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Comparative Study on In Vitro Effects of Different Polysaccharides Enriching Gut Prevotella Copri

Lyu Yizhen, Zhong Yadong, Hu Jielun

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Natural polysaccharides could regulate gut microbiota to promote host health and have gained significant attention in recent years. Prevotella copri, a common Prevotella species in the gut microbiota, is closely related to human health. To investigate the differential enrichment effects of xylan, xyloglucan, arabinan, arabinoxylan, and arabinogalactan (as sole carbon sources) on P. copri, single-bacteria fermentation and in vitro fermentation were conducted. Parameters including OD600, SCFAs and P. copri, etc., were systematically measured. In single-bacteria fermentation, the growth of P. copri 2-27 and its acetic acid production were significantly promoted by xylan and arabinan, with OD600 increments of 0.64 and 0.61, and acetic acid concentrations of 10.66 mg·mL-1 and 9.87 mg·mL-1, respectively. During in vitro fermentation, the strongest enrichment capacity for P. copri was seen with arabinan (absolute abundance: 60.63 ng·mL-1), followed sequentially by xylan, arabinogalactan, and arabinoxylan. Notably, arabinan group maintained superior acetic acid and butyric acid production capacities (4.60 mg·mL-1 and 2.78 mg·mL-1, respectively). Although xylan was highly utilized, its P. copri enrichment effect remained limited (6.98 ng·mL-1). Consequently, arabinan was identified as the optimal polysaccharide for promoting P. copri growth and enrichment. This study provided a theoretical reference for exploring the impact of polysaccharides-P. copri interaction on host health.
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Quality and Microbial Community of Naturally Fermented Mustard Sour Cabbage in Chaoshan Under Different Salinity Conditions

阮征, 谢财喜, 郑钺颖

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In order to investigate the influence of brine concentration on certain physicochemical properties and microbial community characteristics in naturally fermented mustard greens pickles from the Chaoshan region. During the formal fermentation stage following pre-pickling, the salt concentration of the brine was adjusted to create gradients of 3 wt.%, 4 wt.%, and 5 wt.%. Throughout fermentation, changes in brine salinity, total acidity, appearance and flavor, reducing sugar, amino acid nitrogen, total lactic acid bacteria count, and total colony count were measured, and high-throughput sequencing of the bacterial community was performed on the pickles at the end of fermentation. The results indicated that salt concentration significantly affected both the physicochemical properties and the microbial populations during fermentation. After 10 days of fermentation, the total acid content differed by 1.83 g kg?1 between pickles fermented at 3 wt.% and 5 wt.% salt, and the time to reach peak reducing sugar content differed by 3 days between these two concentrations, while the difference between 3 wt.% and 4 wt.% was 1.06 g kg?1. Brine at 3 wt.% resulted in a higher proportion of spoilage and pathogenic bacteria, whereas brine at 5 wt.% partially inhibited the growth of non-halotolerant lactic acid bacteria, resulting in a lower proportion of lactobacilli (21%). Moreover, lower salt concentration appeared to accelerate the fermentation process. Based on microbial composition and amino acid nitrogen content, a brine with 4 wt.% salt was determined to be the most suitable for fermenting Chaoshan mustard greens pickles following pre-pickling. This study provides a theoretical basis for understanding the fermentation process and for selecting the appropriate salt concentration in naturally fermented mustard greens pickles from the Chaoshan region.
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Changes in Protein Composition of Wheat after Heat-moisture Treatment and its Effect on Noodle Quality

