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: |

Effect of salidroside and its aglycone tyrosol on life span of C. elegans

huang zhongxing, Bisheng Zheng, Yuanyuan Wang, Yuanyuan Wang

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

Abstract:

Abstract: Rhodiola extract has biological activities such as anticancer, antidepressant, and longevity. Salidroside (Sal) and its aglycone tyrosol (Tyr) are the two main active monomers of Rhodiola rosea L., which has potential anti-aging activity. Caenorhabditis elegans (C. elegans) were used as an aging model to study the potential anti-aging activities of Sal and Tyr. Our results showed that the lifespan of C. elegans were effectively prolonged by Sal and Tyr. The lifespan of C. elegans were extended by 13.91 and 15.19% by high doses of Sal (200 μmol/L) and Tyr (100 μmol/L), respectively. Both Sal and Tyr could improve motility, stress resistance and antioxidant stress ability. After the treatment of C. elegans with high concentration of Sal and Tyr, ROS levels were decreased by 27.63% and 18.39%, MDA levels were decreased by 71.81% and 64.64%, CAT enzyme activity was increased by 2.17 times and 3.02 times, and SOD activity was increased by 3.03 times and 1.76 times, respectively. RT-qPCR experiments showed that daf-2 and age-1 genes were down-regulated and daf-16, jnk-1 and skn-1 genes were up-regulated by Sal and Tyr. The transcription factors DAF-16 and SKN-1 are induced into the nucleus by Sal and Tyr to achieve anti-aging effects .In summary, Sal and Tyr can show anti-aging activities by regulating reoxidation-reduction balance and regulating the expression of anti-aging and anti-oxidation-related genes in nematodes. Therefore, Sal and Tyr are good choices for the development of dietary supplements to delay aging.
1
Investigating of The Anti-fatigue Mechanism of Earthworm Based on UHPLC-Q-TOF-MS/MS and Network Pharmacology

孟璇, 王梦娇, 赵天旸, 张国忠, 赵德龙, 何希宏, 赵化冰, 贾立明, 贾京华, 张黎明

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

Abstract:

The anti-fatigue mechanism of the active ingredients of earthworm was investigated based on ultra performance liquid chromatography-quadrupole-time of flight mass spectrometry/mass spectrometry (UHPLC-Q-TOF-MS/MS) analysis and network pharmacology. UHPLC-Q-TOF-MS/MS was used to obtain the information of the chemical constituents of earthworm, and the targets of constituent action, fatigue and anti-fatigue gene targets were collected to take the intersection, and gene ontology (GO) and kyoto encyclopedia of genes and genomes (KEGG) enrichment analyses were performed. KEGG Mapper was utilized to elucidate the anti-fatigue mechanism initially, and animal experiments were designed to verify the anti-fatigue efficacy of earthworm. Network analysis showed that the anti-fatigue effects of Dillon were mainly focused on the positive regulation of phosphorylation, the NF-kappa B (NF-κB) signaling pathway, Serotonergic synapse, the JAK-STAT pathway and the arginine and proline metabolism pathway. The results of animal experiments showed that, compared with the control group, the experimental time of weight-bearing swimming in mice in the earthworm extract group was prolonged from 9.78 min to 34.07 min (P<0.001), which was more significant in the middle-dose group, the content of hepatic glycogen was significantly elevated, which was 2591.21 mg/g in the high-dose group (P<0.001), and the content of urea nitrogen and blood lactic acid in the high-dose group were reduced to 3.65 nmol/L and 182.21 nmol/L, respectively (P<0.01). In conclusion, the anti-fatigue effect of earthworm was exerted through the synergistic effect of multi-components, multi-targets and multi-pathways, which provides new ideas and methods for the subsequent research on anti-fatigue mechanisms.
1
Preparation and Oxidative Stability of Walnut Oil Microcapsules

周鑫, 唐明建, 程一帆, 邓欣悦, 王丰俊

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

Abstract:

In this study, walnut oil microcapsules were prepared by using spray drying technology to solidify β-cyclodextrin and soy protein isolate as wall materials. Encapsulation efficiency was the chosen evaluation index，and determination of the optimal experimental range was accomplished through single-factor experiments on core-to-wall ratio, solid content concentration, ultrasonic power, and time. Following this, response surface experiments were conducted to find the best preparation process by establishing a quadratic regression equation model between the four factors mentioned above and the encapsulation efficiency. Results indicated that the highest encapsulation efficiency reached 73.02%, under conditions of 430W ultrasound power, 1:3 core-wall ratio, and 12.5 wt.% solid concentration. Additionally, physicochemical properties of the walnut oil microcapsules were determined, and they exhibited excellent solubility (86.01%). The contact angle was 41.11°, which indicated that it had good fluidity. The particle size distribution was uniform, concentrated around about 3 μm. At the same time, it had good thermal stability, and had a stable structure below 264 ℃. Oxidative stability experiments showed that the shelf-life of walnut oil microcapsules at room temperature (25 ℃) was 174 d, which was significantly higher than that of 75 d for unencapsulated walnut oil. Hence, walnut oil microcapsules prepared under the optimal conditions in this study exhibited excellent solubility and stability, thereby expanding the application scope of walnut oil in food processing.
1
Extraction of Polysaccharides from Grifola Frondosa by Deep Eutectic Solvents and Analysis of Their Antioxidant Activities

吴丹, 甘炳成, 赵金, 陈梦星, 伍一有, 李翔, 王涛

Abstract: (1) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

In order to realize the efficient utilization of G. Frondosa Polysaccharide (GFP), novel Deep Eutectic Solvents (DESs) were used to extract GFP. The extraction conditions were optimized and the antioxidant activities of the GFP were investigated. From eight DESs, DES-2 (choline chloride-ethylene glycol) was screened as the most efficient one for extracting polysaccharides from the fruiting bodies of G. frondosa. On the basis of single factor experiment, the orthogonal experiment was designed to optimize the extraction conditions of GFP. The optimal extraction condition was determined as DES-2 water content of 10%, DES-2 molar ratio of 1:1, liquid-solid ratio of 80 mL/g, extraction temperature of 60 °C, and extraction time of 40 min. Under this condition, the extraction yield of GFP was 30.25%, which was 2.23 times that of traditional hot water extraction. The results of antioxidant studies indicated that W-GFP extracted by hot water had EC50 values of 0.11 mg/mL, 0.45 mg/mL and 0.26 mg/mL in the DPPH, ABTS and ·OH radical scavenging tests, respectively, while D-GFP extracted by eutectic solvents had corresponding EC50 values of 0.11 mg/mL, 0.56 mg/mL and 0.23 mg/mL. Therefore, this study suggested that extraction of GFP by DES had the advantages of green and high yields and the obtained GFP exhibited good antioxidant activities, which provides theoretical basis for the development and utilization of GFP functional foods.
1
Improvement of Interfacial Properties of Rice Glutelin via Complexing with Pectin and the Storage Stability of Pickering Emulsion

Zhang Jiayu, Zhou Jisong, Fu Qingxuan, Huang Guiying, Hou Wenfu, Peng Dengfeng, Jin Weiping

Abstract: (2) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

Rice glutelin (RG) is a commonly used food emulsifier. However, RG is easy to aggregate into hydrophobic particles with large size at the neutral pH, resulting in poor stability and weak interfacial activity. In this work, RG was modified by pectin through electrostatic complexing, and the effects of the RG-to-pectin ratio on the particle size, contact angle, interfacial adsorption property and interfacial film structure were explored. On this basis, these composite particles were utilized as interfacial stabilizers to fabricate the Pickering emulsions, and their particle size distributions, microstructures, rheological properties, and storage stabilities were investigated. Results showed that when the mass ratio of RG to pectin was 1:1, the average particle size of the composite particle was 675.4±24 nm, the contact angle was 64.23±2.5°, the oil-water interfacial tension was reduced from 36.55±0.055 mN/m to 13.00±0.29 mN/m, and the interfacial film was mainly dominated by elasticity with an elastic modulus of 46.07±0.55 mN/m. The Pickering emulsion covered by this composite particle possessed the smallest particle size (d4,3 ~ 31.1±0.047 μm) as well as the highest apparent viscosity and storage modulus. Therefore, complexing with pectin could significantly reduce the size of RG and give it appropriate surface hydrophilicity, thereby improving its abilities to reduce interfacial tension and increase the viscoelastic properties of the interfacial film, which was conducive to prepare stable Pickering emulsion. This study provides a new strategy for expanding the application of RG in food emulsion systems.
1
Study on the Active Constituents of Dendrobium officinale by Microbial Fermentation

