欢迎访问现代食品科技网站

Consulting Platform

Current Issue
Online First
Adopt

Archive

Select All

Display Method:: |

Select All

Display Method: |

Research Progress on Drying Technology and Process for Granular Agricultural Products

xingyanjia, wangxiaowan, wanyankun, wenyunshou, zhuwenxue

Abstract: (13) HTML (0) PDF (0.00 ByteKB) (4)

Abstract:

Granular agricultural products are constituted as a staple food source for over 70% of the global population, are recognized as a core component within the food processing chain, and are accorded significant economic importance in international trade. It has been extensively documented that inadequate desiccation during harvest seasons is associated with the facilitation of mould proliferation, the induction of germination processes, and the acceleration of product deterioration. These outcomes are manifested through compromised food security and incurred economic losses. Nevertheless, the porous structural characteristics inherent to granular crops, combined with the stress fission challenges encountered during dehydration processes, render alternative methods such as solarisation and hot air drying frequently inadequate for meeting crop-specific drying requirements. In this study, the implementation and relative merits of microwave and infrared drying technologies for granular crops are systematically examined. Subsequently, the enhanced drying efficiency and quality parameters achieved through microwave-hot air, infrared-hot air, and infrared-microwave hybrid drying systems are quantitatively demonstrated in comparison with conventional single-mode drying approaches. A comprehensive synthesis is presented regarding experimental findings and research priorities associated with microwave-vacuum, far-infrared vacuum, and fluidised bed drying applications.The developmental potential of emerging desiccation technologies – including radio frequency, ohmic, and heat pump-based systems – is critically evaluated through comparative analysis of dehydration kinetics, energy efficiency metrics, and product quality indices. A theoretical framework is established for the optimization of novel drying equipment and operational parameters. This systematic investigation contributes substantively to the realization of energy-efficient, low-carbon, and quality-preserving drying objectives, thereby providing crucial technical support for global food security initiatives and sustainable agricultural practices.
1
Progress in the study of bioactive components and their physiological effects in Dendrobium nobile

CAI Luyun, FAN Xinyi, LUAN Qian

Abstract: (20) HTML (0) PDF (0.00 ByteKB) (11)

Abstract:

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.
1
Analysis of physical and chemical characteristics and quality evaluation of commercially available duck liver paté

徐安琪, 高子武, 王恒鹏, 还传明, 高苏敏, 孟祥忍

Abstract: (10) HTML (0) PDF (0.00 ByteKB) (12)

Abstract:

In this study, four commercially available duck liver paté named Lefanxi (LF), Lehang (LH), Jiani (JN), and MARTIKO (MA) were examined. Color, pH, thiobarbituric acid reactive substances (TBARS), emulsifying stability, thermal stability, free fatty acid, and sensory quality were determined. Meanwhile, a quality evaluation model for commercially available duck liver paté was established by principal component analysis. The experimental results showed that the sensory scores of MA duck liver paté were significantly improved by the addition of such ingredients as wine, pepper, and xanthan gum (P < 0.05). The Lightness (L*) of the LF and LH duck liver paté was increased to 64.36 and 63.31, respectively, by the addition of pork lard and duck fat. The redness (a*) of MA duck liver paté was significantly increased by the addition of wine and sodium nitrite(P < 0.05), and its fat oxidation degree was effectively reduced, with the TBARS value being 3.5 mg MDA/kg. In addition, the emulsifying stability and thermal stability of MA duck liver paté were found to be significantly higher than those of LF and LH duck liver sauces (P < 0.05), with the values being 90.47% and 86.26% respectively. A total of 17 free fatty acids were detected in the four commercially available duck liver paté. Among these free fatty acids, palmitic acid and stearic acid were found to have relatively higher contents. The content of free fatty acids in JN duck liver paté and MA duck liver paté was found to be significantly higher than that in LF duck liver paté and LH duck liver paté (P < 0.05). Compared to other duck liver paté, the content of polyunsaturated fatty acids in MA duck liver paté was found to be significantly higher than in other duck liver paté (P < 0.05), which is corroborated by its high sensory score of 4.2, indicating its higher nutritional value. Meanwhile, the quality evaluation model of commercially available duck liver paté constructed based on principal component analysis was F = (0.64F1+0.3F2) / 0.94, and the highest composite score of MA duck liver paté was 10.92, and texture, odour, a*-value, and saturated fatty acid content were the key indexes affecting the quality of duck liver paté.
1
Study on the Component Identification and Safety Evaluation of the White-Frosted Citrus reticulata ‘Chachi’

杨梦雪, 詹若挺, 王婉婷, 樊正炎, 朱从一, 陈婉冰, 曾继吾

Abstract: (25) HTML (0) PDF (0.00 ByteKB) (11)

Abstract:

Xiaoqinggan (XQG), the green small fruit of Citrus reticulata 'Chachi', is the raw material used for processing Citrus Pu’er tea, but many XQG have "white frost" on their surface during storage. Currently, the composition, safety, and formation mechanism of the "white frost" remain unknown. Therefore, the microscopic morphology, surface composition, mycotoxin content, and microbial diversity of normal, white-frosted, and moldy XQG were analyzed. Using scanning electron microscope, the “white frost” on the surface of XQG was found to consist of blocky and needle-like crystals. Through UPLC/Q-TOF analysis, the main components of the surface wash solution from white-frosted XQG were polymethoxyflavones. Through quantitative analysis, the nobiletin content in the surface wash solution of white-frosted XQG was found to be 9.15 times and 14.9 times higher than that of normal and moldy XQG, respectively, while the tangeretin content was 26.9 times and 78.8 times higher, respectively. The diversity analysis of fungi and bacterial communities on the surface of the XQG showed that Ogataea, Penicilliusm, and Alternaria in the moldy XQG increased significantly, while the microbiota levels on the white-frosted XQG surface were found to be similar to those from the normal group. In the mycotoxin analysis, only moldy XQG was found to contain 430 μg/kg of zearalenone. This indicates that the“white frost” on the surface of XQG is formed by the precipitation of polymethoxyflavones, with nobiletin and tangeretin as the main components. Additionally, the microbial profile on the surface of white-frosted XQG is similar to that of normal XQG, with no fungal contamination or no risk of mycotoxin exposure, suggesting that the white-frosted XQG are harmless to humans.
1
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

Abstract: (19) HTML (0) PDF (0.00 ByteKB) (17)

Abstract:

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.
1
The Hypoglycemic Effect of Oxyresveratrol

蒙富声, 过利敏, 唐琼, 蒋直宏, 付婷芸, 冯汝相, 包晓玮

Abstract: (11) HTML (0) PDF (0.00 ByteKB) (13)

Abstract:

In order to explore the hypoglycemic effect of oxyresveratrol (OXY). In vitro experiments were conducted to evaluate the antioxidant activity of oxidized resveratrol (OXY) and characterize its inhibitory mechanisms on key digestive enzymes. A type 2 diabetes mellitus (T2DM) rat model was subsequently established through high-fat/high-sucrose diet feeding combined with streptozotocin (STZ) injection for pharmacological validation. Daily oral administration was maintained for 28 consecutive days, during which body weight fluctuations, multiple physiological and biochemical parameters were systematically monitored and recorded. Histopathological examinations were performed on hepatic and renal tissues to assess organ-specific therapeutic effects. In vitro results showed that the half-maximal inhibitory concentrations (IC50) of OXY for DPPH and ABTS+ radical scavenging were 7.139 μg·mL-1 and 16.59 μg·mL-1, respectively. The inhibitory effects of OXY on α-amylase were found to be dose-dependent, with an IC50 value of 1.41 mg·mL-1. Additionally, the inhibition of α-glucosidase by OXY was determined to be non-competitive, with an IC50 of 66.59 μg·mL-1 and a Ki value of 60.82 μg·mL-1. In animal experiments, it was demonstrated that, after intervention with high-dose OXY, the levels of fasting blood glucose (FBG), fasting insulin (FINS), triglycerides (TG), total cholesterol (TC), low-density lipoprotein cholesterol (LDL-C), aspartate aminotransferase (AST), alanine aminotransferase (ALT), advanced glycation end products (AGE), malondialdehyde (MDAs), areas under the curve (AUC), homeostasis model assessment of insulin resistance (HOMA-IR), and the relative gene expression level of GSK-3β were reduced by 32.1%, 19.52%, 25.13%, 21.29%, 32.71%, 21.39%, 28.9%, 10.13%, 31.37%, 17.52%, 39.32%, and 13.16%, respectively, compared with the model group (P<0.05). Meanwhile, the levels of glutathione peroxidase (GSH-Px), superoxide dismutase (SOD), and the relative gene expression level of GYS2 were increased by 40.2%, 26.24%, and 18.37%, respectively (P<0.05). Histopathological examination revealed that OXY improved hepatic steatosis, inflammatory cell infiltration, and vacuolation of renal tubular epithelial cells. Collectively, OXY has been evidenced to exert hypoglycemic effects and mitigate T2DM-related pathological manifestations, which lays a theoretical groundwork for its phytopharmaceutical exploration in natural product-derived therapeutics.
1
Analysis of functional components and structure of crude polysaccharides of Phellinus igniarius from different origins