蒋沛格, 张德榜, 陈鹏枭, 张连慧, 任晨刚, 马森

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To investigate the changes in noodle quality after wheat undergoes heat-moisture treatment, the effects of the initial moisture content of wheat (14%~22%), heat-moisture treatment temperature (45~85 ℃), and heat-moisture treatment time (15~90 min) on wheat gluten protein composition and subunit ratio, as well as noodle cooking characteristics, texture characteristics and sensory quality were analyzed. The response surface method was used to predict the best process of heat-moisture treatment of wheat. The results indicated that: After high temperature and long-term heat-moisture treatment, the content of gliadin was significantly reduced, the content of glutenin was increased, the gliadin/glutenin ratio decreased, the content High molecular weight glutenin subunits（HMW-GS）and Low molecular weight glutenin subunits（LMW-GS）was significantly reduced, and the content of γ-subunits was significantly increased. A higher intensity of heat-moisture treatment (moisture content of 22%, temperature＞75 ℃, time＞60 min) would lead to an increase in the cooking loss rate of noodles, and a decrease in hardness, chewiness, elasticity, and sensory scores. The optimal conditions for heat-moisture treatment were found to be a temperature of 56 ℃, an initial moisture content of 18% in wheat, and a duration of 35 minutes. Under these conditions, the sensory score of the noodles was 83.8, the cooking loss rate was 6.02%, and the comprehensive score was 0.93. Compared to the untreated group, the hardness and chewiness of the noodles slightly increased, the water absorption rate increased by 7.63%, and there was no significant difference in sensory scores. In conclusion, appropriate heat-moisture treatment of wheat can improve the quality of noodles.
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Effect of Two Frying Methods on Food Quality of Grass Carp between wild (Jingpo Lake) and culture

李昌博, 潘德胤, 于潇, 马可心, 刁静静, 陈洪生

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This study investigated the differences in food quality of Jingpo Lake Grass Carp (JPGC) under various frying conditions, using Culture grass carp (CGC) as a control. The color difference, textural characteristics, and sensory evaluation were measured to screen for the optimal frying temperature and time. Further comparative analysis was conducted on the secondary structure and microstructure. The findings indicated that, the optimal process for traditional deep frying is at 200 ℃ for 4 minutes, whereas the optimal process for air frying is at 200 ℃ for 20 minutes. Air fried JPGC showed better edible quality, shear force of 2626.46 g, water content and non-flowing water content of 56.13%, 88.31% are higher than deep fried, the maximum extent to maintain the crisp inside and tender taste, the highest sensory score. Air fried can achieve the deep fried effect and reduce the fat intake by 96.46%, resulting in a lower degree of fat oxidation. The study of secondary structures revealed that, under both frying methods, the β-sheet content of JPGC was significantly higher than that in CGC. Microstructural analysis showed that the muscle fibers of air fried JPGC were arranged most tightly and orderly, minimizing juice loss during processing. In summary, air fried grass carp achieves similar eating quality compared to deep fried grass carp while reducing fat intake. Moreover, during processing, JPGC exhibits superior muscle quality relative to CGC.This research provides scientific evidence for the processing utilization of carp and the promotion of local specialty resources.
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Advances in The Absorption and Metabolism of Ellagitannins

张妮, Teng Jianwen, 黄丽, 夏宁

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Ellagitannin polyphenols are a class of natural phenolic compounds widely found in a variety of foods such as raspberries, strawberries and pomegranates, and exhibit a variety of biological activities such as anti-tumor and anti-inflammatory effects. However, studies have shown that ellagic polyphenols have low bioabsorption in vivo, which may be closely related to their structural complexity and large molecular weight. A systematic review of the bioabsorption and metabolism of ellagic polyphenols has not yet been conducted in China, and the mechanism by which their physiological activities are affected by bioabsorption and metabolism remains unclear. Based on the different types of motif linkages on the glucose nucleus of ellagic polyphenols, a new classification method is proposed in this paper to facilitate the understanding of the relationship between the bioabsorption of ellagic polyphenols and their characteristic motifs. On this basis, this paper systematically reviews the metabolic pathways of ellagitannin polyphenols and their influencing factors, focusing on the effects of physiological conditions and factors such as chemical structure and intake dose on the absorption and metabolism of ellagitannin polyphenols and their metabolites in vivo, and analyzes how the structural features of ellagitannin polyphenols affect their physiological activities from the perspective of metabolic mechanisms. This review provides new perspectives and new ideas for the study of the metabolism and functional activities of ellagic polyphenols..
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Biological Function of Strontium and Feasibility of Developing Strontium-Rich Milk

