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Reasearch progress on biological activity and application development of octacosanol

高欣晨, 於天, 祝文雪, 王雅慧, 任佳丽, 陈位三, 赵盈, 郑志刚, 柯达, 李先宽

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As a food additive strictly certified by the state, octacosanol is rich in herbal resources, in addition to a variety of pharmacological activities such as lowering blood lipids, anti-fatigue, and prevention of cardiovascular diseases. At present, the use of nanometer, microencapsulation, cyclodextrin encapsulation and other high-tech has effectively improved the bioavailability of octacosanol, and promoted its wide application in the fields of medicine, health care, food and feed. However, due to the late start of the research on octacosanol in China, coupled with the technical limitations, its related extraction process, resource development and large-scale production are yet to be studied in depth. In this paper, the natural plant resources of octacosanol are summarized, and their preparation, synthesis, in vivo absorption and metabolism, and pharmacological effects are reviewed; at the same time, the bibliometric method is applied to analyze the research trends and hotspots of octacosanol at home and abroad, to provide theoretical bases for the exploitation and utilization of octacosanol resources and the research and development of octacosanol products.
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6''-Sialyllactose Improves the Locomotion Ability of Caenorhabditis elegans and Promotes the Neural Development

王碧蔓

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The developmental delay, behavioral disorders and cognitive impairments caused by neurodevelopmental disorders bring enormous pain and disaster to infants and their families. Some active substances that can improve locomotion and neurodevelopment in infants and young children urgently need to be developed. 6"-Sialyllactose (6"-SL) is a human milk oligosaccharide (HMOs).It has the effects of improving intestinal health, anti adhesion, antiviral, and promoting brain development. This study investigated the effect of 6"-sialyllactose on promoting neural development and improving locomotion ability in Caenorhabditis elegans (C.elegans).The main results are as follows: within the range of 0.02-1.0 mg/mL, 0.56mg/ml 6"-SL can effectively prolong the paralysis life of nematodes;We have chosen 0.56 mg/ml 6"-SL to the follow researches based on the practical application of 6"-SL. 6"-SL can significantly improve the head swing frequency,pharyngeal pumping rate of CL4176, and improved average speed of N2. 6"-SL can significantly protect the morphology of cholinergic neurons in C.elegans on day 7 and day 11; In addition,6"-SL reduced the acetylcholinesterase activity by 22.60%±8.0%, while increasing the levels of various neurotransmitters in the nematode body: dopamine (DA) level increased by 148.71%, serotonin (5-HT) level increased by 72.17%, 4-aminobutyric acid (GABA) levels increased by 34.72%, while glutamate (Glu) levels increased by 68.47%. In summary, 6"-SL can effectively improve locomotion ability and neural development, providing theoretical support for the application of 6"-SL in infant formula and health products.
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Changes in anticancer and hypoglycemic activities of Lactobacillus plantarum N1 before and after royal jelly fermentation

何荣军, Renmei, 沈佶儿, 王晓宇, 孙培龙

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By constructing a model of BPA-induced proliferation of MCF-7, we observed the effects of royal jelly products fermented by Lactobacillus plantarum N1 on the viability, migratory ability, invasive ability, and cell cycle and apoptosis of model BPA-MCF-7. BPA-MCF-7 were used as a model, and blank, control and drug groups were set up to detect changes in cell viability, cell migration, cell invasion ability and apoptosis and cycle before and after royal jelly fermentation; The changes in hypoglycemic activity of royal jelly before and after fermentation were also tested by ex vivo hypoglycemic activity. Compared with the control group, the cell proliferation ability of unfermented royal jelly and royal jelly ferment decreased, and royal jelly ferment significantly inhibited the growth of BPA-MCF-7. Compared with the control group, the cell migration and invasion rates of royal jelly fermentation were 67.06% and 79.00%, respectively, which could inhibit the invasion and migration ability of BPA-MCF-7. Flow cytometric results showed that royal jelly ferment induced apoptosis in BPA-MCF-7, which was mainly blocked in G2/M phase. In vivo hypoglycemic activity assay revealed that royal jelly fermentation exhibited stronger hypoglycemic activity than royal jelly unfermented. It was concluded that royal jelly could induce apoptosis of BPA-MCF-7 after fermentation, with stronger anticancer activity, and the hypoglycemic activity was also improved, which provided a certain theoretical basis for the development and utilization of royal jelly.
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Quality Improvement of Bonito Raw Materials and Development of Fish Tidbit Leisure Foods

Yu Jing

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Bonito is rich in nutrients and a variety of unsaturated fatty acids and vitamins, taurine and so on. However, due to the coarse muscle fiber and obvious fishy and sour taste, it leads to low consumer acceptance and low processing utilization. In this experiment, deacidifiers and binders were used to deacidify and bind bonito flesh, and the drying process was investigated after pressing and molding, with the aim of developing a palatable fish leisure food based on the improvement of the overly acidic taste of bonito. The results showed that the optimal ratio of compound deacidifier was 0.6 wt.% of sodium bicarbonate, 0.6 wt.% of sodium citrate, and 0.6 wt.% of sodium tripolyphosphate. The optimal additive amount of compound binder was 6 wt.% of tapioca starch, 3 wt.% of maltodextrin, and 1.5 wt.% of konjac gum. The optimal drying process of the fish tidbit was drying at 60℃ for 5 h, and sealing at room temperature for 1 h. Under these conditions, the tidbits were caramel-colored, moderately hard, and had the highest springiness and chewiness. In addition, with the increase of drying temperature, the types and contents of alcohols, aldehydes and pyrazines increased gradually. Hexanal promotes a fatty aroma, and substances such as 2,5-dimethylpyrazine and 2-ethyl-3-methylpyrazine provide a distinctive baking aroma to the final products. This study provides theoretical and technical support for the deacidification of bonito and the development of fish tidbit leisure food.
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Research Progress on the Preparation Process of Liquid Smoke and Its Targeted Control on the Formation of Volatile Flavor Compounds

娄爱华, 刘焱, 全威

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Smoked food is popular with consumers because of its unique flavor and taste. The edible-grade liquid smoke has become a key ingredient in determining the flavor quality of smoked food with the liquid smoking technique application in smoked food processing. However, the lack of research on the basic theory and processing technology of liquid smoke has led to limited diversity and flavor in the Chinese market. Smoked food produced using liquid smoke often lacks the characteristic flavor and is prone to homogenization, which hinders the modern development of the smoked food industry. A profound comprehension of the mechanisms underlying the formation of volatile flavor compounds during the preparation of liquid smoke, as well as the exploration of regulatory pathway, is crucial for enhancing the quality of liquid smoke. This article starts from the process of liquid smoke, the factors affecting the formation of volatile flavor compounds in liquid smoke were discussed from the aspects of type, moisture content and particle size of raw material, oxygen content, processing temperature, and refining method, to provide new ideas for the directional control of the production of high-quality edible-grade liquid smoke products
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Analysis of Fungal Diversity and its Functional Prediction in Milk and Traditionally Fermented Dairy Products in the Bahrain-right Banner area of Chifeng City

ZHU Li, LIU Wei, HE Yuxing, YU Jinghe, BAI Gaowa, WU Yundalai

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In this study, the fungi in milk and traditional fermented dairy products in the area of Bahrain Right Banner, Chifeng City, were used to analyse the fungal diversity by Illumina Miseq technology, and the fungal functions were predicted and analysed by FUNGuild. The results showed that the dominant fungal genera in milk were Clavispora; in urum, Geotirchum, Unclassified_f_Dipodascaceae; and in hurood, Unclassified_f_Metschnikowiaceae, Clavispora and Issatchenkia; and Geotirchum, Dekkera, Apiotrichum, Cutaneotrichosporon, and Unclassified_o_Saccharomycetales for tarag. Compared to milk, the fungal genera associated with pathogenicity in Urum, Hurood, and Tarag are Trichosporon, Candida decreased in relative abundance and the percentage of beneficial fungi increased, which shows that fermentation is effective in reducing pathogenic fungi and enriching beneficial fungi. The relative abundance of Geotrichum, Clavispora, Dekkera, Apiotrichum and Unclassified_o_Saccharomycetales in the composition of the fungal flora at the genus level were significantly different (P < 0.05). In summary, fermentation causes significant changes in fungal community structure and different fermentation processes have different effects on the composition of fungal flora in dairy products. The results of FUNGuild gene function prediction showed that the main nutritional modes of milk were saprotrophic and pathotrophic, including saprotrophic fungi and animal pathogenic fungi; the nutritional modes of both Urum and Hurood were saprotrophic and included unclassified saprotrophic fungi; the main nutritional modes of Tarag were saprotrophic and pathotrophic. Ger had the same main trophic pattern as milk, but included undefined saprophytic bacteria, soil saprophytes, and animal pathogenic bacteria. The results of this study are important for assessing the product quality and fungal structure of milk and traditional fermented dairy products in the Bahraini Right Banner region.
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Analysis on the difference of quality and flavor characteristics between traditional sweet bread and glutinous barley bread

