueraria powder was obviously separated from the two adulterants,which indicated that the composition of the compounds was significantly different. The established identification method demonstrates high-throughput and high-accuracy characteristics, with simplified operational procedures and good method stability. This approach provides a reliable technical solution for rapid detection of cassava/corn starch adulteration in Pueraria powder, offering significant application value for regulating market standards.
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Volume 41,2025 Issue 5

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