张养东, LUAN Qinggang, LI Jianli, ZHANG Nan, ZHAO Shengguo, Wang Jiaqi

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Bone health is accompanied by the entire life cycle, from birth to the end of life, people need calcium throughout their life to maintain bone health, similarly, as bone health of strontium is the same, it can affect the entire life cycle of people. Strontium is an essential trace element in the human body, which has various biological effects such as promoting bone formation and inhibiting bone resorption, improving myocardial function and promoting vascular regeneration, bactericidal, anti-inflammatory and antioxidant, etc. It helps to strengthen bones, prevent and treat osteoporosis and fracture, relieve hypertension and other diseases. Strontium is widely distributed in nature, but the distribution is extremely uneven in various regions of China, especially in the low content of strontium areas, it is recommended that people need to supplement strontium in the diet in time. In this paper, the basic characteristics, intake methods and safety of strontium, biological function of strontium, metabolism of strontium and its relationship with calcium, basic diseases of middle-aged and elderly people, as well as the feasibility of developing strontium-rich milk were reviewed, with a view to providing dietary reference for improving bone health of Chinese people.
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Changes of Carotenoid Components and Content in Sweetpotatoes at Different Developmental Stages

TIAN Jiamei

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In order to explore the accumulations of carotenoids in the development of sweetpotato tubers，the color characteristic values and carotenoid components and contents in sweetpotato tubers with different flesh colors at 45, 75, 105, 135 and 165 d after transplanting were detected by the chroma meter and ultra-high performance liquid chromatography. The results showed that the total content of carotenoids in orange-red-fleshed sweet potato （ ORFSP ） was much higher than that of other varieties, up to 299.07 μg ·g-1. During the development process, the total amount of carotenoids accumulated continuously in the early stage, but most varieties showed a significant decrease at 165 d. A total of 11 carotenoids were detected in 8 sweetpotato varieties. Among them, β-carotene, violaxanthin, neoxanthin, antheraxanthin and lutein had high content and stable during the development of sweetpotato. The proportion of violaxanthin and antheraxanthin in yellow-fleshed sweetpotato （YFSP） is high, while the orange-fleshed sweetpotato （OFSP） mainly accumulated lutein and β-carotene. The content of β-carotene in ORFSP account for 81.20 % -94.38 % of total content, and β-carotene is the most important carotenoid in sweetpotatoes. Carotenoids in sweetpotato were negatively correlated with brightness (L*) and chroma angle (H*), and positively correlated with redness (a*) and color saturation (C*). Neoxanthin was significantly positively correlated with yellowness (b*). In summary, the carotenoid components of OFSP and ORFSP were more abundant, among which the carotenoid content of ORFSP was higher, and the carotenoid monomer containing oxygen functional groups in YFSP accounted for a relatively high proportion in carotenoids; The results could provide a theoretical basis for the study of nutritional quality and variety breeding of sweetpotato.
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Protective Effect of Apigenin Against Vomitoxin-Induced Intestinal Injury in KM Mice

