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2. The stability mechanism of Pickering emulsions fabricated by multi-functional amylose-based nanoparticles in a delivery system

Author

Pingping Wang, Yang Wang, Chun Chen, and Xiong Fu

Subjects
General Medicine, Food Science
Abstract

In this work, multi-functional amylose-based nanoparticles (OSA-AM-9/VE NPs) were fabricated via simple and sustainable esterification, encapsulation, and co-precipitation processes of amylose (AM), octenyl succinic anhydride (OSA), and vitamin E (VE).

Published
2023
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3. Effect of potassium salts on the structure of γ‐cyclodextrin <scp>MOF</scp> and the encapsulation properties with thymol

Author

Xiaodan Pan, Shahid Ahmed Junejo, Chin Ping Tan, Bin Zhang, Xiong Fu, and Qiang Huang

Subjects
Nutrition and Dietetics, Oils, Volatile, Potassium, Salts, Agronomy and Crop Science, Metal-Organic Frameworks, Thymol, Anti-Bacterial Agents, gamma-Cyclodextrins, Food Science, Biotechnology
Abstract

Thymol is a natural essential oil with strong volatility, low solubility, poor dispersion, strong irritation, and an unpleasant smell, which often requires appropriate porous materials to encapsulate thymol during the application process. However, the encapsulation efficiency of thymol in inclusion complexes is low, and new methods of encapsulation need to be developed. In the present study, the encapsulation capacity, storage stability, and antibacterial activity of thymol were investigated using γ-cyclodextrin (γ-CD) metal-organic frameworks (MOFs) by cocrystallization and high-temperature adsorption methods. The effect of different potassium salts (i.e. KOH, KCl, and KAc) on the structure and complexation of γ-CD-MOFs was also analyzed.Compared with γ-CD, the thymol encapsulation capacity of γ-CD-MOFs was increased by two- to three-fold, with the encapsulation content following the order: KAc-γ-CD-MOF (293.8 mg gThe in vitro release kinetics and antibacterial experiments showed that the inclusion complexes prepared by γ-CD-MOFs had higher stability, sustainability, and antibacterial activity, which suggests that it is an excellent complex material for industrial and agricultural applications. © 2022 Society of Chemical Industry.

Published
2022
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4. Current advances in the anti-inflammatory effects and mechanisms of natural polysaccharides

Author

Dan Yuan, Chao Li, Qiang Huang, Xiong Fu, and Hao Dong

Subjects
General Medicine, Industrial and Manufacturing Engineering, Food Science
Abstract

Inflammatory bowel disease (IBD) is a chronic, multifactorial and inflammatory disease occurring in the colon tract. Bioactive polysaccharides from natural resources have attracted extensive attention due to their safety, accessibility and good bioactivities. In recent years, a variety of natural bioactive polysaccharides have been proven to possess anti-inflammatory effects on treating acute colitis. The objective of this review was to give an up-to-date review on the anti-inflammatory effects and mechanisms of natural polysaccharides on acute colitis. The anti-inflammatory effects of natural polysaccharides on acute colitis concerning clinical symptoms amelioration, colon tissue repairment, anti-oxidative stress alleviation, anti-inflammation, immune regulation, and gut microbiota modulation were comprehensively summarized. In addition, inducible murine models for assessing the anti-inflammatory effects of natural polysaccharides on acute colitis were also concluded. This review will offer the comprehensive understanding of anti-inflammatory mechanisms of natural polysaccharides in acute colitis, and render theoretical basis for the development and application of natural polysaccharides in drug and functional food.

Published
2022
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6. Recent advances in polysaccharides from Rose roxburghii Tratt fruits: isolation, structural characterization, and bioactivities

Author

Juan Su, Bin Zhang, Xiong Fu, Qiang Huang, Chao Li, Guang Liu, and Rui Hai Liu

Subjects
General Medicine, Food Science
Abstract

Rosa roxburghii Tratt fruit (RRF), known commonly as Cili in China, is a highly valued fruit that contains abundant functional and nutritional constituents with a variety of health-promoting benefits.

Published
2022
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11. Phytochemical profile, bioactivity and prebiotic potential of bound polyphenols released from Rosa roxburghii fruit pomace dietary fiber during in vitro digestion and fermentation

Author

Juan Su, Xiong Fu, Qiang Huang, Guang Liu, and Chao Li

Subjects
General Medicine, Food Science
Abstract

The liberation of bound polyphenols from Rosa roxburghii fruit pomace dietary fiber (RPDF) and their biological activity and prebiotic potential during in vitro digestion and colonic fermentation.

Published
2022
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13. Propionylated high-amylose maize starch alleviates obesity by modulating gut microbiota in high-fat diet-fed mice

Author

Zhuqing Xie, Minghua Yao, Josué L. Castro-Mejía, Ming Ma, Yuyan Zhu, Xiong Fu, Qiang Huang, and Bin Zhang

Subjects
Nutrition and Dietetics, High-fat diet, Propionate, Propionylated high-amylose maize starch, Medicine (miscellaneous), Gut microbiota, Food Science
Abstract

Obesity threatens human health worldwide, and mounting findings have found that gut microbiota (GM) changes induced by diet intervention influence its development. This study aims to investigate the anti-obesity effects and GM changes of propionylated high-amylose maize starch (PS) in C57BL/6J mice fed with high-fat diet (HFD). In our results, PS decreased the body weight of HFD-fed mice after 8 weeks and regulated the glucose stability and insulin resistance. High-amylose maize starch (HAMS) and PS regulated the serum lipid levels and inflammatory response. Moreover, PS yielded more propionate relative to HAMS, proving that introduced propionyl groups could be released in the colon. 16S rRNA results showed that PS altered GM with the increase of bacteria (S24-7 and Ruminococcus) and decrease of harmful genera, which is linked to the anti-obesity effect. Our results provide a reference for the design of functional dietary fibers inducing high propionate production and GM modulation.