辛文燕, 何劲, 汪艳群, 谭川川, 魏雨萌

Abstract: (2) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

Dendrobium officinale is a plant with medicinal and edible homology, ranking first among the "Nine Great Fairy Grasses in China". To investigate the changes in active ingredients of Dendrobium officinale during microbial transformation. Select the most suitable strain for fermentation using Dendrobium officinale as the fermentation substrate to ferment Dendrobium officinale, based on a single factor experiment, the comprehensive score changes of the polysaccharide, flavones and total phenolics were used as evaluation indicators, using orthogonal experiments to optimize the optimal fermentation process, and measure the antioxidant capacity of Dendrobium officinale after fermentation. Using Dendrobium officinale as the fermentation substrate, the most suitable strain is Aspergillus niger. The optimal fermentation process is as follows: the ratio of material to liquid is 1:3, the initial pH is 8, the inoculation amount is 10%, the fermentation temperature is 34 ℃, the fermentation time is 9 days, and the validation test results show that the polysaccharide content is 72.65 mg?g-1, the flavonoid content is 6.67 mg?g-1, the polyphenol content is 11.32 mg?g-1, and the comprehensive score Pi is 0.9455. Using Vitamin C as a control, the DPPH free radical scavenging ability IC50 of fermented Dendrobium officinale was 0.672 mg?g-1, ABTS free radical scavenging ability IC50 was 0.408 mg?g-1, and reducing ability IC50 was 16.498 mg?g-1. The screened strains can better dissolve the active substances in Dendrobium officinale, and use microorganisms to ferment, which can reduce the molecular weight of polysaccharides in Dendrobium officinale and increase the absorption of polysaccharides by the human body; It can also increase the extraction amount of phenolic substances, optimize the fermentation process, increase the antioxidant capacity of Dendrobium officinale, and achieve the goal of economy, safety, and efficiency, greatly improving the application value of Dendrobium officinale.
1
Advances in Carbon Based Nanocomposites as Electrocatalysts for Nitrite Detection

关桦楠, 陈彦宇

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

Abstract:

Nitrite is one of the most commonly used food additives, which imparts better flavour, texture and aroma to foods, preserves the reddish-pink colour of meat and prevents the risk of bacterial contamination of cured meat. However, the misuse and potential toxicity of nitrite pose a great threat to human health, so it is particularly important to develop effective and reliable methods for the detection of nitrite. Carbon-based nanocomposites have shown great potential in the field of electrochemical sensors due to their many excellent properties. In this paper, the mechanism of electrochemical detection of nitrite by carbon matrix nanocomposites is introduced, followed by an overview of the research results of carbon matrix nanocomposites as electrocatalysts in nitrite sensing and detection in different dimensions, and the problems and challenges of electrochemical sensors of carbon matrix nanocomposites in nitrite analysis and detection are proposed, and finally, the future development trend of the materials is outlooked.
1
Determination of Six Disinfectants Residues in Goat Milk Powder by Prime HLB SPE Purification Combined with HPLC-MS/MS