Zhang baigang, Jiao lu, Huang chenghui, Xu dongmei, Shi Wengui

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Based on the intestinal damage in KM mice caused by deoxynivalenol (DON), The protective effects of apigenin (API) were investigated and its potential mechanisms were revealed in the study. Healthy male KM mice were randomly divided into a blank group, a DON group, a low-dose API group, a high-dose API group, a low-dose API intervention group (low-dose API+DON), and a high-dose API intervention group (high-dose API+DON). The protective effect of apigenin against vomitoxin-induced intestinal injury in KM mice was comprehensively assessed by weight monitoring of mice, pathological staining of colonic tissues with hematoxylin-eosin, TUNEL apoptosis staining, Western blotting apoptosis-related protein expression assay, and determination of serum lactate dehydrogenase (LDH), total superoxide dismutase (SOD), and malondialdehyde (MDA) content. The results of the study showed that the body weight of mice in the DON group decreased significantly after peaking on day 19 compared with the blank group, and the decreasing trend of body weight of mice was mitigated by the high-dose API intervention. Pathological examination revealed that colonic tissue damage was improved after high-dose API intervention, and the pathological score of damage was reduced by 1.3 compared with that of the DON group.TUNEL staining showed that the number of apoptotic cells was significantly reduced after API intervention, and Western blotting further confirmed that API intervention down-regulated the expression of apoptotic proteins Bax, P53, Caspase-12 and Caspase- 9 and decreased the expression of Bcl-2, and the expression of Bcl-2. 9 and decreased the expression of Bcl-2. Serological assays revealed that the high-dose API intervention reduced the LDH level by 7.5% (P<0.05), SOD activity by 46.8 % (P<0.05), and MDA content by 12.3% (P<0.05), compared with the DON group. Therefore, the above results indicate that API has a significant protective effect on DON-induced intestinal damage in KM mice, and its mechanism of action may be related to the inhibition of DON-induced apoptosis in colonic tissues, as well as the improvement of the synergistic multi-pathway effects such as serum LDH and SOD enzyme activities in mice. Strong theoretical support is provided for the potential application of apigenin as a functional food ingredient in the prevention and treatment of DON-related intestinal injury.
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Effect of pulsed electric field synergistic medical stone treatment on changing the quality of Qingxiang Baijiu

WANG Jiangbo, MAO Chunkui, 徐健, 金硕

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To enhance the flavor and texture of baijiu and improve product quality, we employed pulsed electric fields in conjunction with medical stone treatment to investigate their effects on the quality changes of baijiu as our research focus. The process was optimized through a combination of single-factor tests, response surface methodology (RSM), and artificial neural network (ANN) analysis integrated with genetic algorithms (GA), utilizing sensory scores as evaluation metrics. The impact of the optimized treatments on the physicochemical indexes of the liquor samples was subjected to comprehensive investigation. Furthermore, the volatile components in the wine samples were evaluated and compared before and after optimization through headspace solid-phase microextraction (HS-SPME) and gas chromatography-mass spectrometry (GC-MS). The results demonstrated that the optimal process conditions were 1.7% medical stone additive, 22-minute treatment time, and 12 kV pulse voltage. Under optimized conditions, the sensory score of the clear-flavored Baijiu was 86.70, which was 16.53% higher than the original wine, and a significant improvement in sensory quality occurred. In total, 65 major components were identified in the original and optimized samples through the use of HS-SPME and GC-MS, including alcohols (8), acids (10), esters (34), aldehydes and ketones (8), and a miscellany of other compounds (5). Compared with the original wine, the relative content of the final optimized wine samples showed a decrease of 1.41% and 2.24% in alcohols and esters, respectively, and an increase of 1.17% in acids, which made the wine samples more coordinated and softer, and explored a new direction of technological research for the enhancement of the flavor and texture of Baijiu.
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Changes of Starch Digestibility and Molecular Structure of Sterculia Nobilis Smith Nuts under Cooking Treatment with and without Shell

CHEN Ruizhi, QIN Zhiliang, SUN Yuanyuan, SONG Xianliang, LUO Shucan, SITU wenbei

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Sterculia nobilis Smith nuts are rich in starch. However, there are few relevant studies about the molecular structure of starch in Smith nuts and its digestibility. Cooking before shelling and shelling before cooking were used to treat the Smith nuts in order to explore the digestibility and molecular structure of starch, which investigated the relationship between the starch digestibility and its molecular structure. The experimental result showed that Smith nuts food had a higher slowly digestible starch content (55.16%) and a higher proportion (20.15%) of long-chain amylopectin(36
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Isolation and fermentation properties of yeast for low temperature resistant mulberry wines