吴华昌

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Highland barley bread is a kind of novel whole-grain bread, was deeply loved by people. Sensory evaluation, texture analysis, electronic nose combined with gas ion mobility technology were used to analyze the quality difference and volatile flavor compounds of two kinds of bread (fermented rice wine and barley bread, sweet bread). ROAV and OPLS-DA were used to screen the differential compounds between the samples. Sensory evaluation showed that the two breads were significantly different in the odor dimension. Sweet bread has a large specific volume; The results of electronic nose showed that the overall flavor of the two kinds of bread was quite different, and the response value of glutinous rice barley bread on the sensor was higher than that of ordinary sweet bread. The results of GC-IMS showed that a total of 41 compounds were identified in the two kinds of bread, among which alcohols and aldephdes were the main flavor substances. The addition of glutamic grains and barley significantly increased the content of esters and alcohols in the samples, and decreased the content of ketones (P<0.05). A total of 13 key compounds (ROAV>1) were screened by ROAV, and the common compounds were isoamylol-D, isoamylol-M, 2, 6-dimethylpyridine, octanone, ethyl acetate-D, butylbenzene. These results indicated that these six compounds could be used as the different compounds to distinguish the mash and highland barley bread from ordinary sweet bread. Through Spearman correlation, it was found that isoamylol-D, 2, 6-dimethylpyridine, butylbenzene, ethyl acetate-D had a high positive correlation with the T and P sensors of the electronic nose. This study provided data support and reference for the reasonable differentiation of different bread types and the development of new whole grain bread.
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Comparison of Fresh-keeping Effect of Baby Cabbage with Different Packing Methods

张鹏, 苏娟, 贾晓昱

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In order to clarify the effects of different packaging methods on the fresh-keeping effect of baby cabbage, baby cabbage was taken as test material and put into 4 °C cold storage after harvest, after pre-cooling for 24 hours, and was stored in a foam box(CK), a foam box containing the refrigerant(T1) , a temperature-controlled box(T2) and a temperature-controlled box containing the refrigerant(T3), the physiological indexes, nutritional quality and active oxygen metabolism related indexes were measured regularly. The results showed that At 42 days of storage, the contents of chlorophyll, Vc and soluble protein in T3 group were 0.016 mg/g, 34.38 mg/100 g and 1.34 mg/g, respectively, which were significantly higher than those in other treatment groups (P<0.05). In addition, T3 treatment inhibited the respiration intensity and ethylene production rate during storage, postponed the time of ethylene peak, delayed the increase of weight loss rate, inhibited the contents of MDA and H2O2, and kept the activities of POD, SOD and CAT at a high level, PPO activity was kept at a low level, which effectively maintained the storage quality and extended the storage period of baby cabbage. The cluster analysis of indicators during the storage period of baby cabbage showed that the package of temperature-controlled box with inner refrigerant was more beneficial to the preservation of baby cabbage. To sum up, afterharvest baby cabbage, use a temperature-controlled box with inner refrigerant and store it at 4 ℃, which has the best fresh-keeping effect, and can provide a new idea for the transportation and storage of baby cabbage.
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Effects of cysteine, soybean protein peptide and soybean protein isolation on the quality of Cantonese-style sausages containing phenols

Yunjun Yang, Chunlin Nie, Tong Gao, Junyi Xiang, Yongqiang Zhou, Jin Lin, Weizheng Sun

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The aim of this paper was to investigate the effects of L-cysteine (CYS), soy peptide (SPP) and soy protein isolate (SPI) on the quality of phenolic Cantonese sausage. Tea polyphenols (TP) are natural antioxidants in meat products, which have good ability to reduce the residual nitrite. However, the addition of phenolic compounds also has negative effects on the quality of meat products, such as the increased hardness of meat products. To improve the texture and sensory characteristics of phenolic Cantonese sausage, this study added food components containing free thiol groups, such as SPI, SPP and CYS, to Cantonese sausage, and explored their effects on the physical properties, color, sensory quality and nitrite residue of Cantonese sausage. The results showed that after complexing with TP, SPP and CYS could reduce the hardness of phenolic sausage, and sausage added with SPP and TP had the highest a* (10.42) and b* (8.44) values. In terms of sensory characteristics, there was no significant difference in other sensory characteristics except redness between treated groups and blank group. The nitrite residue in sausage was decreased by 75% after adding TP, and CYS also had a certain ability to reduce nitrite residue. The sausage added with TP and CYS had the lowest nitrite residue of 4.40 mg/kg. Therefore, CYS or SPP is a good quality improver for Cantonese sausages with polyphenols.
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Effects of Temperature on Sensory Quality of Vacuum Concentrated Orah Mandarin Juice

REN ER FANG, 李锆, 黄燕婷, 黄小婷

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The objective of this study was to investigate the effects of different vacuum concentration temperatures on sensory quality of concentrated Orah mandarin juice. Changes in color, taste and volatile components of different vacuum concentrated Orah mandarin juice were analyzed by colorimeter, electronic nose, electronic tongue and headspace solid-phase microextraction-gas chromatography-mass spectrometry. The results showed that the color indexes L*、a*、b*、△E and YI of the three kinds of concentrated juices were significantly increased compared with the original juice, while the color indexes b*、△E and YI of the restored juice in the vacuum three-stage gradient cooling concentration group were not significantly changed. The astringency, saltiness and sweetness of the three kinds of restored Orah mandarin juice were significantly lower than those of the original juice. The relative contents of terpenes were higher in the volatile flavor substances of three kinds of concentrated Orah mandarin juice. The relative contents and types of volatile substances in the concentrated juice were changed by heating concentration. In the vacuum three-stage gradient cooling concentration group, the quantity and relative content of hydrocarbons increased by 6 kinds and 22.25%, respectively, and the newly added volatile components, such as β-pinene (9.08%), trans-caryophyllene (2.22%) and β-ocimene (1.17%) gave the juice richer aroma components. The results of comprehensive evaluation and cluster analysis showed that the color and flavor quality of the Orah mandarin juice prepared by vacuum three-stage gradient cooling concentration could be preserved well.
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Comparison of the Difference in Fruit Aroma Compounds between the New Lychee Cultivar ‘Liniangxiang’ and Three Common Cultivars

文英杰, 姜永华, 刘海伦, 史发超, 蔡长河, 欧良喜, 严倩

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To characterize the aroma compounds of the new lychee cultivar, headspace solid-phase microextraction (HS-SPEM) combined with gas chromatography-mass spectrometry (GC-MS) technology was used to analyze the fruit aromas of ‘Liniangxiang’ and the common cultivars ‘Guiwei’, ‘Nuomici’, and ‘Fengshanhongdenglong’. Discriminant models were established using orthogonal partial least squares discrimination analysis (OPLS-DA). Characteristic aroma compounds of ‘Liniangxiang’ were identified based on their variable importance in projection (VIP), fold change (FC), and odor activity value (OAV) values. The results showed that a total of 645 aroma compounds belonging to 16 chemical classes were detected in the four varieties, with terpenes identified as the predominant compounds. 391 distinct volatile compounds were identified using VIP and FC values. Further screening based on OAV>1 revealed 41 characteristic aroma compounds. Cluster heat map analysis indicated that these 41 compounds could be categorized into 4 distinct regions. Among them, region I contained 18 characteristic aroma volatile compounds such as 3-mercapto-3-methylbutyl formate ester, trans-2-nonanal, trans-2,cis-6-nonadienal, δ-cadinene, and p-cresol, which effectively distinguished ‘Liniangxiang’ from the other three varieties. This distinction may contribute significantly to the unique flavor of ‘Liniangxiang’. This study provides valuable references for promoting and utilizing the new lychee variety.
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Suitability Evaluation of Different Fresh Jujube Varieties for Candied Jujubes Processing