赵艳芸, 李玉飞, 何超, 杜虎

Abstract: (19) HTML (0) PDF (0.00 ByteKB) (19)

Abstract:

To compare and analyze the difference of functional component content and structure of crude Phellinus igniarius polysaccharide from different origins (Jilin, Hebei, Yunnan and Xizang), the crude polysaccharides of Phellinus igniarius were extracted by hot water extraction and ethanol precipitation. The composition of monosaccharides, the preliminary characterization of structural and the content of active components were analyzed by high performance liquid chromatography, Fourier infrared spectrometer and ultraviolet-visible spectrophotometer. The results showed that the crude polysaccharide from Xizang Phellinus igniarius were had the highest content of functional components , the contents of polysaccharides, total phenols, total flavonoids and total triterpenes were 58.81%, 11.11%, 20.96%, 4.49%, respectively. It had the best thermal stability, and the residual amount after thermogravimetric analysis was the highest, and the mass fraction was 51.30%. The crude polysaccharides of Phellinus igniarius were mainly composed of glucose, mannose and galactose. There were O-H, C-H and other characteristic peaks of polysaccharides in the spectra of polysaccharides, and there were acid polysaccharides, and there was no significant difference between in crystal state. This study compared and analyzed the crude polysaccharides of Phellinus igniarius from four sources, and found that the crude polysaccharides of Xizang Phellinus igniarius had the highest content of four effective components and thermal stability. The chemical composition and structure of crude polysaccharides from different places were certain different. This study provided reference for the development and utilization of crude polysaccharides from different origins.
1
Analysis of Preparation and Structure of Soluble Dietary Fiber from Seabuckthorn(Hippophae Rhamnoides L.) Seed Meal Functional Characteristics

CHEN Xiaole, DENG Weiliang, 马珊, ZHENG Qiaowen, CHEN Kunzhui, ZHANG Mengmeng, WU Mengyao, ZhangLei, SHEN Yingbin

Abstract: (20) HTML (0) PDF (0.00 ByteKB) (17)

Abstract:

In this study, seabuckthorn seed meal was used to prepare soluble dietary fiber using a multiple enzyme method. The structural and functional properties of the resulting fiber were comprehensively analyzed. Soluble dietary fiber was successfully obtained through a series of enzymatic hydrolysis processes, and its structural characteristics were examined in detail using techniques such as infrared spectroscopy, X-ray diffraction, and scanning electron microscopy. Additionally, the physical and chemical properties of the dietary fiber, including its water-holding capacity, oil-holding capacity, and adsorption capacity for cholesterol and glucose, were measured. The experimental results indicated that the yield of soluble dietary fiber from seabuckthorn seed meal was 5.23%. Infrared spectral analysis revealed a cellulose-like structure, while scanning electron microscopy showed a smooth and flat flaky surface, with branched structures and uniformly rounded spherical particles observed in certain areas. Regarding functional properties, the dietary fiber exhibited water-holding capacity, oil-holding capacity, and water-binding capacity of 1.1 g/g, 1.33 g/g, and 1.86 g/g, respectively. Its cholesterol adsorption capacity was 6.25 mg/g, and its glucose adsorption capacity reached 45.48 mg/g, demonstrating excellent adsorption performance. The comprehensive analysis results suggest that the soluble dietary fiber derived from sea buckthorn seed meal is structurally distinct from insoluble dietary fiber and exhibits significant activity in adsorbing cholesterol and glucose. These properties position it as a functional food ingredient with potential health benefits.
1
Optimization and quality analysis of soy sauce residue insoluble dietary fiber biscuit

陈如扬, 张猛猛, 闵甜, 赖富饶, 吴晖, 贺萍

Abstract: (17) HTML (0) PDF (0.00 ByteKB) (17)

Abstract:

Using low-gluten flour, soy sauce residue insoluble dietary fiber, maltitol, and butter as the main raw materials, the formula of soy sauce residue insoluble dietary fiber biscuits was optimized through single-factor and response surface methodology. When the addition amount of low-gluten flour was 96 wt.%, the addition amount of soy sauce residue insoluble dietary fiber was 4 wt.%, the addition amount of water was 35.89 wt.%, the addition amount of maltitol was 35 wt.%, the addition amount of butter was 11.39 wt.%, the addition amount of egg liquid was 15 wt.%, the addition amount of milk powder was 15 wt.%, the addition amount of baking soda was 1 wt.% and the addition amount of salt was 0.25 wt.%, the sensory evaluation score of soy sauce residue insoluble dietary fiber biscuits could reach 81.7, which was 17.55% higher than that before optimization. Quality analysis results showed that compared to the control group, the soy sauce residue insoluble dietary fiber biscuits exhibited lower L*, a*, and b* values along with reduced hardness, while demonstrating improved crispness. However, there was no significant difference in the test results of electronic nose and electronic tongue. In addition, soy sauce residue insoluble dietary fiber biscuits had a lower predicted glycemic index. Therefore, soy sauce residue insoluble dietary fiber biscuits have better quality characteristics, meet the public's pursuit of health, and have a promising market prospect.
1
Effect of Dihydromyricetin on The Flavor of Xylose/Cod Peptide Maillard Reaction System at Different pH Conditions

LIN Yihan, ZHANG Yousheng, ZHAO Tiantian, XIAO Xinglong, JIAO Wenjuan

Abstract: (42) HTML (0) PDF (0.00 ByteKB) (17)

Abstract:

In this study, Maillard reaction products were prepared using cod peptides, D-xylose, and dihydromyricetin (DMY). The effects of DMY on the flavor profile of the reaction products under different pH conditions were investigated using UV-Vis spectroscopy, fluorescence spectroscopy, free amino acid analysis, GC-MS, and electronic nose detection. The results indicated that higher pH values promote the Maillard reaction process. The addition of DMY reduced the reactivity between D-xylose and cod peptides, decreasing the formation of furan and pyrazine volatile compounds, while promoting the formation of fresh-smelling volatile compounds such as D-limonene and isoborneol. Furthermore, under the influence of DMY, the total amount of free amino acids in the D-xylose/cod peptide reaction system decreased. At pH values of 5, 7, and 9, the proportion of bitter amino acids was low, whereas the proportions of umami and sweet amino acids were high. Overall, at pH 9, the flavor substrate prepared with the addition of DMY exhibited less fishy odor, a fresh plant aroma, relatively lower bitterness, sufficient umami, and good harmony among the various flavors.
1
Physico chemical and functional properties of dietary fibres from ultrafine black rice bran

胡婷, 陈艳梅, 王鑫, 马勤

Abstract: (24) HTML (0) PDF (0.00 ByteKB) (14)

Abstract:

The effects of ultrafine grinding on the composition, structural, physicochemical and functional properties of dietary fiber from black rice bran were studied. We analyzed the particle size, microstructure, adsorption properties and antioxidant capacity of dietary fiber of ultra-fine. The results showed that, the particle size and relative crystallinity of insoluble dietary fiber (IDF) and soluble dietary fiber (SDF) of black rice bran could be significantly reduced by ultrafine grinding, so that they showed a looser and more porous state, but their main composition did not change. The swelling capacity, cholic acid adsorption capacity and cholesterol adsorption capacity of IDF of ultrafine black rice bran powder were improved, which were 57.43%, 22.71% and 24.92% higher than that of crude powder, respectively. In addition, the DPPH free radical scavenging capacity and FRAP antioxidant capacity of SDF were increased by 2.8 times and 1.7 times of that of crude SDF. In conclusion, ultrafine grinding can significantly reduce the particle size of black rice bran dietary fiber, promote the formation of loose porous microstructure, and improve the physicochemical and functional properties of IDF. This study provided a theoretical basis for the deep processing and utilization of black rice bran dietary fiber.
1
Development Status of Probiotic Fermentation Plant Polysaccharides and Probiotic Products

MA Ze, SHEN Hejing, WANG Fengzhong, FAN Bei, BAI Yajuan

Abstract: (35) HTML (0) PDF (0.00 ByteKB) (17)

Abstract:

Plant-derived polysaccharides, functioning as prebiotics, are utilized by gut microbiota to produce short chain fatty acids and other metabolites that help maintain immune homeostasis. The market for single prebiotic products is developing into probiotic-prebiotic products, and research focuses on the changes in polysaccharide structure and biological activity during fermentation. This review examines the effects of probiotic fermentation on the molecular weight, monosaccharide composition, and intestinal and immune regulatory functions of plant polysaccharides. It analyzes the advantages of fermented plant polysaccharides compared to their pre-fermentation state and investigates the types and main effects of probiotic polysaccharide prebiotic products in the consumer market. The goal is to provide reference for the development of probiotic and prebiotic products. Future research should continue to elucidate the conversion of probiotics into polysaccharide metabolism pathways and mechanisms to optimize fermentation efficiency and enhance polysaccharide properties, thereby supporting the development of functional foods integrating probiotics and plant-based polysaccharides.
1
Effect of LED Blue-white Composite Light on Postharvest Browning of Pleurotus Eryngii

杨何, 亢瑞琪, 郭峰, 纪淑娟, 李国锋, 李鹏霞, 罗淑芬

Abstract: (18) HTML (0) PDF (0.00 ByteKB) (17)

Abstract:

Abstract: To investigate the effect of light emitting diode (LED) irradiation on the shelf quality of Pleurotus eryngii after harvest. The Pleurotus eryngii was treated with LED irradiation with different light qualities and densities at the temperature of 12~15 ℃. The treatment without LED irradiation, the light condition of supermarket shelves [28 μmol/(m2.s)] and the supermarket lighting [4.3 μmol/(m2.s)] were used as the control 1, 2 and 3, respectively. Through analyzing the phenotype of Pleurotus eryngii, the light conditions of LED blue-white composite light (blue light: green light: red light=8.4:2.3:1.3) was suitable for storing Pleurotus eryngii. Then, the effect of LED blue-white composite light on the postharvest browning process of Pleurotus eryngii was studied by exploring the light quality ratio selected above as the treatment group. The control groups were set as the same mentioned above, and the blue light [8 μmol/(m2.s)] positive control group was added. The results show that compared with the control group, LED blue-white composite light increased the activity of antioxidant enzymes such as superoxide dismutase and catalase and DPPH free radical scavenging ability of Pleurotus eryngii What’s more, the treatment reduced the production rate of superoxide anion radicals and hydrogen peroxide content, thus, protected the Pleurotus eryngii cell from reactive oxygen species damage and inhibited the increase of relative conductivity and malondialdehyde content. Additionally, the composite LED irradiation reduced the activity of polyphenol oxidase, and maintained a high total phenol content, and consequently, delayed the browning process of Pleurotus eryngii. During days of 2~8, the browning degree of the blue-white composite LED treated group was lower by 2.24~5.00、1.59~3.23、0.90~1.77 times than those of the control 1, 2 and 3, respectively. On this basis, it was found that the blue-white composite LED irradiation (blue: green: red light = 8.4: 2.3: 1.3) was able to alleviate the browning process and maintain the quality of Pleurotus eryngii, through using the method of principal component analysis and correlation analysis. Therefore, this research could provide theoretical and technical support for the application of LED irradiation on the preservation of edible fungi.
1
Progress in the treatment of benzalkonium chloride by different advanced oxidation methods

代聪聪, 张建强, 范绮雯, 王新媛, 刘红艳, 曹荣安

Abstract: (33) HTML (0) PDF (0.00 ByteKB) (16)

Abstract:

Benzalkonium chloride is a quaternary ammonium salt bactericide, which is widely used in food processingmedical environment, medical environmentfamily and family, and especially its application in chemical production has led to the contamination of the aquatic environment. Traditional biological treatment methods cannot effectively degrade benzalkonium chloride, and advanced oxidation technology has received widespread attention. The article reviewed the ozone oxidation technology, photocatalytic oxidation technology, Fenton oxidation technology, persulfate oxidation technology, etc., and elaborated the advantages and disadvantages of the above technologies and mechanisms, and analyzed their degradation effects and degradation pathways in the light of the progress of the application of advanced oxidation technology in the treatment of benzalkonium chloride pollutants in recent years. It provides reference for further research and application of advanced oxidation technology in the treatment of benzalkonium chloride pollutants in the future.
1
Research on the Protective Effect and Mechanism of Astaxanthin on Arecoline Induced Oral Epithelial Injury

Chen Linlin, Xie Jinmei, Zhang Rongrui, Shi Yuqing, Chang Xiuting, Xiexi

Abstract: (38) HTML (0) PDF (0.00 ByteKB) (18)

Abstract:

To study the protective effect and mechanism of astaxanthin (AST) on oral epithelial injury, an arecoline (ARC) induced oral mucosal injury rat model was established. The pathological morphology, the accumulation of collagen fibers, and changes in human early growth response factor 1 (EGR1) in rat oral mucosal tissue was observed. The changes in tight junction related proteins ZO-1 and Occludin, mitochondrial morphology, mitochondrial membrane potential (MMP), mitochondrial reactive oxygen species (mtROS), and EGR1 in human oral keratinocyte (HOK) cells induced by ARC, were measured. And the binding of AST and EGR1 was predicted through molecular docking. The results on pathological of oral mucosal tissues showed that compared with the model group, the symptoms of thinning oral mucosal epithelium and short epithelial nail was improved in the AST intervention group. The relative collagen area and Collagen I area under the mucosa were significantly reduced by 9.84% and 23.01%, respectively. In vitro experiments, the results showed that AST improved the abnormal localization of ZO-1 and Occludin proteins in ARC-induced HOK cells; the abnormal mitochondrial morphological, the decreased level of MMP, and the excessive generation of mtROS were also improved. In addition, AST inhibited the expression level of EGR1 in ARC-induced HOK cells, and significantly downregulating 24.53% at the cellular level. The molecular docking results showed that the docking binding energy between AST and EGR1 was -6.8697 kcal/mol, and had two hydrogen bonding interactions. In summary, AST may improve ARC induced oral mucosal injury by regulating EGR1 and mitochondrial function, and is expected to be developed as a functional food for protecting oral mucosa.
1
Optimization of Processing Technology and Functional Characteristics Analysis of Yunnan Bos Bubalus Milk Mozzarella Cheese

张璐, Wangxuefeng, Wangxuefeng, 高光文, 范癸蓉, 廖梦莲, 王雅熙, 段志高

Abstract: (34) HTML (0) PDF (0.00 ByteKB) (18)

Abstract:

The experiment was conducted to study the effects of rennet addition, fermentation endpoint pH, curd temperature and hot blanching temperature on Yunnan Bos bubalus milk mozzarella cheese, the sensory score and stretchability of the cheese were used as the evaluation indexes, and to determine the optimal process of the cheese by combining with the response surface methodology, and to further evaluate the nutrient composition and functional properties of the resultant mozzarella cheese. The results showed that the optimal process for Yunnan Bos bubalus milk mozzarella cheese was 0.5 mg/mL rennet addition, fermentation endpoint pH value is 5.7, 45 ℃ curdling temperature and 80 ℃ stretching temperature. The sensory score was 90.18 and stretchability was 64.83 cm of mozzarella cheese made from Bos bubalus milk based on the optimal process was close to the predicted values and significantly higher (P<0.05) than the sensory score (64.52) and stretchability (27.33 cm) of cheese made from black and white flower cow milk. The protein (24.12 g/100g), moisture (52.59 g/100g) and fat (20.98 g/100g) contents, yield (11.28%), meltability (33.07 mm), and fat precipitation (17.00 mm) of Bos bubalus milk cheeses were significantly higher than that of black and white calf milk cheeses (P<0.05). The research results indicate that Bos bubalus milk is more suitable for mozzarella cheese making than normal black and white flower cow milk. The resulting cheese has good organoleptic, nutritional and functional characteristics. Therefore, Bos bubalus milk mozzarella cheese can effectively meet consumers' demand for healthy and delicious dairy products, and also provide new ideas for the commercial application of Bos bubalus milk.
1
Effect of Additions of Coarse Grains on the Quality of Naan and the Changes in Volatile Flavour Substances

Nige Rei Yadikar

Abstract: (20) HTML (0) PDF (0.00 ByteKB) (18)

Abstract:

The impact of the addition of mixed grain composite flour on the quality of naan was explored in the article, which was achieved by measuring the gelatinization characteristics, dough rheological properties, texture characteristics, color, and sensory evaluation of naan. The influence of adding different proportions (0%, 5%, 10%, 15%, 20%, 25%, 30%) of mixed grain flour to wheat flour was studied. The volatile substances of mixed grain naan were analyzed using Gas Chromatography-Ion Mobility Spectrometry (GC-IMS). The results indicated that with the increase in the addition of mixed grain composite flour, the gelatinization temperature of naan increased from 67°C to 84.20°C; the weakening degree increased from 16 FU to 36.50 FU; the formation time decreased from 6.60 min to 5.25 min; the maximum tensile resistance decreased from 478.25 BU to 169.60 BU. The flour quality of the dough, stretching characteristics, texture, color, and sensory evaluation of naan were all found to have changed to varying degrees with the addition of mixed grain composite flour. It was considered appropriate to add 20% mixed grain composite flour to wheat flour after a comprehensive consideration. A total of 55 volatile substances were identified by GC-IMS, including 2 types of cyclic compounds, 3 types of furan compounds, 4 types of acids, 5 types of ketones, 9 types of aldehydes, 9 types of alcohols, 15 types of esters, and 8 types of others. Compared with ordinary naan, the content of volatile flavor substances such as esters (14.44% to 19.36%), alcohols (15.25% to 17.23%), and furan compounds (1.13% to 1.54%) in mixed grain naan was found to have significantly increased. It was suggested that adding 20% mixed grain flour to wheat flour not only improves the nutritional value of naan but also provides theoretical and technical support for the quality control and flavor identification of mixed grain naan, which is beneficial for the development of mixed grain naan products.
1
Changes of Drying Characteristics and Product Quality of Beef Jerky with Passion Fruit Peel Fiber Powder

liurongrong, tengjianwen, huangli, xianing, weibaoyao

Abstract: (25) HTML (0) PDF (0.00 ByteKB) (18)

Abstract:

In this study, 0%, 0.5%, 0.75% and 1% (w/w) of passion fruit peel fiber powder were added to beef jerky by injection and kneaded method, respectively. The effects of adding passion fruit peel fiber powder on the drying characteristics and quality of beef jerky were investigated by measuring the drying characteristics, yield, texture characteristics, water distribution and sensory evaluation. The results showed that the addition of passion fruit peel fiber could shorten the drying time of beef jerky from 3.7 h to 2.9 h, and increase the yield from 51.40% to 56.02%. The results of LF-NMR showed that the relaxation time of T21, T22 and T23 was shortened by passion fruit peel fiber, and the fluidity of water in meat jerky also was reduced. The results of texture and sensory evaluation showed that passion fruit peel fiber could significantly reduce the hardness of beef jerky, and enhance the elasticity, viscosity and chew ability of beef jerky. Compared with 0% fiber jerky, the total score of sensory evaluation of beef jerky with 0.5% fiber content was the highest. In conclusion, the application of passion fruit peel fiber powder to beef jerky can change the drying characteristics of beef jerky, shorten the drying time of beef jerky, improve the water distribution and texture characteristics of beef jerky, and improve the product quality of beef jerky. It is worth noting that adding 0.5% passion fruit peel fiber powder to beef jerky has the best overall effect, and this study can provide a reference for the comprehensive utilization of passion fruit by-products.
1
Non Targeted Metabolomics Analysis of Changes in Small Molecule Substances in Yi Fermented Wine

朱子冬, 李毅虹, 李宗昂, 颜瑾, 魏琴, 田婧, 梁寒峭, 李守黔

Abstract: (19) HTML (0) PDF (0.00 ByteKB) (18)

Abstract:

Focuses on the traditional Yi ethnic fermented medicinal liquor made from wild Rosa roxburghii, Phyllanthus emblica, Lemon, Gastrodiaelata, ginseng, and black honey as the main raw materials. It employs a solid-state natural fermentation technique under constant low-temperature (10-15°C) and light-avoidance conditions. Using untargeted metabolomics, a detailed differential analysis of small molecules in the medicinal liquor before and after fermentation was conducted. Through rigorous screening methods such as Principal Component Analysis (PCA) and Orthogonal Partial Least Squares Discriminant Analysis (OPLS-DA), the results showed that a total of 208 differential metabolites in 17 categories were present in the medicinal liquor before and after fermentation (VIP > 1 and p < 0.05). These substances included 47 flavonoids, 31 alkaloids, 22 phenols, 18 terpenes, and 13 nucleotides and their derivatives. Further analysis through KEGG metabolic pathways identified 19 significantly different metabolic pathways involving 12 key differential metabolites. This study provides data support and theoretical basis for in-depth exploration of the material changes and metabolic mechanisms during the fermentation process of traditional Yi ethnic fermented medicinal liquor.
1
Construction of mechanical model and texture analysis of carrot mastication

彭飞, 黄立俊, 宋雨龙, 张丽梅

Abstract: (20) HTML (0) PDF (0.00 ByteKB) (14)

Abstract:

In order to investigate the textural properties of carrots under different chewing rates and their correlation with mechanical parameters, the carrot block (thickness 5 mm) was taken as the research object, and the texture profile analysis (TPA) test was carried out on it by using a texture meter to analyze the texture mechanical parameters (hardness, adhesion, cohesion, elasticity, adhesion, chewing) and their changing rules under different chewing rates. Then, a chewing mechanical model and finite element model were constructed to investigate the chewing mechanical properties of the carrot blocks under the grinding pestle and pestle pressure movement. Next, the masticatory mechanics model was constructed and finite element simulation (Mises, Tresca, Max, Principal) was carried out; finally, the correlation analysis among the parameters was performed. The results showed that: at the same speed, Tresca was the largest, Mises was the second largest, and Abs stress was the smallest; the test speed showed a highly significant positive correlation with Mises and Tresca stress (P<0.01), with correlation coefficients of 0.878 and 0.868, respectively; the test speed showed a highly significant negative correlation with Abs stress, with a correlation coefficient of -0.862; Mises, Tresca stresses were significantly correlated with adhesion, cohesion, elasticity, adhesion, and chewing (P<0.05), which indicated that the simulated stresses could reflect the textural properties of carrots to a certain extent, and also verified the correctness of the model. This study will contribute to deeply analyze the textural quality of carrot and promote its deep processing and comprehensive utilization, and also provides a scientific and effective method to study the relationship between chewing behaviour and mechanical texture of fruits and vegetables.
1

Select All

Display Method: |

Cloning and Heterologous Expression of Hydrophobin Encoding gene Unigene0004454 of Ganoderma lucidum