Ding Bo, Lin Ying, Xiong Ling, Zhao Shutian, Zhang Wenxue

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To screen novel strains for low-temperature fermentation of mulberry fruit wine. Fermentation strains with excellent low temperature tolerance and alcohol production performance were isolated from the natural fermentation broth of mulberry fruit. The screened strains were also analysed for tolerance. Fruit wine fermentation performance and aroma characterisation were carried out. Two strains of Pichia kluyveri (PK-1 and PK-2) with excellent aroma production and one strain of Saccharomyces cerevisiae (SC-1) with excellent fermentation performance were obtained. The results showed that the three strains grew well at 16 ℃. The tolerance for ethanol, high sugar and SO2 reached 15% (V/V), 400 g/L and 300 mg/L, respectively. For the general production of fruit wines with pH values > 3, all strains could be adapted. The fermentation tests showed that the SC-1 group reached an alcohol content of 13.26% (V/V). A total of 54 volatile aroma compounds were found in the fermentation, of which 24 were found in the SC-1 group, 32 in the PK-1 group and 31 in the PK-2 group. The isoamyl alcohol and phenylethanol content (m/V) in SC-1 group reached 43.09 μg/mL and 143.66 μg/mL, respectively. Phenethyl acetate (m/V) reached 402.96 μg/mL and 421.51 μg/mL in PK-1 and PK-2 groups, respectively, with significant differences in characteristic aroma components. The SC-1 strains had excellent fermentation performance at low temperatures and outstanding brandy flavour. The two PK strains showed an excellent production of the ester. This could be used to create a new floral and fruity aroma for co-fermented fruit wines. The results of this study will provide a reference and basis for improving fruit wine flavor.
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Long-chain Inulin Ameliorates Inflammation and Gut Microbiota Dysbiosis in Aging and Eczema Mice

刘嘉欣, 赵超超, 莫玲, 李晶晶, 黄镜升

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To investigate the potential mechanisms behind the improving effect of long-chain inulin against eczematous dermatitis in aging mice. The improving effects of 5 % and 20 % long-chain inulin on eczema in aging mice model induced by D-galactose combined with DNCB (2,4-Dinitrochlorobenzene) was analyzed after feeding for 3 weeks. Herein, pathological changes of skin and colon tissues, inflammation-related factors levels of serum, spleen, liver, thymus, and colon tissues, as well as fecal microbiota were evaluated. The results showed that low-dose and high-dose long-chain inulin intervention alleviated the skin damage and improved the pathological changes of colon. The epidermal thickness decreased by 32.07% and 22.63% in the low-dose and high-dose long-chain inulin groups, respectively. The mRNA expressions of IL-1β (Interleukin-1 Beta) and IL-6 (Interleukin-6) in colon were significantly decreased, as well as the levels of IL-6 and IL-10 (Interleukin-10) in serum, spleen, liver, and thymus were effectively reduced after low-dose and high-dose long-chain inulin intervention. The results of 16S rRNA sequencing showed that the relative abundance of Verrucomicrobia, Verrucomicrobiaceae, Akkermansia and Clostridiuma was significantly increaseed in the model group mice, while different doses of long-chain inulin intervention shifted these changes back to normal levels. In comparison with the model group, the relative abundance of Bacteroidetes, Bacteroidaceae, and Bacteroides significantly promoted, and the relative abundance of Firmicutes, Lactobacillaceae, and Lactobacillus significantly decreased after high-dose long-chain inulin intervention. The results will provide theoretical basis for the application of long-chain inulin dietary intervention in age-related eczematous dermatitis.
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Construction of beeswax-based Ganoderma lucidum polysaccharide emulsion gel system and optimisation of anti-fatigue function