李文涛, 陈芹芹, 刘海瀛, 林泳鸿, 刘格格, 毕金峰

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To explore the suitability of different jujubes varieties for candied jujubes processing, nine representative varieties of fresh jujubes were selected, the physicochemical, sensory and nutritional properties of jujubes and candied jujubes were measured and analyzed, and comprehensive quality evaluation was conducted by combining principal component analysis (PCA) and correlation analysis (CA). There were significant differences in physicochemical and nutritional indexes between jujubes and candied jujubes (P<0.05), the coefficient of variation (CV) of fresh jujube indexes ranged from 1.89% (b* value) to 68.83% (sucrose content); however, CV values of all indexes in candied jujube were all above 10%, except total sugar and sucrose, the CV values of other indexes increased. The CV of total sugar was the lowest (10.09%) and CV value of hardness was the highest (80.10%). By using PCA, the indicators were reduced to four factors, with a cumulative contribution ratio of 86.83%. The ranking scores of candied jujube was as follows: “Wuhezao” > “Xinjianghuizao” > “Zanhuangdazao” > “Fupingdazao” > “Taianlizao” > “Jinsidazao” > “Jinsixiaozao” > “Shanximuzao” > “Xianwangzao”. Further through the principal component and sensory evaluation score (ranking:“Taianlizao” > “Wuhezao” > “Fupingdazao” > “Jinsidazao” > “Zanhuangdazao” > “Xianwangzao” = “Xinjianghuizao” > “Shanximuzao” > “Jinsixiaozao”) of the comprehensive analysis, “Taianlizao”、“Zanhuangdazao”、“Fupingdazao” and “Jinsidazao ”were finally selected as suitable varieties for processing candied jujube, which could provide the reference basis for specialized material selection for candied jujube processing.
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Effect of Freezing and Ball Milling on the Structure and Physicochemical Properties of Sorghum Starch

吴宗俊, 赵忠云, 徐慧, 韩嵊峻, 郝宗围, 杜逸群, 肖亚庆, 刘英男, 刘抗, 王永泉, 李诗义, 郑明明, 周裔彬, 余振宇

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In this paper, the effects of different cryovial ball milling treatment times on the structure and physicochemical properties of sorghum starch were explored. Taking sorghum starch as the research object, the effects of different ball milling treatment times on the particle size distribution, microstructure, crystal structure, short-range ordered structure, thermodynamic properties, and rheological properties of sorghum starch are analyzed. The results showed that as the ball milling time increased, the sorghum starch particles were destroyed and the particle size decreased; The relative crystallinity of starch particles decreased from 17.86% to 2.91%, the half width of the Raman spectrum at 480cm-1 increased from 16.37 to 19.99, and the ratio of the infrared absorption peak at R1047/1022 decreased from 0.81 to 0.75. The hydrogen bonding structure inside the starch was disrupted, and the short-range ordering was reduced; In terms of physical and chemical properties, the water absorption index of sorghum starch significantly increased, from 0.75g/g to 4.81g/g. The gelatinization characteristic parameters of starch show a decreasing trend, with the enthalpy value ΔH decreasing from 9.82 to 0.22J?g-1, and the gelatinization degree significantly increasing. After ball milling treatment, the polarization characteristics of starch gradually disappear, and the storage modulus and loss modulus both decrease. The results of this study provide a theoretical basis for the practical application of ball milled sorghum starch.
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Changes of Fresh-keeping Quality of Peach under Low Voltage Electrostatic Field and Ice Temperature

全鑫瑶, 邵千朔, 黄桂丽, 马佳佳, 李昊聪, 隋思瑶, 王毓宁

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To explore the effect of low voltage electrostatic field（LVEF）and ice temperature (IT) on the fresh-keeping quality of peach, the changes of appearance, sensory, nutritional quality and associated enzyme activity of peach fruit from 0 to 15 days under four different storage conditions were investigated: low temperature（LT） storage (8±0.5℃), low temperature + low voltage electrostatic field storage (8±0.5℃, 150V), ice temperature storage (-0.5±0.5℃) and ice temperature + low voltage electrostatic field storage (-0.5±0.5℃, 150V). The results showed that the maintenance ability of different treatments on appearance quality, sensory quality and nutritional quality of fruit was LT < LT+LVEF < IT < IT+LVEF, indicating that LVEF combined with ice temperature treatment had the best preservation quality of peach fruit. On day 15, the activities of PG, PME, β-gal and LOX enzymes related to fruit softening, ripening and senescence in IT+LVEF group were the lowest, while the activities of SOD and POD enzymes were the highest. In addition, the correlation analysis of each index showed that the overall correlation between the fresh-keeping quality and related enzyme activity of peach was the weakest under the condition of low voltage electrostatic field and ice temperature. In summary, as a physical preservation method, low-voltage electrostatic field (150V) and ice temperature (-0.5±0.5℃) treatment can effectively inhibit the quality deterioration during storage and extend the shelf life of peaches.
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Analysis of the Changes in Flavor Compounds During the Preparation of Double-Layer Steamed Milk Custard from Buffalo Milk

Lan Hong, Xu Dingyun, Luo Xier, Li Chuan, Cui Kuiqing, Li Ling, Liuqingyou, Zeng Xinan, Qi Hao

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To investigate the changes in volatile compounds during the preparation of Double-Layer Steamed Milk Custard (DLSMC), the volatile substances at four key stages—raw material stage (group A), boiling stage (group B), cooling stage (group C), and steaming stage (group D)—were analyzed using electronic nose and headspace-gas chromatography-ion mobility spectrometry (HS-GC-IMS). The results showed that methyl compounds, alcohols, ketones, and aldehydes, were significantly different volatile components across the stages (P<0.01). A total of 38 compounds were identified by HS-GC-IMS, including esters, alcohols, ketones, aldehydes, ethers, acids, and pyrazine derivatives. Principal component analysis (PCA) and partial least squares discriminant analysis (PLS-DA) indicated that the boiling and steaming stages were the main stages for changes in volatile compounds. In the boiling stage (B group), the unpleasant flavor of 1-pentanol in the raw buffalo milk was significantly reduced (P<0.05), while the levels of 2-butanone, 2-butanol, dimethyl sulfide, and other compounds were significantly increased (P<0.05). In the steaming stage (group D), the levels of 2-pentanone, 2-heptanone, acetone, and diallyl disulfide significantly increased (P<0.05). Ultimately, the DLSMC exhibited flavor characteristics such as grassy, oily, fruity, milky, sweet, buttery, fruity, and roasted nut aromas.
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Structural Analysis and Anti-Fatigue Activity of Polysaccharides from Ganodema lingzhi Irradiated by High-Energy Electron Beams

WANG Rong, WANG Huaihu, WEI Yuqin

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The effects of high-energy electron beam irradiation on the physicochemical properties and anti-fatigue activity of polysaccharides from cultivated Ganodema lingzhi (GLP) were investigated. GLP was extracted using the water extraction and alcohol precipitation method, and was then purified through ion exchange chromatography and gel filtration chromatography. Different doses of high-energy electron beam irradiation were applied to the GLP, and its physicochemical properties were characterized using scanning electron microscopy and infrared spectroscopy. A weight-loaded swimming model was used to induce exercise fatigue in rats, which were then administered GLP via gavage to verify its anti-fatigue effects. The results showed that the weight-average molecular weight of GLP was 1.87 × 106 u, with an average particle size of 779.42 nm, and the anomeric carbon was in the β-configuration. As the irradiation dose increased, the molecular weight and particle size of GLP initially increased and then decreased, indicating a transition from cross-linking to depolymerization. GLP treated with 20 kGy irradiation was found to significantly increase liver glycogen content (by 31.37%) and muscle glycogen content (by 52.94%) in fatigued rats, while blood urea nitrogen content was reduced (by 41.67%) and serum lactic acid content was lowered (by 43.75%). Additionally, the irradiated GLP was shown to enhance the activity of endogenous antioxidant enzymes in rat mitochondria and reduce malondialdehyde accumulation. Compared to the positive control (rhodiola rosea glycoside), GLP treated with 20 kGy irradiation demonstrated superior anti-fatigue effects. Therefore, an appropriate dose of high-energy electron beam irradiation was deemed an ideal method for modifying GLP.
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Changes in Starch Granules and In Vitro Digestibility Properties of Red Kidney Bean Cells under Atmospheric Hydrothermal Treatment