陈虹, 刘冬梅, 亓希武, 梁呈元

Abstract: (5) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

To investigate the potential functions of Unigene0004454 gene, which encodes a hydrophobin in Ganoderma lucidum ZJ-1 strain, this study adopted approaches involving gene cloning, bioinformatics analysis, promoter element analysis, and heterologous expression experiment. The results indicated that the full length of Unigene0004454 gene was 436 bp, a cDNA length 330 bp, and encoded 109 amino acids. Amino acid sequence analysis demonstrated that it has the typical cysteine structure characteristic of hydrophobins, and showed a closer evolutionary relationship with hydrophobins from Ganoderma leucocontextum and Ganoderma sinense. The promoter region of Unigene0004454 contains core promoter element (such as TATA-BOX), multiple hormone responsive elements (such as ABRE), and environmental stress inducible elements (such as MBS). It is speculated that the physiological function of Unigene0004454 may be related to the growth and development of the strain. The recombinant plasmid pET-32a-Unigene0004454 was constructed and transferred into E. coli BL21(DE3) competent cells for expression, followed by SDS-PAGE and Western blotting validation. The results indicated that the recombinant protein with a molecular weight of approximately 27 kDa was successfully expressed in BL21 strain, thereby verifying the feasibility of heterologous expression for Unigene0004454. This study lays a foundation for further elucidation of the physiological functions of Unigene0004454 gene and the development of hydrophobin-based applications.
1
Analysis of Sensory Quality, Biochemical Components, and Aroma Compounds in Light-scented Tieguanyin Tea Under Different Treatments

冯花, 郭雅玲, 王飞权

Abstract: (3) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

To explore the effects of different shaking treatments on the quality of light-scented Tieguanyin single-leaf tea, the four-time shaking of moderately opened three-leaf shoots (CK1) and four-time shaking of single leaves (CK2) were used as controls, and single-leaf 2-time shaking (DY1) and single-leaf 3-time shaking (DY2) treatments were set up respectively. The sensory quality, main biochemical components, and aroma components of the teas produced by the four treatments were compared. The results showed that the comprehensive score of sensory quality of CK2 (93.10 points) was significantly higher than that of other treatments (P<0.05). In single-leaf teas (DY1, DY2), with the increase of shaking times, the contents of water extract, tea polyphenols, caffeine, and the phenol-to-amino acid ratio decreased, while the amino acid content increased significantly. A total of 76 aroma components were detected from the four groups of different treatment samples, belonging to 10 major categories. The PCA and PLS-DA models established based on the relative contents of aroma components could effectively distinguish tea samples from different treatments. Further screening with VIP > 1, P < 0.05, and OAV > 10 as the conditions determined that linalool, indole, nerolidol, and other 11 components were the key aroma substances leading to the differences in aroma quality among samples. The results of this study provide a theoretical basis for the process innovation and quality improvement of light-scented Tieguanyin single-leaf tea .
1
Research Progress on the Effects of Functional Components in the Fruits and Vegetables by Non-thermal Processing Technologies

Liu Xue Ping, 赵莉, 黄莉, 崔晓梅, 魏萍, 刘林, 王刚

Abstract: (4) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

Fruits and vegetables were rich in functional components, which had antioxidant, antitumor, neuroprotective, anti-inflammatory and other effects. But during processing, traditional thermal processing can easily damage the functional components in them. In recent years, non-thermal processing technology, which was a new processing method for fruits and vegetables, had gradually widespread attracted attention because of its advantages, such as low-temperature sterilization, enzyme inactivation, and maintaining the original nutrition and functional components. This article sorted out the common functional components (polyphenols, carotenoids, vitamin C, dietary fiber) in fruits and vegetables, and included their structures and effects. This paper reviewed effects of non-thermal processing technology (high pressure, ultrasound, cold plasma, pulse electric field) on the functional components in fruits and vegetables, and explored the mechanism its action on the functional components, and proposed the problems existing in the application of non-thermal technology in the field of fruits and vegetables and the research directions in this field, in order to provide theoretical basis for the deep processing and preservation technology of the fruit and vegetable industry.
1
Research Progress on Rapid Detection Technology for Foodborne Pathogens

chen hong zhou, niu jing yuan, li qi, ren yu wei, cai ke zhou, ye ying wang

Abstract: (4) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

Foodborne pathogens are among the most significant contributors to food safety incidents, severely hindering the sustainable development of the food industry. Developing rapid detection methods with high sensitivity, low cost, and strong specificity is critical for ensuring food safety and advancing the food industry. Conventional detection methods are limited by low sensitivity, prolonged analysis time, complex procedures, and inadequate specificity. This review summarizes the latest research advances in the field of foodborne pathogen detection in recent years, with a focus on immunoassay techniques, molecular biology detection technologies, and the most recent research achievements in biosensor detection. It also discusses the integration of various technologies to develop novel rapid detection methods and their applications in foodborne pathogen detection. Advances in science and technology will enable future rapid detection methods to leverage multidisciplinary integration, facilitating convenient and intelligent pathogen monitoring. These advancements are expected to yield more effective detection tools and preventive strategies for food safety management and public health protection.
1
Structure-guided semi-rational engineering of D-allulose 3-epimerase for enhanced D-allulose biosynthesis

Wang Kaizhe, Ma Wenjie, Gao Yuang, Mao Shuhong, Tian Kangming, Qin Hui-min

Abstract: (5) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

To enhance the catalytic activity and thermal stability of D-allulose 3-epimerase (DAEase) for industrial applications, high-performance mutants were engineered through the integration of gene mining with semi-rational design. In this study, the DAEase gene from Microbacterium luteolum (MlDAEase) was heterologously expressed in E. coli with soluble production, exhibiting optimal activity at 60 °C and pH 8.0. To address the poor thermal stability of MlDAEase that limits industrial applications, semi-rational design was performed guided by three-dimensional structural modeling and high-throughput screening, through which key mutants G65M, G65E, and M110W were identified. The combinatorial mutant G65E/M110W, constructed via CAST strategy, was shown to exhibit a 2.41-fold increase in relative activity and a 5.09-fold enhancement in catalytic efficiency compared to the wild-type. In industrial biocatalytic processes, the engineered mutant enabled the conversion of 500 g·L-1 D-fructose to 153 g·L-1 D-allulose, achieving a conversion rate of 30.60%, which represented a 2.09-fold improvement over the wild-type enzyme. The results demonstrated that MlDAEase is a novel D-allulose 3-epimerase with great potential for engineering. Its catalytic performance and thermal stability were significantly improved through structure-guided semi-rational design. This study provides both a theoretical basis and a candidate biocatalyst for the efficient enzymatic production of D-allulose, offering promising prospects for industrial application.
1
Current Situation of Soybean Sclerotinia Sclerotiniorum in Northeast China

LI Zhuolin, YI Zhigang, LIU Jia, LIU Nianxi, LI Zhi, DONG Zhimin, LI Yuqiu

Abstract: (3) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

Soybean sclerotinia is widely distributed and is a type of soybean disease found worldwide. In the Northeast region of China, the incidence rate of soybean sclerotinia disease can reach over 60%, severely affecting soybean yield and economic benefits. Therefore, studying the pathogenic principle of the soybean sclerotinia disease pathogen—Sclerotinia sclerotiorum, as well as effective detection and identification methods, has become an urgent issue in China"s soybean industry. This article reviews the pathogenic mechanism of Sclerotinia sclerotiorum at the molecular level and reviews. It reviews the existing detection methods for the fungus: traditional detection methods, serological detection methods, and molecular biological [1]detection methods, among others. It details the sensitivity, specificity, and applicability of the existing detection methods, compares and evaluates the advantages and limitations of various methods, and provides an initial exploration into the detection model for soybean sclerotinia. This study aims to provide a reference for the identification and detection of soybean sclerotinia disease, to offer technical support for the early detection of the disease, and to provide some theoretical basis for the healthy development of the soybean industry.
1
The Optimization of the Fermentation Process of Platycodon Grandiflorus by Composite Strains and Its Protective Effect on Myocardial Injury in LPS-Induced Pneumonia Mice