wuhaoran, dingmuchun, gaoxin, luhaodong, liuchao, zhangyong

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Common margarine increases cardiovascular and cerebrovascular prevalence due to high trans fats and excessive intake. To improve this situation, in this study, beeswax was chosen as the wall material to encapsulate Ganoderma lucidum polysaccharides, and a Ganoderma lucidum polysaccharides emulsion gel with anti-fatigue effect was developed as a cream improver. The emulsion gel properties were determined using a zeta potential meter and laser granulometry, among other methods. It was confirmed that the Ganoderma lucidum emulsion gel exhibited good rheology and stability, which imparted functionality and health value to the cream. The embedding process of Ganoderma polysaccharide was optimized using one-way and response surface experiments, and the results showed that the embedding rate of Ganoderma polysaccharide reached a maximum value of 93.21% when beeswax was added at 2.3%, 58% of oil phase, the emulsion temperature was 76℃, and the homogenization time was 5.7 min. The properties of Ganoderma polysaccharide beeswax-based water-in-oil emulsion gels were examined in terms of particle size, texture, potential, and freeze-thaw stability. It was observed that the addition of Ganoderma lucidum polysaccharide emulsion gel to the plant cream resulted in a reduction of particle size and a significant increase in the homogeneity and stability of the emulsion (P<0.05). Texture analysis showed that the hardness of the plant cream increased by 22.58%, viscosity increased by 9.23%, and elasticity increased by 18.42%, with the hardness of the plant cream reaching 14.28 gf. The absolute value of the electrical potential increased to 28.26 mz, and the freeze-thaw stability of the emulsion gel was found to be good. Animal experiments confirmed that mice ingesting Ganoderma lucidum polysaccharide gel showed elevated levels of blood urea nitrogen and whole blood lactic acid content, and decreased levels of hepatic glycogen in a dose-dependent manner, with significant anti-fatigue activity (P<0.05). Ganoderma lucidum polysaccharide emulsion gels were ultimately shown to improve the processing characteristics of vegetable creams and provide a data base for future health food development.
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Comparison of the quality of mixed dough and Nang of chickpea powder under germination treatment

刘雨彤, 王鑫沂, 牙力库尼·亚森, 杨芳, 汪世杰, 冯作山, 黄文书

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In order to analyze and compare the effects of untreated and germinated chickpea flour on the rheological properties, protein secondary structure, microstructure of dough, as well as the textural and sensory characteristics of chickpea-based flatbreads, with the aim of selecting appropriate treatment methods to enhance the quality of chickpea-based flour products. The results revealed that as the substitution rate of chickpea flour increased, the water absorption rate of the mixed dough was increased, while the peak viscosity was decreased. At a 30% substitution rate, the stable protein secondary structure in the untreated group was decreased by 10.07%, whereas the unstable structure was increased by 14.45%. In contrast, the germinated group exhibited an increase of 13.11% in stable structure and a decrease of 1.34% in unstable structure, indicating that germinated chickpea flour was more effective in maintaining the stability of the mixed dough system. The flatbread prepared with 30% germinated chickpea flour demonstrated optimal textural properties (hardness: 1234.7 g, cohesiveness: 531.3 g, chewiness: 597.2 mJ) and achieved the highest sensory score of 93.1. In conclusion, the incorporation of 30% germinated chickpea flour was found to impart favorable mechanical properties and processing quality to the chickpea-based flatbread. This study provides a scientific basis for the application and development of chickpea flour in flour-based products and reveals the potential of using chickpea flour to improve dough quality.
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Progress in the study of bioactive components and their physiological effects in Dendrobium nobile

CAI Luyun, FAN Xinyi, LUAN Qian

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Dendrobium, as a traditional Chinese herbal medicine, has always occupied an important position in traditional medicine, and is widely used in nourishing and nourishing health, enhancing immunity, anti-fatigue and so on. In recent years, the research on the bioactive components of Dendrobium and its physiological effects has made remarkable progress. The active ingredients in Dendrobium mainly include polysaccharides, alkaloids, flavonoids, astragalus, phenols and so on. In terms of physiological effects, Dendrobium has been widely studied in the fields of anti-aging, antioxidant, antitumor, antidiabetic and hepatoprotective. This article reviews the research progress on the bioactive components of Dendrobium and their physiological action applications in medicine and food, and summarizes its current development in the fields of medicine, food and cosmetics, so as to provide a reference for the development and utilization of Dendrobium.
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Study on the mechanism of aroma interaction between fruit aroma and pyrazine compounds of baking aroma