LI Ping, 刘莹

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Red kidney bean cells were isolated under atmospheric pressure hydrothermal treatment with varying temperatures and incubation time to elucidate the effects on the structural and in vitro digestibility of starches in cells. A comprehensive analysis was conducted using a combination of morphological analysis, X-ray diffraction, thermal properties, and in vitro simulated digestion methods. The results indicated that the red kidney bean cells isolated under 80~100 ℃ all maintained morphological integrity. The starch within cells was not fully gelatinized, and the crystal structure was partially disrupted, retaining a certain degree of relative crystallinity (12.97%-16.54%). Compared to processing duration, temperature imposed a more significant impact on the starch crystal structure. As the hydrothermal treatment temperature increased (80~100 ℃) and duration extended (25~45 min), the intracellular fluorescence intensity of FITC-dextran intensified, the in vitro starch digestibility increased from 56.25% to 69.25%. At 80/90 ℃, cell wall permeability would predominantly influence the starch digestibility properties. While, both cell wall permeability and starch crystallinity would simultaneously affect the starch digestibility in cells when the temperature rose to 100 ℃. Therefore, by modulating the temperature and duration of atmospheric pressure hydrothermal processing, the digestive properties of starch contained in red kidney bean cells can be effectively regulated. This study helps to reveal the changes in the nutritional characteristics of starch components in legumes during thermal processing, providing theoretical guidance for the development of legume-based functional foods.
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Chiral analysis of lactic acid and ethyl lactate in different flavor baijiu

huangzhiguo

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In order to understand the differences in the contents of lactic acid and ethyl lactate isomers in baijiu (Chinese liquor) of different flavor types, a separation method for directly determining the lactic acid and ethyl lactate isomers in baijiu was established, and the content rules were analyzed. It was shown by the results that the enantiomers of lactic acid had a linear relationship within the range of 0.02 - 0.6 g/L; the enantiomers of ethyl lactate had a linear relationship within the range of 0.01 - 2.5 g/L. Significant differences existed in the optical rotation contents of lactic acid and ethyl lactate in baijiu of different flavor types. In Maotai-flavor baijiu, the contents of D-lactic acid and L-lactic acid were relatively high, with the average mass concentrations being 1.348 g/L and 0.440 g/L respectively. The average mass concentrations in Luzhou-flavor baijiu were 0.402 g/L and 0.244 g/L respectively, and those in Fen-flavor baijiu were 0.161 g/L and 0.042 g/L respectively. In Maotai-flavor baijiu, the contents of D-ethyl lactate and L-ethyl lactate were relatively high, with the average mass concentrations being 1.280 g/L and 0.283 g/L respectively. The average mass concentrations in Luzhou-flavor baijiu were 0.592 g/L and 0.352 g/L respectively, and those in Fen-flavor baijiu were 0.211 g/L and 0.038 g/L respectively. All in all, the method was simple to operate, with high precision and accuracy, and was applicable to the determination of the optical rotation of lactic acid and ethyl lactate in baijiu. The differences in the optical rotation contents of lactic acid and ethyl lactate in baijiu of different flavor types were clarified, providing data support for further exploring the flavor formation mechanism of baijiu.
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Preparation of Peptides from Cryptotympana atrata and its Immunomodulatory Activity changes

孙明哲, 孙亚琴, 闫琳, 徐淑妹, 张宇航, 王朝阳, 李晓燕

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In this paper, the preparation process of Cryptotympana Atrata Peptide (CA-Peptide) was optimized, and the immunomodulatory activities of CA-Peptide and Cryptotympana Atrata Protein (CA-protein) were compared. The optimal preparation process: 4% alkaline proteinase 37071 (m/m) and 4% trypsin enzymolysis (m/m), 5% substrate concentration (m/m), initial pH 10.5, enzyme temperature 50℃, two kinds of protease enzymolysis for 1.5 hours respectively. Animal experiments showed that the related indexes of immunocompromised mice induced by cyclophosphamide all could be improved in different degrees by CA-Peptide and CA-Protein. At the same dose, the spleen index and proliferation rate of splenic lymphocytes in CA-Peptide group (2.40 mg/g and 51.07%, respectively) were significantly (P<0.05) higher than those of CA-Protein group. The immunoglobulin G, immunoglobulin A, immunoglobulin M, tumor necrosis factor-α, interleukin-4 and interleukin-10 in CA-Peptide group (701.67, 299.19, 239.88, 20.11, 33.86 and 71.15 ng/L, respectively) were significantly (P<0.05) higher than those of CA-Protein group. The thymus index and serum interferon-γ in CA-Peptide group (1.36 mg/g and 36.26 ng/L, respectively) were significantly (P<0.05) lower than those of CA-Protein group. There was no significant difference in natural killer cell activity and serum interleukin-2 level between CA-Peptide group and CA-Protein group (P > 0.05). In conclusion, the enzymatic hydrolysis process significantly changes immunomodulatory activity of CA-Protein, and the product CA-Peptide has better improvement on many immune indexes than CA-Protein.
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Optimization of the processing technology and shelf-life prediction of millet-chickpea shortbread

Liang Xia Lu Xin Meng Tingting, luxin, meng ting ting

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Millet and chickpea, rich in unsaturated fatty acids and dietary fibers, were utilized as partial substitutes for wheat flour in the production of peach shortbread, enhancing its flavor, taste, and nutritional value. This study investigated the effects of the substitution ratio and amount of millet-chickpea blended flour, as well as the inclusion of shortening, composite low-sugar substitute, and water, on the sensory evaluation, crispiness, hardness, and spread factor of the peach shortbread. Orthogonal experimental design was applied to optimize the preparation process of sucrose-free millet-chickpea peach shortbread. In parallel, accelerated oxidation tests were conducted to predict its shelf life. The results revealed optimal conditions to be a millet-to-chickpea flour substitution ratio of 2:1 at 35% substitution level, 35% shortening, 30% composite low-sugar substitute, and 15% water. Baking at 190°C top heat and 140°C bottom heat for 17 minutes yielded peach shortbread with a golden hue, crisp texture, sweet aroma, and harmonious millet-chickpea flavors. Under these conditions, the crispiness index reached 124, hardness measured 522, spread factor was 4.39, and the sensory score achieved 89 out of 100. Accelerated oxidation tests at 35°C and 45°C estimated a shelf life of 64 days for the product stored at 25°C.This research provides a foundational approach for enhancing the quality characteristics of crisp biscuits and predicting their shelf life, offering valuable insights for future product development and optimization.
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Optimization of Extraction Process and Enzyme Inhibitory Activity Control of Polysaccharides from Chinese Yam under Ultrahigh Pressure Combined with Lactic Acid Bacteria Fermentation

ZHOULISHAN, XIAOCHENGYI, ZHANGRUIFEN, LIANGSHAN, DONGLIHONG, HUANGFEI

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In order to promote the efficient preparation and utilization of Chinese yam polysaccharides, an extraction process of Chinese yam polysaccharides with ultrahigh pressure combined with microbial fermentation was established, and the enzyme inhibitory activity of Chinese yam polysaccharide was investigated in this study. With fresh yam as raw material, from 9 different strains, Lactiplantibacillus plantarum subsp. plantarum were selected as the subsequent fermentation strains. Based on the single factor experiment, the L18(37) orthogonal table design was used to optimize the ultrahigh pressure and lactic acid bacteria fermentation collaborative extraction process of yam polysaccharide to determine the optimal extraction conditions: inoculation concentration 5%, fermentation time 2 days, solid-liquid ratio 1：5 (m/V), extraction pressure of 500 MPa, holding time 10 min. With these conditions, the extraction yield of polysaccharides was 9.23% and the obtained polysaccharides exhibited significant α-amylase inhibitory activities (7.48 mg·mL-1) and pancreatic lipase inhibitory activities(7.07 mg·mL-1). The results showed that the extraction process of ultrahigh pressure combined with lactic acid bacteria had the potential to produce polysaccharide of Chinese yam with high yield and enzyme inhibitory activity. This study can provide a way for the development and utilization of Chinese yam.
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Liquid-State Fermentation of Pu-erh Tea Blended with Grape Pomace by Aspergillus tubingensis: Process Optimization and Compositional Changes