ZUOCHENGRUN, JINGNA, LIJIA, 王雨卉, GAOSHIQI, LIUCHEN, YAOLIN, HUOJINHAI, WANGWEIMING, WANGNAN

Abstract: (9) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

The fermentation process of Platycodon grandiflorus was optimized to increase the polysaccharide yield, and the protective effect of its fermentation products on LPS-induced pneumonia-related cardiac injury was investigated. Lactobacillus plantarum xdx-6801 and Pentosaceus S. ZY-23 were combined in a 1:1 ratio. The range of fermentation parameters was screened through a single-factor experiment, and the fermentation conditions were optimized using an orthogonal experiment. Finally, the protective effect of the optimized Platycodon grandiflorus fermentation liquid (FPG) on LPS-induced acute lung injury (ALI) and cardiac damage in C57BL/6J mice was verified through in vivo experiments. The results showed that the optimal fermentation conditions were 4% inoculum, 38℃ fermentation temperature, and 60 hours of fermentation. Under these conditions, the polysaccharide concentration of FPG reached 237.48 μg·mL-1, and the total saponin concentration was 222.39 μg·mL-1, which were 2.54 times and 1.02 times higher, respectively, compared to the unfermented sample. FPG effectively alleviated lung and cardiac injury in LPS-induced ALI mice, reduced the expression of inflammatory factors IL-6 (72.30%), IL-1β (54.66%), and TNF-α (53.44%), increased the activity of antioxidant enzymes GSH (28.01%), SOD (44.35%), and T-AOC (37.81%), and reduced the accumulation of oxidative damage marker MDA (53.25%). Furthermore, FPG significantly improved the cardiac pump function of ALI mice, increasing the ejection fraction (44.50%) and fractional shortening (79.48%), and effectively reduced the level of cardiac injury marker cTnI (65.95%). In conclusion, the optimized fermentation process significantly increased the polysaccharide concentration of Platycodon grandiflorus and exhibited a marked protective effect against pneumonia-induced cardiac injury, providing a theoretical basis for the application of Platycodon grandiflorus in the prevention and treatment of pneumonia and its complications.
1
Irradiation Degradation Effect and Radiolysis Mechanism of Sodium Benzoate in Aqueous Solution

LI Yongfu, Qiu Ju, Chen Xi

Abstract: (9) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

To investigate the irradiation degradation effect and mechanism of sodium benzoate in aqueous solution, this experiment studied the degradation patterns of sodium benzoate solutions at different concentrations (0.5, 1, 3, 5, 7 mmoL·L-1) under varying irradiation doses (1, 3, 5, 7, 9 kGy). The degradation behavior of sodium benzoate was analyzed using GC and degradation kinetics, while quantum chemical calculations were employed to elucidate its irradiation degradation mechanism. Finally, bacterial experiments were conducted to examine the impact of irradiation treatment on the antibacterial capacity of sodium benzoate. The results showed that the degradation rate of sodium benzoate at experimental concentrations gradually increased with higher irradiation doses, reaching nearly 100% at lower concentrations. The irradiation degradation of sodium benzoate followed first-order kinetics. Trace amounts of phenol were generated after irradiation of high-concentration sodium benzoate solutions. Under irradiation, sodium benzoate reacts with hydroxyl radicals to form degradation products, with a free energy activation barrier of 11.3 kcal·mol-1 and an exothermic release of 17.2 kcal·mol-1 during the reaction process. The antibacterial capacity of sodium benzoate exhibited a gradual decline with increasing irradiation doses. In conclusion, both the irradiation dose and the initial concentration of the sample have a certain impact on the degradation rate of sodium benzoate, the post-degradation phenol content, and the antimicrobial activity. When using sodium benzoate, an appropriate concentration can be selected within the permissible limit (6.94 mmol·L-1) without compromising its effectiveness, and a suitable irradiation dose can be chosen based on the applied concentration. This study provides a theoretical foundation for understanding the patterns and mechanisms of sodium benzoate degradation under irradiation.
1
Comparison of the Effect of Different Brewing Methods and Strains of Aspergillus oryzae on the Koji Making Process of Broad Bean Koji

Li xiongbo, LI TING, 王芳, CHEN Zongwei, MIN XING

Abstract: (11) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

In order to investigate the effects of fermentation strains and the method of making music on the process of bean paste making, the study applied PNM003 and Huniang 3.042 Aspergillus oryzae to the disk fermentation and traditional open fermentation of bean paste, respectively, and examined the differences in environmental factors, microbial counts, enzyme activity, physical and chemical indexes, free amino acids, and volatile compositions of the process of making music in several kinds of bean pastes. The results showed that there were some differences in the indicators of the different types and strains of bean curd-making process. Compared with the open fermentation process, the disk fermentation has stable material temperature (30.8~34.4℃) and environmental humidity (96.0~97.2%rh), which can significantly improve the number of molds and enzyme activity performance in the process. In addition, the total acid content was lower (1.00 g/100g), the sensory quality was better, and the free amino acid flavor was more harmonized in the bean curd prepared by PNM003 under the disk fermentation conditions. The analysis of volatile components showed that, under the same brewing method, the volatile components of bean curd prepared by PNM003 were more abundant (37 kinds, 25 kinds) than those of Huniang 3.042 (35 kinds, 24 kinds). For the same strain, the flavor richness of disk fermentation was higher than that of open fermentation, and the number of musty flavor substances was lower than that of open fermentation. Thus, compared with the open fermentation, disk fermentation can significantly improve the effect of bean paste brewing, especially with PNM003 Aspergillus oryzae as the fermenting strain, the advantage is more obvious. This study provides a theoretical basis for optimizing the production process and improving the quality of bean paste.
1
Process Optimization and Quality Analysis of In-Bag Fermentation for Fermented Mustard

YANG Xiaoyun, LI Aimeng, ZHANG Chunrong, JIA Lirong

Abstract: (5) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

To replace traditional pool and jar fermentation methods, a novel in-bag fermentation process for fermented mustard was studied. Small-leaf mustard greens were used as raw materials, inoculated with 1.0% compound lactic acid bacteria (LAB) (Lactiplantibacillus plantarum : Pediococcus acidilactici = 2:1), and subjected to in-bag fermentation. Blanching conditions were screened, and changes in sensory quality, physicochemical indices, and microbial profiles during fermentation were investigated. Microbial community structures were analyzed using 16S rDNA and ITS high-throughput sequencing. The results indicated that blanching in a 100°C water bath for 1 min exhibited optimal microbial control and sensory performance. During the 20-day fermentation cycle of fermented mustard, the pH decreased from 5.78 to 3.21, the total acid content increased from 0.48 g·L-1 to 6.13 g·L-1, and the nitrite content remained consistently below 1.46 mg·kg-1. The highest sensory evaluation score of 36.30 was recorded on day 15 of fermentation. The lactic acid bacteria count and total bacterial count increased to 4.33×10? CFU/mL and 4.47×10? CFU/mL, respectively, within the first 0~5 days, then decreased to 7.07×10? CFU/mL and 9.23×10? CFU/mL after 15 days, stabilizing thereafter. Yeast and mold counts increased continuously during the first 10 days, reaching a peak of 4.40×10? CFU/mL on day 10 and then remained stable. Coliform bacteria were not detected after 5 days of fermentation. The microbial composition in the in-bag fermentation system was relatively simple, with Lactiplantibacillus plantarum (83.15%) and Pediococcus acidilactici (16.10%) as the dominant bacterial species, and Meyerozyma guilliermondii (66.46%) and Hanseniaspora meyeri (30.81%) as the predominant fungal species. The study confirmed the feasibility and high safety of the in-bag fermentation process, providing new insights into addressing bottlenecks in the production of fermented vegetables.
1
Research Progress on Extraction, Purification and Functional Activity of Active Components from Peach