牛云蔚

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To investigate the influence of fruit aroma substances on the aroma and flavor of baked fragrance, the threshold value method was used to determine the threshold values of 17 common edible fruit aroma substances. Based on the threshold values, these substances were mixed with 2,3,5-trimethylpyrazine at different mass concentrations and the interaction between fruit aroma substances and pyrazine-type compounds in binary mixtures was studied using the S-curve method. The study found that 13 of the fruit aroma substances had synergistic effects with pyrazine-type compounds, while two substances (farnesol and pentyl lactate) showed additive effects, and two substances (bergamot ketone and limonene) had masking effects on pyrazine-type compounds. The sensory results showed that ethyl acetate and bergamot ketone had synergistic effects and circular mandarin ketone had masking effects. The 200ns molecular dynamics simulation was carried out for ethyl acetate and circular mandarin ketone to further verify the interaction between the ligand and the receptor. The stability of the entire protein system can be objectively expressed by the root mean square deviation (RMSD) and the number of hydrogen bonds and hydrophobic bonds, which can be used to study the interaction between the two compounds. The results obtained by the RMSD and the number of hydrogen bonds and hydrophobic bonds are consistent with those obtained by the S-curve method. Therefore, molecular dynamics simulation can further verify the sensory results, provide a theoretical basis for the study of compound interactions, and provide theoretical guidance for future food production and flavoring.
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Molecular pathway of β-casein phosphate regulating osteoblast function

Qu Siyu, Cao Yong, 林倩如, 刘果, 李俊, 陈宇立

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β-Casein phosphopeptides (β-CPP), a class of bioactive peptides derived from β-casein, possess excellent calcium-binding capacity and demonstrate potential applications in promoting bone health. In this study, β-CPP was prepared through enzymatic hydrolysis to investigate its effects on the proliferation, differentiation, and mineralization of osteoblasts (MC3T3-E1), with its mechanism of action being analyzed through transcriptomics. The results indicated that when the concentration of β-CPP was 50 μg/mL, the proliferation rate of MC3T3-E1 cells was significantly increased to 128.43% after 72 h of treatment (P < 0.05). After 7 days of treatment, alkaline phosphatase activity was 2.17 times higher than that of the control group, and after 21 days, the mineralization rate was 2.15 times higher than that of the control group, demonstrating that β-CPP significantly enhanced alkaline phosphatase activity and extracellular matrix mineralization in MC3T3-E1 cells (P < 0.05). RNA-seq results revealed 476 differentially expressed genes in β-CPP-treated MC3T3-E1 cells, among which 258 genes were upregulated and 218 genes were downregulated. Gene Ontology (GO) analysis indicated that the differentially expressed genes were primarily involved in the regulation of biological processes. KEGG pathway enrichment analysis showed that signaling pathways such as TGF-β and PI3K-Akt were involved in the differentiation of MC3T3-E1 cells. This study revealed the promoting effects of β-CPP on the proliferation, differentiation, and mineralization of MC3T3-E1 cells, providing a theoretical basis for the application of β-CPP in bone health and functional foods.
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Study on the Preparation of ACE Inhibitory Peptide from Porcine Blood Protein by Lumbrokinase and Its Antihypertensive Activity

TONG Zhaoli, CHEN Ruyang, LAI Furao, MIN Tian, WU Hui, HE Ping

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To investigate the feasibility of using lumbrokinase as a protease in the development of bioactive peptides, and to study the antihypertensive activity of porcine blood protein ACE inhibitory peptides and explore their mechanisms of action, this study extracted and purified lumbrokinase with an enzyme activity of 43125.87 U/mg protein from earthworms, and used it to prepare porcine blood protein ACE inhibitory peptides. After separation and purification, an ACE inhibitory peptide with an ACE inhibition activity of 91.30% was obtained, named PBEP-M. A cell damage model was established by inducing HUVEC cells with Ang II. The toxicity of PBEP-M on HUVEC cells was determined using the CCK-8 assay, while the secretion levels of ET-1, NO, and ROS cytokines were measured using ELISA kits. Western Blot analysis was used to detect the expression of related proteins in the ACE - Ang II - AT1-R pathway. The experimental results indicated that when the mass concentration of PBEP-M ranged from 62.5 to 1000 μg/mL, it significantly promoted cell proliferation (P < 0.05). The 500 μg/mL PBEP-M treatment group significantly increased NO secretion (P < 0.05), which was 84.00% higher compared to the Ang II group. Additionally, PBEP-M significantly inhibited the secretion of ET-1 and ROS, reducing them by 53.66% and 36.94%, respectively, compared to the Ang II group. Furthermore, PBEP-M significantly inhibited the expression of ACE, Renin, and AT1-R (P < 0.05), reducing their levels by 76.76%, 83.96%, and 89.05%, respectively, compared to the Ang II group. Moreover, PBEP-M promoted the expression of eNOS protein (P < 0.05), which was increased by 8.77 times compared to the Ang II group. These findings suggest that the porcine blood protein ACE inhibitory peptide prepared using lumbrokinase can improve endothelial injury and exert a blood pressure-regulating effect.
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Establishment and Application of Multiple qPCR Detection System for Foodborne Pathogens in Aquatic Prefabricated Dishes