YIN Yuanbin, PAN Lingyu, YU Zhiyuan, WANG Qiuping

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The effects of grape pomace on the flavor profile of Pu-erh tea fermented by Aspergillus tubingensis in liquid-state fermentation were investigated. A blended system of sun-dried green tea leaves and instant grape pomace powder was applied, fermentation parameters were optimized through single-factor experiments and the response surface methodology. The dynamic changes of key physicochemical indices including pH, color difference, total carbohydrates, proteins, total polyphenols, and theabrownins during optimal fermentation conditions were systematically examined. The optimal parameters were determined as follows: 0.03 g·g-1 instant grape pomace powder, solid-to-liquid ratio of 1 g to 30 mL, fermentation duration of 144 h, and spore inoculation concentration of 1×10? CFU/mL. Under optimal conditions, after 144 h fermentation: The tea infusion pH increased from 4.66 to 5.73; Theabrownin content rose from 1.89 g·L?1 to 5.40 g·L?1, and protein content increased from 0.06 g·L?1 to 0.10 g·L?1, both showing an upward trend. In contrast, total polyphenol content decreased from 6.10 g·L?1 to 2.76 g·L?1, and total carbohydrate content declined from 1.78 g·L?1 to 0.96 g·L?1, both showing a downward trend. The L* value of the tea infusion declined, while the a* and b* values increased, resulting in a darker, redder hue. These findings offer a theoretical basis for the efficient development of flavor-enhanced, grape pomace-blended Pu-erh tea using liquid-state fermentation.
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Preparation and Quality Evaluation of Hollow Salt Particles of Ruditapes Philippinarum

XU Xianbing

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In order to address the technical bottlenecks of poor flowability, low dissolution efficiency, and hygroscopic agglomeration tendencies existing in traditional table salt and hollow salt powder, and to overcome the constraints imposed by conventional aqueous wetting agent granulation technology on the structural integrity of salt particle hollow cores, salt particles with stable hollow cores were successfully fabricated in this study using an anhydrous ethanol-based wet granulation technique. The physical properties of the particles were systematically characterized through density measurements, dynamic conductivity monitoring, and humidity-controlled accelerated testing, while their flavor profiles and sensory attributes were analyzed using an electronic nose system and a standardized sensory evaluation protocol. Results demonstrated that, compared to hollow salt powder, the bulk density and tapped density of hollow salt particles were increased by 23.63% and 8.11% respectively, compressibility and angle of repose were decreased by 36.98% and 47.32%, with a 20.77% reduction in hygroscopicity being achieved. Relative to conventional salt particles, the dissolution rate of hollow salt particles was accelerated by 64.71%, and sensory scores for peak saltiness intensity and release rate were enhanced by 36.72% and 31.01%, respectively. The dissolution kinetics optimization and moisture barrier functionality of hollow salt particles were synergistically enhanced through the enlargement of specific surface area and optimization of interfacial morphology. A precise balance between immediate saltiness release and prolonged flavor perception was achieved by their structural characteristics, and novel strategies were provided for the development of specialty functional salts, such as low-sodium salt and flavor carrier salt.
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Optimization of Salt reduction Technology for Extruded Flavouring Noodles

毛冰冰, 王煦松, 黄旭辉, 何敏, 张富重, 李库, 郭辉, 沈硕, 秦磊

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Extruded flavouring noodles, also known as spicy strips, are widely recognized for their unique taste; however, the high salt content is considered a potential health risk. In this study, the deterioration in quality of reduced-salt spicy strip blanks during storage was addressed, and the product quality was optimized through the addition of improvers. The single factor combined with orthogonal test was used to analyze the texture and sensory indexes of spicy strip blanks, and the optimal formula of the compound improver was determined (10% glutinous rice flour, 1% yeast dietary fiber, 0.6% soybean lecithin, and 6% crystalline fructose). The optimization effect of the compound improver on salt-reduced spicy strip blank was evaluated under accelerated storage conditions at 37°C. It was observed that, during storage, although certain indices differed between the salt-reduced spicy strip blanks with the compound improver and the non-salt-reduced blanks, compared to the 40% salt-reduced blanks, an improvement of 39.56% in hardness change and an increase of 4.73% in water content were achieved. Through Fourier-transform infrared spectroscopy analysis, it was revealed that the peak intensity ratio of (1045/1022) cm?1 in the group with the compound improver was lower than that of the control group with 40% salt reduction. It was suggested that the starch molecular rearrangement in the salt-reduced spicy strip blanks during storage was effectively prevented by the compound improver, the ratio between ordered and disordered structures during aging was reduced, and the starch aging phenomenon was delayed. In conclusion, the hardening and aging of salt-reduced spicy strip blanks during storage were effectively slowed down by the compound improver, thereby providing a theoretical basis for the optimization of salt-reduced technology.
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Comparison of Efficient Extraction Method for Sesame Allergen for Mass Spectrometry Detection

Li Jing, Yu Ning, Kang Wenhan, Wan Yang, Zhang Jiukai, Ge Yiqiang, Chen Ying

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Sesame is one of the eight major allergic foods. In recent years, with the increasing sales of sesame and its products, the number of allergic patients caused by sesame has gradually increased. Therefore, it is particularly important to detect sesame. The accurate detection of allergens could be achieved by mass spectrometry, and efficient extraction of allergen proteins is the prerequisite and foundation. At present, sesame oil by-products or raw sesame are mainly used to optimize the extraction of sesame protein. To further study the extraction method of sesame allergen protein in processed food, raw sesame and processed sesame products were used as samples to optimize the extraction of sesame protein in the study. Based on the identification results of mass spectrometry in the crude protein extract, the optimal extraction method for sesame protein in processed products was determined. The results showed that sesame protein from processed products could be effectively extracted using the solution (50 mmol·L-1 Tris-HCl+7 mol·L-1 urea+2 mol·L-1 thiourea+wt.4% CHAPS, pH=8.5) for shaking and ultrasound for 40 minutes. Even for processed sesame, the protein extraction concentration could reach over 20 mg·mL-1. Sesame protein in processed products could be extracted efficiently by using the extraction conditions, which provides technical support for the trace detection of sesame allergens by mass spectrometry, and helps to establish the label identification of sesame allergens.
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3D printing technology and quality change of Sichuan-flavored rice products

Li Junqi, Jia Jinping, Zhang Lijia, liuyuntao, Zeng Zhen

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To enhance the printability of traditional rice products and diversify their varieties, this research verified the printability of japonica rice and indica rice doughs, as well as those with the addition of three types of oil (rapeseed oil, red pepper oil, and green pepper oil), through rheological analysis. Moreover, the feasibility of 3D printing Sichuan-flavored rice products was further confirmed by FT-IR and TPA analyses. The experimental results indicated that when the water content increased from 80% to 85%, the apparent viscosity of japonica/indica rice doughs decreased significantly, and the storage modulus G' declined conspicuously. When the shear rate was greater than 1 s-1, the apparent viscosity of japonica/indica rice tended to stabilize. Additionally, the FT-IR and TPA results demonstrated that after adding 8% rapeseed oil, pepper oil, and green pepper oil, a new characteristic peak of ester groups emerged at 1700 cm-1, and compared with the control group, the hydrogen bond binding strength was enhanced. The hardness of rice products with added oil was significantly lower than that of the blank group, while the chewiness, elasticity, and adhesiveness were all improved. Particularly, the rice products containing 8% oil exhibited more significant effects than other groups. The experiment confirmed that the synergy of 85% water content and 8% oil content could significantly improve the printing accuracy. The conclusion of this research is that the combination of 85% water content, 8% oil content rice flour doughs, and 3D printing technology has innovated the production process and texture flavor of Sichuan-flavored rice products. This not only holds the potential to achieve customized production of Sichuan-flavored rice products but also provides superior dietary options for patients with celiac disease.
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Comparative Analysis of Steam-Flaked Corn on the Flavor of Simmental Cattle