HE Mengxin, ZHANG Rentang, SUN Xin, JIANG Qiyong, WANG Yuxiao

Abstract: (7) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

Peach (Prunus persica (L.) Batsch) is an economically significant fruit tree whose fruit, leaves, flowers, and kernels are rich in diverse bioactive compounds, including polyphenols, flavonoids, and saponins. Extensive research has demonstrated that these constituents exhibit significant health benefits, such as antioxidant, anti-inflammatory, hypoglycemic, and anticancer activities, providing a crucial scientific foundation for the comprehensive utilization and value-added development of peach resources. This review systematically summarizes recent advances concerning the types, distribution, extraction, and purification techniques of bioactive compounds derived from peach. Their functional activities and potential applications in combating oxidative stress, inflammation, cancer, obesity, and cardiovascular diseases are critically reviewed. Furthermore, detailed discussions on the future development of functional ingredients from peach are presented. This work aims to establish a theoretical basis for promoting the sustainable development and high-value utilization of the peach industry.
1
Preparation process of acetylated Dendrobium huoshanense polysaccharide and antioxidant and antitumor activity analysis

宋露, 杨素素, 王芳, 韩邦兴, liudong, 高雷雷

Abstract: (5) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

In order to explore the activities changed in acetylated modification of Dendrobium huoshanense polysaccharides(DHP), the study used acetic anhydride method obtained Acetylated Dendrobium huoshanense polysaccharides(A-DHP) and optimized its preparation process. Used substitution degree as indicator, the synthesis conditions of A-DHP were optimized by single-factor experiments and response surface methodology. The structure of A-DHP were characterized by Fourier Transform Infrared Spectrometer (FTIR) and Scanning Electron Microscopy (SEM). The activity changes of polysaccharides modification were detected by vitro antioxidant and antitumor experiments. The results showed that the optimal preparation conditions of A-DHP were: reaction time of 3.8 h, acetic anhydride to polysaccharides ratio of 14:1 (mL:g), and reaction temperature of 36 ℃. Under this condition, the substitution degree of A-DHP was 0.226. FTIR and SEM results confirmed that acetyl groups were successfully combined with DHP. The results of vitro antioxidant and vitro cytotoxicity experiments showed that after acetylated modification, the clearance rate of ABTS and DPPH free were increased by 14.91% and 7.76%, while the inhibitory effect on HepG2 and C918 cell were increased by 15.90% and 16.24%. In summary the antioxidant and antitumor activities of DHP can improved by acetylated modification, this study provide base theories for further investigate of acetylated polysaccharides.
1
Valorization of Spent Coffee Grounds by Scenedesmus obliquus in a Biorefinery Approach

谢武强, 刘孝文, 郑晰瑞, 贺杠, 师玉璞, 刘思芬

Abstract: (5) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

Spent coffee grounds （SCG） are a substantial byproduct of the coffee industry, require proper disposal, which is of great significance for resource utilization and environmental protection. Scenedesmus obliquus （FACHB-417） possessing rapid proliferation capabilities and pronounced stress tolerance was selected to explore the biological treatment of SCG. The SCG were subjected to oil extraction and enzymatic hydrolysis, then prepared to cultivate S. obliquus. The results demonstrated that the oil were extracted from SCG, achieving a yield of 12.2 wt.%. Compared to the control group （BG11）, the biomass accumulation and relative carbohydrate content of S. obliquus in the group of adding hydrolysate spent coffee grounds （SCG10） were enhanced by as much as 6.38 times and 3.09 times, respectively. The utilization of carbon sources in SCG to accumulate biomass and carbohydrate was achieved by S. obliquus. Additionally, the biodegradation of caffeine was achieved, when its metabolite, 1,3,7-trimethyluronic acid, was 28.22 times more abundant in the SCG10 group than in the BG11 group. This study demonstrated that S. obliquus realized the resource utilization of SCG and biodegradation of caffeine, which provided a new economic and environmental friendly way to utilize SCG and generate algal-based nutrients.
1
Analysis of the Difference in Long Chain Fatty Acid Composition Between Buffalo Milk and Cow Milk Based on GC-MS Technology and Research on the Identification Method of Adulteration

huang li, peng qin, yang pan, shi zong ce, wang rui min, huang wen ting, huang zi zhen, luo feng mian, qiang jia qi, li ling

Abstract: (8) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

Milk fat and milk fatty acid (FA) compositions are important indicators for evaluating the nutritional value and functional qualities of milk, Gas chromatography-mass spectrometry (GC-MS) was utilized to compare the differences in fatty acid composition and content between buffalo milk and cow milk, with the aim of screening for signature compounds that distinguish the two varieties of cow milk. The results showed that a total of 50 fatty acids were detected in the two types of milk samples, and the medium and long chain fatty acids of the two milks
1
Effects of Geographic Origin and Size on Quality Characteristics of Cultured Oval Pomfret (Trachinotus ovatus)

杨晓红, guoquanyou, zhangbin, linna

Abstract: (12) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

To investigate the effects of cultural region and specification on the quality characteristics of Trachinotus ovatus, samples from two regions (Zhanjiang and Haikou) and two size groups (300-400 g/tail and 500-600 g/tail) were selected. Quality indices including morphology, body color, nutritional composition, and flavor were analyzed. It was found that the b* values in the body (excluding the abdomen), total umami amino acids (large-size: 26.69 mg/100g; small-size: 25.72 mg/100g), and IMP contents (large-size: 247.85 mg/100g; small-size: 235.16 mg/100g) of Trachinotus ovatus from the Zhanjiang region were significantly higher than those from Haikou. Large-size muscles were found to have lower water content (Zhanjiang: 68.48%; Haikou: 71.69%), but higher fat (Zhanjiang: 9.96%; Haikou: 7.43%) and protein contents (Zhanjiang: 19.48%; Haikou: 18.57%). Significantly higher levels of bitterness, bitter aftertaste, HX and HxR were detected in small-size samples (Zhanjiang: 10.13 mg/100g; Haikou: 12.04 mg/100g) compared to large-size samples (Zhanjiang: 6.88 mg/100g; Haikou: 8.28 mg/100g). analysis of volatile flavor substances revealed that higher alcohol content was detected in large-size samples, while aldehyde compounds were found to be more abundant in small-size samples. In conclusion, it was found that the body color of Zhanjiang-farmed Trachinotus ovatus was more vivid, with more pronounced flavor characteristics. Higher nutritional value was observed in large-size specimens, while significant differences were detected in flavor profiles and volatile compounds among different size groups. This study is considered to provide theoretical guidance for subsequent quality control and aquaculture processing.
1
Comparison of The Effects of Black Rice Anthocyanin Monomer C3G of and Its Laurate Acylation Product C3G-C12 on Cholesterol Uptake in Caco-2 Cells

Gu Yingying, Sun Hanju, Liu Shuyun, Zhou Yuxin, Deng Yulong, Kong Lingshuo, He Shudong

Abstract: (10) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

The effects of the black rice anthocyanidin monomer cyanidin-3-O-glucoside (C3G) and its lauric acid enzymatic acylation product cyanidin-3-(6″-lauroyl) glucose (C3G-C12) on cholesterol absorption and transport in Caco-2 cells, and its possible mechanism of action, were investigated. In this study, C3G was extracted from black rice anthocyanidins by semi-preparative liquid chromatography (Semi-HPLC) and the monomer was identified by liquid chromatography-mass spectrometry (LC-MS/MS). C3G was used as raw material and enzymatically acylated with lauric acid and Novozymes 435. The acylated products were further separated by Semi-HPLC, and the monomer was verified by LC-MS/MS and Fourier transform infrared spectroscopy (FTIR). A 21-day Caco-2 intestinal epithelial cell model was established. The cells were incubated with mass concentrations of 50, 100, and 150 μg/mL C3G and C3G-C12 and 20 μmol·L-1 cholesterol absorption inhibitor Ezetimibe to carry out transport experiments. High performance liquid chromatography (HPLC) was used to detect the cellular cholesterol absorption, and fluorescence quantitative PCR (qPCR) was used to detect the expression of NPC1L1 mRNA. The results showed that the cholesterol transport of Caco-2 cells could be inhibited by the both in a concentration-dependent manner. C3G and C3G-C12 at a mass concentration of 150 μg/mL reduced cholesterol absorption by 46.21% and 56.36%, respectively, and cause a 56.93% and 59.76% decrease in NPC1L1 mRNA expression. In summary, C3G-C12 was more effective in inhibiting cholesterol absorption than C3G, which might be related to its inhibition of NPC1L1 mRNA expression. This study provided a theoretical basis for the enzymatic acylation modification of black rice anthocyanins and their role in regulating intestinal cholesterol metabolism.
1
Synergistic Bactericidal Effect and Mechanism of Ultrasound Combined with Carvacrol Nanoemulsion on Salmonella typhimurium and its Application to Cabbage