deng hang, zhang ke xin, chen shao qin, wu she lian, chen si yu, huang xiao ning

Abstract: (2) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

In this study, a method was developed for the determination of six Dodecyl dimethyl benzyl ammonium chloride, Tetradecyl dimethyl benzyl ammonium chloride, Benzyl dimethyl hexadecyl ammonium chloride, Dodecyl trimethyl ammonium bromide, Didecyl dimethyl ammonium chloride and Tetra butyl ammonium hydrogen sulfate in goat milk using HPLC-MS/MS. The sample was dissolved in hot water and extracted by ultrasonication followed by protein precipitation with acetonitrile. Sodium chloride was used to separate the water and organic phases. Purification was performed using a Prime HLB SPE column before separation on a Hypersil GOLD C18 chromatographic column (100 mm×2.1 mm, 2.1μm). Detection was carried out using electrospray ionization (ESI+) in multi-reaction monitoring (SRM) mode. Quantification of non-skimmed and skimmed goat milk powder samples utilized an external standard method specific to each blanked matrix type. The results demonstrated excellent linearity (correlation coefficients > 0.999) within the concentration range of 0.01-5.0 μg/L for all six disinfectants, with detection limits (S/N≥3) and quantitation limits (S/N≥10) determined as 0.05 μg/kg and 0.10 μg/kg respectively. Using goat milk powder as a sample, the spiked recovery rate ranged from 97.07% to 105.6%, with relative standard deviations (RSD, n=6) ranging from 0.987% to 4.576%. This method fulfills the detection requirements for six types of disinfectant residues in goat milk powder.
1
Construction of New Cell Scaffold Based on 3D Printing and Its Application in Cell Cultured Meat

郭翔, 王守伟, 李莹莹, 孔保华

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

Abstract:

3D printing technology, as an emerging manufacturing process, can rapidly generate artificial tissue structures resembling natural tissues through layer-by-layer deposition. However, there is scarce reporting and urgent development of 3D printing scaffolds for constructing cell-cultured meat. Therefore, there is an urgent need for the development of edible material-based scaffolds, and issues such as the plasticity and efficiency of the scaffold need further optimization. In this study, 3D printing ink was developed using edible protein materials and scaffolds were prepared. The 3D printing performance and parameters were first analyzed and optimized. Further, the mechanical stability of the scaffold was studied based on water absorption and degradation rate. Finally, the biological compatibility of the scaffold and its interaction with cells were elucidated through cell proliferation culture, live/dead cell staining, and omics analysis. The results show that scaffolds prepared with an extrusion speed of 4.00 mm3/s combined with a printing speed of 6.00 mm/s exhibit significantly higher uniformity, plasticity, and accuracy in comparison to other combination groups. Regarding cross-linking time, the scaffold with a 10-minute cross-linking time demonstrates significantly higher biological compatibility than other groups, along with better mechanical stability and support. Furthermore, scaffolds with a 10-minute cross-linking time exhibit significantly better cell adhesion, proliferation, and migration capabilities than other groups. The cell proliferation curve further reveals the excellent performance of the scaffold in cell culture. The study clarified the interaction between scaffolds and cells and provided new methods and ideas for cell cultured meat production.
1
Effect of Sodium Alginate Addition on the Functional Properties of Rice Bran Protein

肖志刚, 高岩, 毕崇慧, 周廉瞬, 元沅, 段玉敏, 王鹏

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

Abstract:

This paper aimed to study the effect of different sodium alginate additional amounts (0%, 15%, 30%, 45%, 60%, 75%, 90%) on the physicochemical properties (emulsification, emulsification stability, foaming ability, foaming stability, particle size, Zeta potential) and structural characteristics (endogenous fluorescence, surface hydrophobicity, free sulfinyl group, disulfide bond, Fourier transform infrared spectroscopy) of rice bran protein. The results showed that the emulsification, foaming, and foaming stability of rice bran protein were increased by 40%, 18%, and 9%, respectively, and the emulsification stability was increased by more than 20 times when the additional amount of sodium alginate was 45%, as well as the particle size of the complex was the smallest and the charge was the largest. With the increase in the additional amounts of sodium alginate, the endogenous fluorescence intensity of rice bran protein decreased and redshifted, the surface hydrophobicity and the content of free sulfhydryl group increased and the content of disulfide bond decreased. Furthermore, the results of Fourier transform infrared spectroscopy confirmed that sodium alginate could change the secondary structure of rice bran protein. The results of this study are intended to provide a theoretical basis for the further application of rice bran protein-sodium alginate complexes.
1
Preparation and Performance Evaluation of Arginine Microcapsule Powder Dried by Double Shearing Emulsification and spray Drying