lixiaodong, 查干其其格, 王越男, 付雅玲, 包颖

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Thirty Simmental beef cattle with similar body weights were randomly assigned to three groups: Group I received a diet containing 100% steam-compressed flake corn, Group II received a diet containing 50% steam-compressed flake corn, and the control group received a diet without steam-compressed flake corn. The amino acid content, fatty acid profiles, and volatile flavor compounds in beef from cattle fed different proportions of steam-compressed flake maize were analyzed using an amino acid analyzer and gas chromatography-mass spectrometry (GC-MS) to elucidate the effects of steam-compressed flake maize on beef flavor. The results showed that increasing the proportion of steam-compressed flake corn in beef cattle diets significantly increased the contents of amino acids, fatty acids, and volatile compounds in beef and significantly improved beef flavor (P<0.05). The total amino acids increased from 40.06 mg/100g in the control group to 44.40 mg/100g in Group I. The monounsaturated fatty acid content in Groups I and II was 81.82% and 44.03% higher than that in the control group, respectively. Additionally, C18:2n6t (trans linoleic acid) was detected only in Group I at 1.65 mg/100g. The relative contents of various volatile flavor compounds differed among the three groups. For example, ketones had the highest relative content of 7.64% in Group I. Additionally, trans-2-undecenol, which has a greasy and sweet aroma, was detected only in Group I at 0.19%. These results indicate that beef flavor improved significantly with an increased proportion of steam-compressed flake corn in beef cattle diets.
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Protective Effects of Kaempferol-3-O-Rutinoside Against H2O2-Induced Oxidative Stress Injury in HepG2 Cells

JIAO Wenya, NIU Xuemei, LIU Shuyu, FENG Jiahui, WANG Xianghong

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To investigate the protective effects of kaempferol-3-O-rutinoside (K3R) against H2O2-induced oxidative damage in HepG2 cells, the regulatory mechanism was systematically analyzed by an in vitro model. Following pre-treatment with 10, 20, and 30 μmol·L-1 K3R for 24 h, the cells were exposed to 400 μmol·L-1 H2O2 for 4 h. Cellular viability, reactive oxygen species levels, oxidative damage status, and antioxidant capacity were assessed across experimental groups. Apoptosis was evaluated using Annexin V-FITC/PI staining and TUNEL assays. Western blotting was performed to analyze the expressions of antioxidant proteins (HO-1, NQO1), apoptosis-related proteins (Bax, Caspase3, Bcl-2), and key components of the MAPK/NF-κB signaling pathway. The results demonstrated that cell viability was significantly increased to 99.93% in the K3R-protected groups, accompanied by reduced ROS levels approaching normal ranges, enhanced antioxidant enzyme activity, and effective suppression of apoptosis. The protein expression of HO-1, NQO1, and Bcl-2 was upregulated, whereas Bax and Caspase3 expression was downregulated. Furthermore, phosphorylation of P38, JNK, ERK1/2, and NF-κB p65 in the MAPK/NF-κB pathway was effectively inhibited. In summary, K3R alleviates H2O2-induced oxidative damage in HepG2 cells by suppressing MAPK/NF-κB pathway activation, enhancing the antioxidant capacity and regulating apoptosis-related proteins. It provides a theoretical basis for its application in the development of antioxidant functional foods and drugs.
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Changes in Intestinal Flora and Its Metabolism of Weanling Mice under the Intervention of 1,3-Dioleic Acid-2-Palmitic Acid Triglycerides

罗时雨, 庞超, 杨继国, 杨占东

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The study was conducted to investigate the effects of 1,3-dioleoyl-2-palmitoyl-glycerol (OPO) on gut health in weaned mice. Weaned mice were fed for 4 weeks and compared across three groups: the control group (CON group), the low-dose OPO group, and the high-dose OPO group. Various indicators were analyzed, including serum inflammation levels, intestinal tissue morphology, gene expression of tight junction proteins, intestinal permeability markers, gut microbiota diversity, and changes in short-chain fatty acids (SCFAs). The results showed that compared to the CON group, the serum levels of TNF-α and IL-1β in the LOPO group were reduced by 9.05% (P<0.01) and 9.71% (P<0.05), respectively; while in the HOPO group, the reductions were 10.71% (P<0.001) and 7.84%. The relative mRNA expression of claudin-1 in the LOPO group increased by 31.37% (P<0.05) compared to the CON group, whereas in the HOPO group, it increased by 38.24% (P<0.001). Additionally, serum LPS levels in the LOPO and HOPO groups decreased by 8.43% and 8.66% (P<0.05), respectively, compared to the CON group. Furthermore, dietary OPO regulated the gut microbiota composition, increasing the relative abundance of Akkermansia, Dubosiella, and Bifidobacterium, while decreasing the relative abundance of Desulfovibrio. SCFA results indicated that compared to the CON group, the contents of acetic acid, propionic acid, butyric acid, and valeric acid in the LOPO group increased by 162.32%, 72.7%, 216.24%, and 25.2%, respectively; in the HOPO group, they increased by 160.68%, 74.58%, 163.85%, and 23.03% (P<0.001). In conclusion, dietary OPO may enhance intestinal barrier function and inhibit systemic inflammatory responses in weaned mice by modulating gut microbiota and related SCFA metabolism, providing a theoretical basis for targeted regulation of gut microbiota by OPO.
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Preparation of Zn-MOF/MWCNT-COOH/GCE Nanoelectrochemical Sensor for Rapid Determination of Anthocyanins in Food

Li Shu-Guo, ZHU Hao, CHANG Ding Xin, YUAN Zhao Hui

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Anthocyanins, a class of flavonoid compounds, exhibit significant bioactive properties including anti-aging effects, glycemic control, hepatoprotective functions, prevention of cardiovascular diseases and eye protection. To rapidly detect anthocyanin content in food, a nano-electrochemical sensor (Zn-MOF/MWCNTs-COOH/GCE) was fabricated using carboxylated multi-walled carbon nanotubes (MWCNTs-COOH) and zinc-based metal-organic frameworks (Zn-MOF) as composite modifiers. Employing cyanidin-3-O-glucoside (C3G) as the target analyte, a rapid detection method for anthocyanins in food matrices was established. The nano-electrochemical sensors were characterized by scanning electron microscopy (SEM), cyclic voltammetry (CV), and electrochemical impedance spectra (EIS). The cyclic voltammogram shows that a well-defined oxidation peak of cyanidin-3-0-glucoside (C3G) was observed, but no reduction peak was found during the electrochemical reaction on the glass carbon electrode, MWCNTs-COOH / GCE and Zn-MO F/MWCNTs-COOH / GCE sensor, which indicating that the electrochemical redox reaction is irreversible, the oxidation peak current values of C3G on glass carbon electrodes, MWCNTs-COOH / GCE, and Zn-MOF/MWCNTs-COOH / GCE sensors were 8.31, 54.41, and 71.04 μA, with a 6.5 and 8,5 times increase, respectively. Linear sweep voltammetry was then employed to optimize experimental conditions, the results as follows: citric acid buffer with pH 3.0 as the electrolyte buffer, the amounts of composite modification materials(MWCNT-COOH and Zn-MOF) was 6 μL, and the volume ratio between the two was 3:1. At these conditions, the oxidation peak current of C3G linearly increased with its concentration between 5 and 80 μmol/L, with detectable limitation of 1.9×10-7 mol/L (S/N=3). The developed method was used for the determination of anthocyanins in black rice, its results were agreed with that of the pH differential method. the recovery rate is 105.29%~110.54%, with the advantages such as easy operation, rapidity and good precision and anti-interference. Therefore, the developed method is practical to rapidly determination of anthocyanins in foods.
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Emulsifying Properties and Antimicrobial Activity of Pickering Emulsion of Mustard-Cinnamon-Garlic Combined Essential Oil

Duan Shan, Hou Xuyang, Liu Meizhao, Kong Yv, Liu Changjin, Zhang Junbing, Jiang Shenhua