黄浪萍, 丁郁, 张菊梅, 周聪煜, 潘紫英, 王涓

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To efficiently detect foodborne pathogens in aquatic prefabricated dishes, a multiplex real-time quantitative PCR (qPCR) system targeting Vibrio parahaemolyticus, Listeria monocytogenes, and Salmonella spp. was established. The performance of this kit, including specificity, sensitivity, anti-interference capability, and stability, was comprehensively evaluated using spiked and real samples. In pure culture, the lowest detection limits of V. parahaemolyticus, L. monocytogenes and Salmonella spp. were 8.67×10₁^{CFU/mL, 3.47×10}₂CFU/mL and 6.56×10₃^CFU/mL. In spiked samples, after 12 hours of enrichment, minimum detection limits were determined as 6.30×10₀^CFU/mL (V. parahaemolyticus), 6.13×10₂^CFU/mL (L. monocytogenes) and 2.44×10₁^CFU/mL(Salmonella spp.), respectively. Results from 60 real samples were found to align seamlessly with national microbiological standards, confirming high accuracy. Characterized by robust specificity, stability, and interference resistance, this system enables rapid and precise pathogen detection, providing an effective tool for food safety monitoring with substantial application potential.
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The Improvement Effects of Ganoderma Lucidum Polysaccharide Formula on Fatigue and Immunodeficiency after Laparoscopic Surgery

XIA Zumeng, ZHANG Ying, YANG Yijin, DAI Huajia, LUO Zhen, ZHOU Yong, AI Lianzhong, XIA Yongjun

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Abstract:

The effects of oral Ganoderma Lucidum polysaccharide formula on the immune recovery, fatigue improvement and sleep quality of patients after laparoscopic surgery were investigated in current study. A prospective, randomized, double - blind, placebo - controlled, single - center clinical trial method was adopted. Seventy - eight postoperative patients were randomly divided into a placebo group (n = 38) and a Ganoderma Lucidum group (n = 40), and were given placebo and Ganoderma Lucidum polysaccharide formula respectively for 30 consecutive days. The results were shown that in the Ganoderma Lucidum group, the total protein increased from 60.69 g·L-1 to 69.17 g·L-1, albumin increased from 33.47 g·L-1 to 41.27 g·L-1, and prealbumin increased from 196.31 mg·L-1 to 291.21 mg·L-1, all of which were significantly higher than those in the placebo group (P<0.05). Among immune cells, the percentage of CD3+ in the Ganoderma Lucidum group increased from 56.96% to 65.42%, the percentage of CD3+/CD4+ increased from 41.64% to 51.77%, the percentage of CD3+/CD8+ increased from 18.75% to 27.40%, IgA increased from 2.02 g·L-1 to 2.87 g·L-1, and IgG increased from 9.04 g·L-1 to 12.74 g·L-1, all significantly higher than those in the placebo group (P<0.05). The levels of TNF-α and IL-6 inflammatory factors in the Ganoderma Lucidum group were significantly decreased (P<0.05), the fatigue score decreased from 41.03 to 27.2, and the sleep quality index increased from 61.38 to 84.50, which were significantly better than those in the placebo group (P<0.05). In conclusion, Ganoderma Lucidum polysaccharide formula plays significant roles in nutritional support, immune regulation, anti-inflammation and anti-fatigue during the postoperative rehabilitation stage, and can effectively improve the overall recovery of postoperative patients, providing certain data support for the application of Ganoderma Lucidum polysaccharide formula.
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Volume 41,2025 Issue 2

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