高畅, 朱佳慧, 谢莉莉, 孔雅静, 蔡笑林, 单忠国, 张春玲, 石超

Abstract: (24) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

To explore safe and effective control methods for Salmonella typhimurium (S. typhimurium), the synergistic bactericidal mechanism of ultrasound (US) combined with carvacrol nanoemulsions (CN) against Salmonella typhimurium and its application in cabbage was investigated. CN was prepared using the ultrasonic emulsification method and the bactericidal effects of US and CN combined treatment on Salmonella typhimurium was evaluated, as well as. changes in bacterial cell morphology, intracellular content leakage, reactive oxygen species (ROS) levels, N-phenyl-1-naphthylamine (NPN) uptake, and malondialdehyde (MDA) content. Additionally, the efficacy of this treatment in reducing Salmonella typhimurium on cabbage surfaces and its impact on cabbage color and firmness were investigated.The results demonstrated that the combined treatment of US and CN was found to exhibit significant synergistic bactericidal effects against Salmonella typhimurium, with synergy index values of 1.35 and 1.33, respectively, compared to individual treatments. Also, the bacterial cell membrane was damaged and increased permeability were observed, along with cell shrinkage and collapse. ROS levels and MDA content were significantly elevated to 1866.99 and 1.25 nmol/mL, respectively, indicating intensified oxidative stress. Furthermore, a reduction in Salmonella typhimurium survival on cabbage surfaces by 0.89~2.01 log CFU/g was achieved by the combined treatment, while no significant alterations in cabbage color or firmness were detected. This study demonstrates that the combined treatment of US and CN effectively inactivates Salmonella typhimurium and enhances the safety of fresh agricultural products. It provides a safe, efficient, and highly promising sterilization method for the food industry.
1
Exploring the Role and Mechanism of Dendrobiumofficinale Polysaccharides in the Prevention and

方红, 红, 红, 红, 红, 红

Abstract: (13) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

This study explores the protective effects and mechanisms of Dendrobium officinale polysaccharides (Dendrobium officinale polysaccharide, DOP) on gallstone-induced gastric mucosal intestinal metaplasia (GIM) cell models using the histone deacetylase 3 (HDAC3)/hepatic nuclear factor 4α (HNF4α) pathway. A GIM model induced by 100 μM chenodeoxycholic acid (CDCA) was established, and cells were simultaneously treated with 400,200, and 100 μg/mL DOP interventions. The CCK8 assay was used to evaluate the effects of DOP and CDCA on GES-1 cells and the impact of DOP on CDCA-induced GIM model cell viability. Morphological changes in the CDCA-induced GIM model were observed using EdU staining, and the proliferation effects of DOP on the CDCA-induced GIM model were assessed through RT-PCR and Western Blot. The expression levels of tail-like homologous box gene (CDX2), mucin 2 (MUC2), hepatic nuclear factor 4α (HNF4α), G protein-coupled receptor (TGR5), farnesyltransferase receptor (FXR), and histone deacetylase 3 (HDAC3) genes and proteins were detected using RT-PCR and Western Blot. An HDAC3 overexpression GIM model was constructed, and the regulation of HNF4α by HDAC3 was investigated using Western Blot and CO-IP. The results show that DOP has no toxic side effects on GES-1 cells and is more effective than CDCA at concentrations above 100 μM. DOP does not significantly affect the viability or proliferation of cells in the CDCA-induced GIM model, but it helps maintain the normal phenotype of GES-1 cells. DOP can significantly downregulate the expression levels of genes and proteins such as CDX2, MUC2, HNF4α, TGR5, FXR, and HDAC3 (P<0.05, P<0.01, P<0.001), with HDAC3 and HNF4α showing an interaction. In summary, DOP is a potential HDAC3-targeted inhibitor that can prevent bile acid-induced gastric mucosal intestinal metaplasia by regulating the HDAC3/HNF4α signaling pathway. The research findings provide experimental foundations for further development of DOP and support clinical drug use with data.
1
Analysis of Dynamic Changes in Non Enzymatic Browning of Concentrated Peach Juice under Different Storage Conditions

张小希, 李根, 孔天宇, 师恩娟, 赵岩, 赵晓丹, 吕绪强, 马寅斐, 初乐

Abstract: (13) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

In order to further explore the alterations in non-enzymatic browning of concentrated peach juice during storage, a range of analytical techniques, including UV-visible spectrophotometry, colorimetry, high-performance liquid chromatography, and liquid chromatography-mass spectrometry, were employed to assess indicators relevant to the visual characteristics and non-enzymatic browning of the juice at different storage temperatures. It was found that as the storage temperature increased, both the optical density at 420 nm and the color difference (ΔE) of the concentrated peach juice exhibited a gradual increase. During storage at temperatures of 4, 25, and 37 ℃, a significant reduction in the levels of ascorbic acid, reducing sugars, amino acids, and amino acid nitrogen—key precursors to browning—was observed over time; conversely, the concentration of 5-hydroxymethylfurfural (5-HMF) increased. Correlation analysis further demonstrated a positive relationship between ΔE and reducing sugars, as well as the color parameters a*, b*, browning degree, and 5-HMF; meanwhile, the lightness parameter (L*) showed a positive correlation with total phenolic content, four specific amino acids, amino acid nitrogen, and ascorbic acid. Notably, as the storage temperature rose, the disparities in non-enzymatic browning indicators of concentrated peach juice became increasingly pronounced. Consequently, it was concluded that mitigating the formation of 5-HMF could significantly reduce the browning degree of concentrated peach juice, while an appropriate increase in the levels of total phenols, amino acids, and ascorbic acid could improve the glossiness of the juice. The outcomes of this investigation provide a scientific foundation for the storage of concentrated peach juice and offer practical recommendations for the preservation of commercially available fruit juices.
1
Study on the Effect of Blue LED in Delaying Postharvest Chilling Injury in Cucumber

Zhang Miaomiao, Chen shuyao, Zhang Fang

Abstract: (13) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

To investigate the effects of blue light-emitting diodes (LEDs) on postharvest chilling injury in representative chilling-sensitive vegetable. Cucumbers were divided into two groups, with the first group of cucumbers were placed in the dark at all times. The second group of cucumbers was irradiated with 460-nm blue LED light at 45 W·m-2 for 12 h every day. All cucumbers were stored at 4 °C for 10 days, and the chilling injury indices, quality parameters, and reactive oxygen species (ROS) metabolism were analyzed at the intervals of two days. The results demonstrated that compared to the control group, blue LED treatment significantly reduced the chilling injury index by 30%, decreased weight loss rate by 11.69%, and effectively maintained higher firmness, L*, chlorophyll, and soluble solids of cucumber. Furthermore, blue LED treatment increased total phenolic and flavonoid content as well as antioxidant enzyme activities, collectively enhancing free radical scavenging capacity and reducing superoxide anion content. Thus, blue LED irradiation mitigates chilling injury and preserves postharvest cucumber quality through the activation of antioxidant systems, thereby sustaining oxidative homeostasis. The results of this study provide LED preservation conditions for extending the low-temperature storage of cucumbers and reducing their postharvest losses.
1

Home

About the journal

Notes for submission

Acceptable topics

Author garden

Open access

中文

Volume 41,2025 Issue 5

UserLogin

Sweep code subscribe