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Essential oils, which are natural antibacterial substances, are characterized by their volatility and instability. To screen for essential oils with excellent antimicrobial properties against foodborne pathogens and to enhance their stability, three essential oils with effective antimicrobial activity against the foodborne pathogens Staphylococcus aureus, Acinetobacter baumannii, and Escherichia coli were identified through the determination of minimum inhibitory concentrations. Subsequently, MCGEO (Mustard-Cinnamon-Garlic combined essential oil) was encapsulated using lactose-glycosylated whey protein isolate and chitosan polymers (gWPI-CS), and the properties of the emulsion were tested. The results indicated that cinnamon, mustard, and garlic essential oils exhibited low minimum inhibitory concentrations against all three pathogens. The newly prepared Pickering emulsion gWPI-CS-EO had a particle size of approximately 348.10 nm, with an encapsulation efficiency of 99.85%. The retention rate of MCGEO remained above 83.00% after being stored at room temperature for 7 days. Electron microscopy images confirmed that the droplets of the prepared emulsion were uniformly spherical, with a relatively even distribution of oil droplets within the emulsion. Antibacterial experiments demonstrated that gWPI-CS-EO inhibited the growth of Escherichia coli, Staphylococcus aureus, and Acinetobacter baumannii over a period of 7 days. The main components of MCGEO were identified as cinnamaldehyde, diallyl sulfide, and allyl isothiocyanate. The study found that the Pickering emulsion gWPI-CS-EO exhibited better stability and long-term antibacterial efficacy. This research provides a theoretical basis for the development of Pickering emulsion to enhance the antibacterial properties and controlled release of essential oils.
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Compositional Differences and Comprehensive Quality Evaluation of Helianthus tuberosus from Different Origins

KAN Qixin, TAN Yue, WANG Qihao, HAN Shaoqin, LI Yuanping, LIU Guo, HAN Yongjun, HU Huacheng, XIAO Suyao, SONG Mingyue, DUAN Shan, CAO Yong

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In order to explore the compositional characteristics of Helianthus tuberosus from different origins and establish a scientific quality evaluation method, this study took Helianthus tuberosus from 41 origins as research objects and determined the content of 14 basic quality indicators. Compositional differences among Helianthus tuberosus from different origins and the effects of meteorological factors on their components were explored using similarity evaluation of the fingerprint of major sugar components, correlation analysis, and cluster analysis. A comprehensive quality evaluation model for Helianthus tuberosus was established using a combination of correlation analysis, principal component analysis, entropy weight method, and grey relational analysis. The results showed that there were significant differences in the physicochemical component contents of Helianthus tuberosus from different origins (P<0.05), with the highest variation coefficient of 63.78% for total flavonoids. 11 common peaks were identified in the fingerprint of major sugar components, with the overall similarity ranging from 0.890 to 0.999, and the main differences were in the content. The contents of various sugar components in Helianthus tuberosus were closely related to meteorological factors such as rainfall, temperature, and sunshine duration. Cluster analysis divided the Helianthus tuberosus from 41 origins into 4 categories. 4 core quality indices were identified by correlation analysis and principal component analysis, namely sucrose pentasaccharide, water content, fructose and ash. Grey relational analysis ranked Baishan in Jilin, Dingxi in Gansu, and Jinzhou in Liaoning as having superior comprehensive quality. This study provides a theoretical basis for the quality evaluation and comprehensive utilization of Helianthus tuberosus.
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Physicochemical Property Analysis of Thermally Irreversible Gels on Curdlan Gum-Rice Starch Heteropolysaccharide Blends

Lu jiayi, XIE Jingyi, DENG Yadan, LIN Qianwei, CAI Ran, TANG Jinglin, ZHUJianhua

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In order to improve the physical properties of rice starch (RS) and expand its application fields, analytical techniques such as rheological analysis, scanning electron microscopy (SEM), low-field nuclear magnetic resonance (LF-NMR), and X-ray diffraction (XRD) were used to systematically study the influence of curdlan (CL) addition amount on the structure and properties of the thermally irreversible gel of the CL - RS blends. It was found that when the CL addition amount reached the threshold of 0.60%, compared with the control, the gelatinization temperature was decreased by 1.69 °C, the retrogradation viscosity was increased by 25.00%, the syneresis rate was reduced by 47.73%, and the transverse relaxation time T22 was shortened by 58.01% to 6.45 ms. Compared with the group with 0.40% CL addition, the peak value of the storage modulus was increased by 40.20%, the G' value at the end of cooling was increased by 21.46%, and the chewiness was improved by 24.76%. When the CL addition amount was ≤ 0.60%, the retrogradation viscosity, the viscoelastic modulus at each phase-change temperature node, the chewiness, and the ratio of the bound-water peak area (A21) were increased significantly with the increase of the CL addition amount, while the transverse relaxation times T22 and T23 of water molecules, and the gel syneresis rate were decreased. Meanwhile, the porosity of the microstructure was decreased and the distribution uniformity was improved. When the CL addition was exceeded the threshold (0.80%), a reduction of 11.37% in G' at the end of cooling and a 42.89% decrease in chewiness were observed, accompanied by a transformation of the microstructure from a porous network to a dense layered structure.The mechanism was attributed to CL-induced enhancement of hydrogen-bond crosslinking density, which facilitated the formation of stable three-dimensional RS networks.In conclusion, the properties of the RS-based blend gel were effectively regulated by the threshold effect of CL addition amount, and a theoretical reference was provided for the development of new RS-based heterogeneous polysaccharide blend system foods.
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Optimization of the Preservation Process for Chilled Qingyuan Chicken Using High-Pressure Processing Combined with Bio-Preservatives by Response Surface Methodology

ZUO Chen, Li Biansheng, Ruan Zheng, Li Dandan, Li Ruiqing, Shi Jinming

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To extend the shelf life of chilled chicken, this study optimized the parameters for the synergistic effect of high-pressure treatment and composite biological preservatives, creating an efficient preservation plan. A four-factor interaction model was constructed using response surface methodology, with factors including the concentrations of Nisin (0.4~0.5 g.L-1) and lysozyme (0.2~0.3 g.L-1), pressure (300~400 MPa), and holding time (10~20 min). The colony count and TVB-N value were used as indicators to optimize the parameters. The optimal process conditions were determined as follows: Nisin concentration of 0.45 g.L-1, lysozyme concentration of 0.25 g.L-1, pressure of 350 MPa, and holding time of 15 minutes. Under these conditions, the colony count was 2.415 lg CFU/g and the TVB-N value was 7.845 mg/100g, with a deviation of ≤5% between the predicted and experimental values. Storage experiments showed that the shelf life of chilled chicken could be extended to approximately 20 days. The results indicate that the high-pressure treatment and biological preservatives have a synergistic effect, providing theoretical support for the development of efficient preservation technologies for chilled meat products, and technical support for optimizing process parameters in industrial applications.
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Analysis of the Differences in Inorganic Elements of Insect Tea from Different Producing Areas in Guangxi by ICP-MS Method

MIAO Lu, LEI Xiangrong, WEN Lixiang

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To investigate the inorganic element content differences and safety of insect tea from various producing areas in Guangxi, inductively coupled plasma mass spectrometry (ICP-MS) was used to determine 29 inorganic elements such as K, Ca and Mg in insect tea from five major production areas in Guangxi production areas (Sanjiang, Longsheng, Rong'an, Pingnan, and Wuzhou).Multiple statistical analyses were conducted, including ANOVA, Duncan's multiple range test, Pearson correlation analysis, and principal component analysis (PCA), to analyze the differences in the contents of inorganic elements in insect tea from different producing areas.The results showed that there were complex and diverse characteristics of differences (P<0.05) in the contents of various inorganic elements in insect tea from different producing areas. The correlation analysis revealed that some elements in Guangxi insect tea were significantly or extremely significantly correlated. Specifically, there were extremely significant positive correlations (P＜0.01) between B and K, Ca and Ti, and Zn and Na. Significant positive correlations (P＜0.05) were found between Ca and Sr, Al and Cu, Mn and Ni, Sr and Ti, Ba and B, as well as Ba and Sr. In contrast, significant negative correlations (P＜0.05) were observed between Mg and Ba, and between Mg and Sr. Through principal component analysis (PCA), three principal components were extracted, with a cumulative variance contribution rate of 94.5%. It was determined that multiple elements such as K and Ca were the main characteristic elements contributing to the differences in the composition of inorganic elements in insect tea from different producing areas. A traceability model for the origin of insect tea was preliminarily constructed based on the 3D scatter plot of the principal component scores.In terms of the safety assessment, although the contents of heavy metals in the insect tea were not found to exceed the standards for tea, the contents of Pb and Cr in the insect tea from the Sanjiang production area were relatively high.This results of this study provide a theoretical basis and data support for the origin discrimination, quality evaluation, and quality control of insect tea in Guangxi.
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Research progress on the effects of polyphenol-polysaccharide interactions on their physical and chemical properties and functional activities