张家乐, 刘小如, 王锦红, 邓泽元, 王远义, 钟瑞敏

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

Abstract:

Arginine is widely utilized as a component or nutritional additive in the pharmaceutical, medical food, and feed industries. In this paper, arginine microencapsulated lotion was formed by double shearing and double emulsification, and a solid microcapsule was prepared by spray drying. The morphology, physicochemical properties, and digestion characteristics of arginine microcapsules were systematically analyzed through a series of characterization and detection methods such as optical microscopy, electron microscopy, mass spectrometry imaging, electronic nose, electronic tongue, thermogravimetric analysis, and in vitro simulated digestion. The storage stability was investigated through a series of stability tests. The results showed that the double shear emulsification could form a stable W/O/W arginine microcapsule lotion. The microcapsule prepared by spray drying was round and spherical, with an average particle size of 41.36 μm, and the loading amount of arginine was 12.16 wt.%, which was mainly distributed inside the capsule, and the embedding rate was 95.51%; The outer water-soluble wall material exhibited good masking effects on the ammoniacal odor and bitterness of arginine. Additionally, it demonstrated a higher propensity for disintegration during the 30-minute simulated gastric juice digestion, resulting in a sustained release rate of 93.14% for arginine; Moreover, arginine microcapsules had good stability, with an arginine retention rate of 93.82% after 90 days of storage at room temperature. This study may provide a theoretical basis for the commercial application of arginine microcapsules in practice.
1
Cherry juice freeze-dried powder alleviates hyperuricemic renal injury by regulating uric acid transporter

余惠凡, 周洁, 黄林生, 桂利利, 吴正坤, 李飞

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

Abstract:

Abstract: The hyperuricemia (HUA) mouse model established by intraperitoneal injection of potassium oxonate for 7 days. HUA were intervened by cherry juice freeze-dried powder (CJP), benzbromarone and allopurinol. The serum uric acid (UA), creatinine (Cr), and blood urea nitrogen (BUN) were detected by the kits. The pathological changes of liver and kidney were investigated by hematoxylin-eosin (HE) staining. Western blot and immunohistochemistry were used to detect the expression level of uric acid transporter in mouse kidney. To explore the effect of CJP alleviates hyperuricemic renal injury by regulating uric acid transporter. The UA level in the high-dose group of CJP decreased from 191.99 μmol/L to 113.12 μmol/L (P<0.01), but it was still 25% higher than the normal level, while the Cr level decreased from 16.09 μmol/L to 7.40 μmol/L (P<0.01), and the BUN level decreased from 8.24 mmol/L to 4.73 mmol/L (P<0.01). These two indicators have reached the normal level. Renal tissue injury improved significantly. The protein expression levels of uric acid reabsorption protein urate transporter 1 (URAT1) and glucose transporter 9 (GLUT9) were down-regulate, while the protein expression levels of uric acid secretion proteins ATP-Binding Cassette Superfamily G Member 2 (ABCG2) , Anion Transporter 1 (OAT1), and Anion Transporter 3 (OAT3) were up-regulate by CJP in HUA mice kidney. HUA induced kidney damage relieved by CJP, and CJP had no obvious toxicity to the liver. Therefore, CJP alleviates hyperuricemic renal injury by regulating uric acid transporter. This study can provide scientific basis for cherry to develop healthy products for preventing and treating hyperuricemic renal injury.
1
Optimization of Plant-based Chicken Steak Formulation Based on Clean Label and Protein Nutritional Evaluation

Jiang Yuhan, Zhang Zhenwei, Yu Jie, Zhu Meilin, Zhang Chunrong, Jia Lirong

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

Abstract:

In this study, the reduction of excipients and food additives was investigated on the basis of the existing plant-based chicken steak formula of the manufacturer to achieve label cleanliness. In this study, the effects of different additives of L-cysteine, flaxseed gum, konjac gum, egg white powder, inulin, and TGase on the texture and sensory quality of the product were investigated by using texture meter measurements and sensory evaluation. And a clean-label based formulation was formed as follows (mass fractions): 12.26% of soybean pullulan protein, 7.36% of peanut pullulan protein, 53.96% of water, 14.72% of soybean oil, 3.68% of soybean isolate protein powder, 3.07% of gluten powder, 0.1% of L-cysteine, 0.49% of TGase (liquid), 4.37% of compound seasoning, 0.74% of salt, and 1.47% of white sugar. In this study, the protein nutritional value of plant-based chicken steak of the above formulation was compared with that of chicken steak. The protein digestibility of the plant-based chicken steak was 37.56%, which was close to that of the chicken steak (protein digestibility of 41.85%); its ratio of essential amino acid content to total amino acid content (EAA/TAA) was 0.41, and the ratio of essential amino acids to non-essential amino acids (EAA/NEAA) was 0.71, which were all in line with the standards set by FAO/WHO; its amino acid score (AAS) was 1.71 and the chemical score (CS) was 1.26.Therefore, the plant-based chicken steak produced by the above formulation is a high quality source of protein. Based on the analysis of the above indicators, four excipients and additives (flaxseed gum, konjac gum, egg white powder, and inulin) were removed from the original formulations with quality assurance, and a reliable basis for label cleanliness and protein nutrient evaluation of plant-based meat products was provided by this study.
1
Efficient Secretion and Expression of Human Lactoferrin in Pichia Pastoris

张嘉欣, 梁书利

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

Abstract:

Human lactoferrin has many biological activities such as antimicrobial activity, anti-inflammation, anti-tumor and participating in immune regulation. It has broad application prospects in food, cosmetics and feed additives. The cost of extracting lactoferrin from emulsion is high, which restricts the large-scale production and application of lactoferrin. It is expected to solve this problem by constructing a high-yield cell factory to obtain rhLf. In this study, the promoter and signal peptide in the gene expression element were optimized. The total protein in the supernatant of the human lactoferrin expression strain was increased from 215.00 mg/L to 849.52 mg/L by nearly three times through optimization of expression elements. Furthermore, the production of rhLf was increased by overexpressing the secretion-promoting protein factors related to the rhLf production and secretion pathway and regulating the cellular stress response. By overexpressing Yap1and Msn2, which balances the redox state of yeast cells under production pressure, the total protein in the supernatant of human lactoferrin expression strain was increased from 849.52 mg/L to 1055.68 mg/L. Finally, the target protein was semi-quantified, which was increased from 34.82 mg/L to 197.30 mg/L by nearly 4.8 times. This study greatly improved the protein production capacity of human lactoferrin expression strains through a variety of combination strategies and provided guidance for efficient secretory expression of Pichia pastoris.
1
Experimental comparison of industrial Wolfberry vacuum drying at room temperature

zongxuewen, songzengquan, 刘登科, 杨勇, 叶凡, 庞盈

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

Abstract:

In order to improve the quality and efficiency of single mass drying of Wolfberry, an air source heat pump vacuum drying system was designed and manufactured to meet 1125kg Wolfberry fresh fruit. On the basis of no-load capacity test, the drying efficiency of Wolfberry was studied by side pumping, end pumping and so on. The experimental results showed that the vacuum capacity and heating capacity of the equipment met the design requirements. During the drying process, the pressure in the drying oven decreased exponentially, and the water loss rate of Wolfberry decreased gradually with the drying time. The side-pumping vacuum mode had a good dehumidification effect, which can reduce the humidity in the box to below 45%RH within 50 minutes and maintain a low humidity environment throughout the drying process. Correspondingly, it had shorter drying time (18.6h) and dehumidification per unit energy consumption (0.53(kg*h/Kw)). Lower drying temperature can reduce the formation of Wolfberry bubble wolfberry and improve the proportion of high-quality dried fruit. The results of this study laid a foundation for the development of 4-ton vacuum drying system of Wolfberry at room temperature, and had reference value for the development of vacuum drying system of fruits, vegetables, Chinese herbs and the quality optimization of vacuum drying of Wolfberry.
1
Bioactive Substances, Antioxidant Activities and Anti-inflammatory Activities of 9 Kinds of Berries in Northeast China

张雅男, 包怡红, 王金玲

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

Abstract:

In order to promote the development and utilization of berry-related functional products in Northeast China, the contents of total phenols, total flavonoids and total anthocyanins in 9 kinds of berries widely cultivated and common in Northeast China were determined and analyzed. The types and contents of phenolic monomers in berries were determined by high performance liquid chromatography. Antioxidant activity and anti-inflammatory activity of berries were evaluated by measuring DPPH· scavenging ability, ABTS+? scavenging ability, hyaluronidase inhibiting ability and albumin denaturation inhibiting ability, and correlation analysis was conducted. The results showed that the contents of total phenols, total flavonoids and total anthocyanins in blue honeysuckle and lingonberry were higher, which were 2.83 and 2.42 g (GAE) /100g DW, 0.99 and 2.09 g (Rutin) /100g DW, 104.33 and 414.73 mg/100g DW, respectively. And they had strong antioxidant and anti-inflammatory activities. The correlation results showed that the total phenolic content contributed the most to the antioxidant and anti-inflammatory activities of the berries. 19 monomer phenols were identified and quantified in 9 berries. Chlorogenic acid, cryptochlorogenic acid, arbutin and baicalein were all detected in berries. Chlorogenic acid and cryptochlorogenic acid were the main phenolic monomers in most berries. Among them, the monomer phenol species in lingonberry and the monomer phenol content in blue honeysuckle were the highest. The experiment provided a theoretical basis for the comprehensive utilization of berries in Northeast China.
1
Preparation and Characterization of Debranched Short Straight-Chain Starch-Based Complex Particles Encapsulated with an Emulsion System of Flavonoids from Angelica Keiskei Koidz

LI Hua, 吴金鸿, BAI Xue, ZHAO Zhirui, ZENG Jihao, SHENG Yi, LIU Jianhua, CHEN Yuzhu

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

Abstract:

In this paper, zein and pectin were modified by adding debranched short straight-chain starch (DBS), and the effects of different DBS additions on the structure and emulsification of the ternary complex particle were investigated. In addition, the ternary complex particles were also characterized by the Fourier infrared spectroscopy, high-performance gel exclusion chromatography with the refractive index detector, and so on. Subsequently, the preparation parameters of the Pickering emulsion embedded with the flavonoids extracted from the Angelica keiskei Koidz. were optimized using an orthogonal experimental design, aiming to develop a delivery system of the flavonoids for enhancing their bioavailability. Results showed that adding DBS effectively improved the amphiphilicity of zein and pectin, and formed a kind of ternary complex particles with the smallest particle size (592.6 nm) and the lower Zeta potential (– 45.8 mV). Moreover, the ternary complex particles formed a tightly stacked network structure when the addition amount of DBS was 0.4 g and the mass ratio of DBS, zein, and pectin was 0.16:1:1. And flavonoids extracted from the Angelica Keiskei Koidz. can be protected to tolerate the digestive environment of the oral and stomach, and the bioavailability can be improved up to 49.35%. This study provides a theoretical reference for the development of short straight-chain starch-based Pickering emulsions, their application in delivery systems, and the improvement of the bioavailability of flavonoids.
1
The Inhibitory Effect of Tea Tree Essential Oil on Listeria Monocytogenes and Its Application in Refrigerated Fresh Pork

Wang Qingyao, Xiao Xinglong, Liu Yuanyuan, Lin Yihan, Zhang Yan

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

Abstract:

The inhibitory effect of tea tree essential oil on Listeria monocytogenes and its application in the preservation of refrigerated fresh pork were investigated in this study. The minimum inhibitory concentration (MIC) of tea tree essential oil on Listeria monocytogenes was determined, the bacterial growth curve and the changes in cell ultrastructure were observed. The impact of tea tree essential oil treatment on the total bacterial count, total volatile basic nitrogen content, thiobarbituric acid reactive substances content, pH, color, and texture changes during the refrigeration of pork were analyzed. The results showed that the MIC of tea tree essential oil against Listeria monocytogenes was 4.0 mg/mL, all different treatment groups with tea tree essential oil demonstrated a significant inhibitory effect on Listeria monocytogenes. Tea tree essential oil damaged the structural integrity of both the cell membrane and the cell wall of Listeria monocytogenes, causing release of internal cellular contents and ultimately the demise of the bacteria. Additionally, in contrast to the control group, the total number of colonies in MIC, 2MIC and 4MIC tea tree essential oil treatment groups decreased by 1.18, 1.37 and 1.56 log CFU/g, respectively, and the values of TVB-N and TBARS did not exceed the maximum threshold during storage (0～12 days), tea tree essential oil effectively inhibited the growth of microorganisms in pork, delayed the degradation of nitrogenous compounds, fat oxidation, color changes, and maintained the quality. The results showed that tea tree essential oil could inhibit the growth of Listeria monocytogenes and extend the shelf life of chilled pork for about 3 days, and can be used as a fresh-keeping agent for chilled pork.
1
Characterization of Low Concentration-sensitivity Porcine Plasma Protein-Xanthan Acid-induced Cold Gel

马转转, 康旭, 袁江兰

Abstract: (6) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

Protein-polysaccharide complex hydrogels play an important role in maintaining food texture. In this paper, gluconolactone (GDL) was used as acidifier to regulate the pH value of porcine plasma protein (PPP) -Xanthan gum (XG) complex solution to 3.5, so as to form a stable PPP-XG composite gel. The results of texture, rheology and electron microscope analysis showed that PPP and XG with low concentration could form typical gels with dense network structure. Potential and interaction force proved that non-covalent interaction occurred between PPP and XG, electrostatic and hydrogen bond as the main driving force. At a certain polysaccharide concentration, the gel had the highest hardness at a protein to polysaccharide ratio of 1:1. At other concentrations, the gel hardness showed a decreasing trend. The concentration of XG could promote the hardness of gel. When the XG concentration was 0.3%, the mixed solution had a suitable viscosity and hardness, and the maximum hardness was 250.02g at 0.3%PPP, while the lowest holding power was 53.96%, the highest syneresis value was 9.77%, the energy storage modulus and intermolecular force were the strongest, and the gel structure was dense. The swelling properties of the composite gel showed that the water absorption capacity of the composite gel at pH value 7.4 was significantly better than that at pH value 2.0 (P < 0.05). The results indicated that the composite gel could improve the textural properties of food, and could be used as a delivery carrier of potential heat-sensitive ingredients, providing a reference for food processing.
1
Dynamic Changes in Aroma Components During the Processing of Rucheng Baimao (Camellia pubescens) Black Tea

朱俊烨, 李月, 石琳琳, 周跃斌, 文海涛

Abstract: (6) HTML (0) PDF (0.00 ByteKB) (0)

Abstract:

To investigate the dynamic changes in the aroma components of Rucheng Baimao (Camellia pubescens) black tea, HS-SPME-GC-MS technology was used to detect the volatile components in the fresh leaves (XY), withering (WD), rolling (RN), fermentation (FJ), and drying (GZ) stages of Rucheng Baimao (Camellia pubescens) black tea. The results showed that a total of 129 volatile components were detected, including 30 alcohols, 10 aldehydes, 35 esters, 5 ketones, 30 alkanes, 10 olefins, and 9 other types. Among them, alcohols, esters, and alkanes were the main categories of volatile components in the processing, and the relative content of alcohols and esters was much higher than that of other volatile components types. Based on multivariate statistical analysis and rOAV value calculation, linalool, phenylethanol, geraniol, 2-phenylacetaldehyde, and β-ionone is an important contributor to the aroma and quality of Rucheng Baimao (Camellia pubescens) black tea, providing floral and sweet characteristics for Rucheng Baimao (Camellia pubescens) black tea. The metabolic pathways mainly involved in the biosynthesis of volatile terpenoids are the MVA and MEP pathways, phenylalanine metabolism pathways, and carotenoid degradation pathways. This study can provide a certain reference for the regulation of aroma and quality of Rucheng Baimao tea and black tea.
1

Home

About the journal

Notes for submission

Acceptable topics

Author garden

Open access

中文

Volume 40,2024 Issue 3

UserLogin

Sweep code subscribe