Zou Ping, Wang Pan, Wang Dan, Qin Peiyou, Zhao Wenting, Zhao Yuanyuan, Wang Yubin, Zhao Xiaoyan

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Plant polyphenols and polysaccharides exhibit a range of biological activities, including antioxidant, anticancer, hypoglycemic, and immunomodulatory effects. However, the bioavailability of polyphenols is often hindered by challenges during digestion, such as poor intestinal absorption and limited systemic availability. Recent research has shown that polyphenols can form stable complexes with polysaccharides through molecular interactions, which not only enhance the solubility and gastrointestinal stability of polyphenols but also improve their functional properties in combination with polysaccharides. This review systematically examines the mechanisms behind the formation of polyphenol-polysaccharide complexes, focusing on both non-covalent and covalent binding interactions. The regulatory effects of these molecular interactions on the following four key areas are thoroughly discussed: the enhancement of polyphenol bioavailability (through improved solubility and stability); the modification of polysaccharide functional properties (including viscosity, crystallinity, rheological properties, emulsifying capacity, and stability); the synergistic biological activities of the complex system (such as antioxidant, anti-inflammatory, and regulation of glucose and lipid metabolism); and the impact on gut homeostasis (including gut microbiota composition, microbiota-derived metabolites, and gut barrier integrity). This study provides a novel approach and theoretical framework for the development of precision nutrition delivery systems based on polyphenol-polysaccharide molecular interactions, as well as the creation of functional food ingredients.
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The Impact of Different Storage Conditions on the Stability of Nutritional Components in Food for Special Medical Purposes

宋梦娜, 蓝雄, 刘彦均, 羊若涵, 黄兰茵, 张协光

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In order to understand the impact of storage conditions on the main nutritional components in different types of Food for Special Medical Purpose (FSMP) and their effects on product quality, this study investigated the changes in the content of nutritional components in FSMP under high-temperature, high-humidity, and light conditions. Five commercially available FSMPs were used as raw materials and stored under high-temperature, high-humidity, and light conditions for 5 days and 10 days respectively, and the changes in their nutrient contents were determined. The results indicate that high temperature, high humidity, and light can all cause a decrease in the vitamin C content. Among them, the influence of light was the most obvious. After 10 days of storage, the vitamin C content in the formula for premature infants or with low birth weight food decreases to 94.54 mg/100g, and the attenuation rate was as high as 9.43%. High temperature had the most obvious effect on the vitamin A content in the amino acid formula food. After 10 days of storage, it decreases to 2.20 mgRE/100g, and the attenuation rate reaches 7.56%. Under high-temperature and high-humidity conditions, the attenuation of the vitamin B1 content in all samples is less than 3%. Light has the most obvious effect on the vitamin A and vitamin D contents in the extensively hydrolyzed formula food. After 10 days of storage, the attenuation rates reached 3.62% and 3.80% respectively. At the same time, light has the most obvious effect on the vitamin B2 and vitamin K1 contents in the formula for premature infants or with low birth weight food. After 10 days of storage, the attenuation rates reaches 5.43% and 8.68% respectively. In conclusion, high temperature, high humidity, and light all have varying degrees of influence on FSMP. The research provides valuable insights for the quality and stability of FSMP products in different environments.
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Nutritional Composition, Textural and In Vitro Digestive Characteristics of Different Indica Brown Rice Varieties

刘小玲

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To promote the development of whole grain foods and low glycemic index (GI) staple products, this study systematically compared the nutritional composition, textural properties, and in vitro digestion characteristics of eight indica brown rice varieties with milled rice. Significant differences (P<0.05) were observed in fat, protein, and dietary fiber contents among different brown rice varieties. All brown rice varieties exhibited significantly higher (P<0.05) γ-aminobutyric acid, total free phenolics, and total free flavonoids compared to milled rice, accompanied by superior antioxidant capacities. The maximum DPPH and ABTS radical scavenging activities in brown rice were approximately fourfold and threefold higher than those in milled rice, respectively. The cooked brown rice demonstrated significantly greater hardness (P<0.05), with the softest brown rice variety still showing approximately 1.5 times higher hardness than milled rice. The estimated glycemic index (eGI) of brown rice ranged from medium to high GI levels, with Zhongzao 39 exhibiting the lowest eGI value (61.48), equivalent to 0.8 times that of milled rice. Significant negative correlations (P<0.01) were identified between eGI values and fat, protein, and dietary fiber contents. These findings suggest that brown rice holds substantial potential for enhancing nutritional value and developing functional low-GI foods, while providing theoretical support for processing optimization, formula design, and health function evaluation of brown rice products.
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Breeding A Mutant Strain of Auxenochlorella pyrenoidosa through Combined Mutagenesis and High-throughput Screening for High-yield Protein Production by Fermentation

YE HuiShi, WEI Dong

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In this study, the fermentation protein yield of Auxenochlorella pyrenoidosa was aimed to be enhanced, and its amino acid quality was improved through combined mutagenesis. The high-protein, chlorophyll-deficient mutant strain CX41, previously obtained by the research team, was used as the original strain. Combined mutagenesis was conducted using ethyl mesylate (EMS) and atmospheric and room temperature plasma (ARTP), followed by high-throughput screening through microbial microdroplet culture system (MMC) and 48-well plate cultivation. Subsequently, after secondary screening via 250 mL shake flask cultivation, the mutant strain Y11 was ultimately obtained. It was shown that under dark fermentation conditions at 30 ℃ and 160 r·min-1 for 96 h in Basal medium containing 30 g·L-1 glucose and 3.75 g·L-1 sodium nitrate, the biomass, protein content, and yield of Y11 reached 9.05 g·L-1, 55.54 g/100 g dry weight and 1.26 g·L-1d-1, respectively, which were significantly higher than those of the original strain CX41 by 21.15%, 25.60%, and 51.81%, respectively. The amino acid score (94.41) and the total branched-chain amino acid content (6.96 g/100 g dry weight) were also improved by 3.49 points and 27.35%, respectively. Moreover, the lutein content (1.12 mg·g-1), yield (10.10 mg·L-1), and productivity (2.52 mg·(L·d)?1) were significantly increased by 4.67%, 26.88%, and 26.63%, respectively, compared to CX41. This study is regarded as having provided a theoretical basis and technical support for the breeding of high-quality microalgal strains using combined mutagenesis and high-throughput screening techniques.
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Changes in the Edible Quality of Micropterus salmonides Under Different Thawing Methods

CHEN Xinyi, WANG Hong, HUANG Bingqi, TANG Yucong, QIAN Min, ZHAO Wenhong, Chen Sheng, BAI Weidong

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To explore the effects of different thawing methods on the edible quality of Micropterus salmonides and screen the optimal thawing method, in this study, the changes in the edible quality between fish meat thawed by different methods and fresh fish meat were compared through the detection of basic physical and chemical indexes such as water - holding capacity and texture properties, as well as flavor identification. The results showed that the fish meat thawed by water bath had the best water - holding capacity, with the water - holding rate reaching 81.10%, and the brine - thawing group had the highest thawing loss rate (P < 0.05), reaching 13.83%. The water migration of the fish meat in the water - bath thawing group was close to that of the fresh fish group. There was no significant difference in pH value among the thawing groups (P > 0.05). In terms of texture properties, the brine - thawing group was closer to the fresh fish group, followed by the water - bath thawing group. The sensory scores of the water - bath thawing group and the ultrasonic thawing group were relatively high (40.70 and 39.85 respectively), while that of the brine - thawing group was the worst (37.85). The contents of total amino acids, umami amino acids, and sweet amino acids in the fish meat of the water - bath thawing group were the highest, being 251.79, 162.44, and 56.43 μg·g-1 respectively, and the contents of 5'-inosinic acid (20.70 mg/100g) and hypoxanthine (15.52 mg/100g) were also prominent among the thawing groups. The organic acid contents in all thawing groups were significantly lower than those in the fresh fish group (P < 0.05). In conclusion, under the condition of ensuring the edible quality, water - bath thawing is more suitable for the thawing of Micropterus salmonides.
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Volume 41,2025 Issue 4

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