Published
2023
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14. Starch Microspheres Entrapped with Chitosan Delay In Vitro Fecal Fermentation and Regulate Human Gut Microbiota Composition

Author

Xiong Fu, Tom Van de Wiele, Yang Yuan, Kim De Paepe, Qiang Huang, Shaokang Wang, and Bin Zhang

Subjects
biology, Starch, Metabolite, Lachnospiraceae, food and beverages, General Chemistry, Butyrate, Gut flora, biology.organism_classification, Chitosan, chemistry.chemical_compound, chemistry, Fermentation, Food science, Roseburia, General Agricultural and Biological Sciences
Abstract

A slow dietary fiber fermentation rate is desirable to obtain a steady metabolite release and even distribution throughout the entire colon, ensuring to meet the energy needs in the distal colon. In this study, we prepared starch-entrapped microspheres with a variable chitosan-to-starch ratio by means of electrospraying and investigated the fermentability by human fecal microbiota in an in vitro batch system. Starch encapsulation reduced microbial gas production and the concentration of short-chain fatty acids. Butyrate production, in particular, gradually decreased with increasing chitosan proportions. Moreover, the starch and chitosan composites induced a synergistic effect on the gut microbiota composition. Roseburia, Lachnospiraceae, and Clostridiales were promoted by all of the microspheres, and the abundance of the aforementioned health-promoting taxa reached a maximum in chitosan/starch microspheres with a 1:6 (w/w) ratio. Our findings highlight the possible benefits of rationally designing functional foods targeting functional and taxonomic gut microbiota modulation.

Published
2021
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15. Controlled Release of Thymol by Cyclodextrin Metal-Organic Frameworks for Preservation of Cherry Tomatoes

Author

Zhicheng Li, Yanan Sun, Xiaodan Pan, Tong Gao, Ting He, Chun Chen, Bin Zhang, Xiong Fu, and Qiang Huang

Subjects
Health (social science), Plant Science, CD-MOF, thymol, encapsulation, controlled release, cherry tomatoes, Health Professions (miscellaneous), Microbiology, Food Science
Abstract

Thymol is a phenol monoterpene with potential antifungal, antioxidant and antibacterial activities. Due to the low water solubility and high volatility of thymol, encapsulation serves as an effective tool during application. In the present study, cyclodextrin (CD)-based metal-organic-frameworks (MOFs) were synthesized using α-CD, β-CD, and γ-CD as organic building blocks, and further complexed with thymol to produce three CD-MOF-THY inclusion complexes (ICs). The encapsulation content, release kinetics and fruit preservation effect of ICs were analyzed. Results showed that thymol was well embedded in γ-CD-MOFs, with the highest encapsulation content of 286.7 ± 8.4 mg/g. Release kinetics revealed that CD-MOFs exhibited a controlled release effect toward thymol for 35 days. The release kinetics of three ICs fit the Rigter–Peppas model well, with γ-CD-MOF-THY showing the lowest release rate constant of 2.85 at 50 °C, RH 75%. Moreover, γ-CD-MOF-THY exhibited a remarkable preservation performance on cherry tomatoes with the lowest decay index (18.75%) and weight loss (5.17%) after 15 days of storage, suggesting this material as a potential fresh-keeping material for fruit and vegetable preservation.

Published
2022

17. Ultra-high Pressure Treatment Controls In Vitro Fecal Fermentation Rate of Insoluble Dietary Fiber from Rosa Roxburghii Tratt Pomace and Induces Butyrogenic Shifts in Microbiota Composition

Author

Jie Xia, Kim De Paepe, Bin Zhang, Qiang Huang, Xiong Fu, Tom Van de Wiele, and Shaokang Wang

Subjects
biology, Chemistry, Ruminococcus, Prebiotic, medicine.medical_treatment, Extraction (chemistry), Swelling capacity, Pomace, General Chemistry, Butyrate, biology.organism_classification, medicine, Food science, General Agricultural and Biological Sciences, Bacteria, Feces
Abstract

Dietary fiber has been considered a key element in shaping the beneficial host-microbe symbiosis. In the present study, we identified Rosa roxburghii Tratt fruits as a promising dietary fiber source. The physicochemical properties and in vitro fermentability by human fecal microbes of R. roxburghii pomace water insoluble dietary fiber (RIDF) obtained from ultrasonic extraction and ultrahigh pressure (90 MPa)-treated RIDF (RIDF-90) were compared to those of R. roxburghii Tratt pomace (R). Ultrahigh pressure modification significantly increased the water holding, oil holding, and swelling capacity of RIDF-90 in comparison to R and RIDF. RIDF-90 displayed the slowest fermentation rate yet yielded the highest butyrate production. The superior butyrogenic properties of both RIDF-90 and, in part, RIDF were reflected by increased Coprococcus and Ruminococcus levels, demonstrating that ultrasonic extraction and/or further ultrahigh pressure treatment of insoluble fibers promotes the prebiotic value of R. roxburghii Tratt.

Published
2021
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19. A review of sugar beet pectin-stabilized emulsion: extraction, structure, interfacial self-assembly and emulsion stability

Author

Hui Niu, Keke Hou, Haiming Chen, and Xiong Fu

Subjects
General Medicine, Industrial and Manufacturing Engineering, Food Science
Abstract

In recent years, sugar beet pectin as a natural emulsifier has shown great potential in food and pharmaceutical fields. However, the emulsification performance depends on the molecular structure of sugar beet pectin, and the molecular structure is closely related to the extraction method. This review summarizes the extraction methods of pectin, structure characterization methods and the current research status of sugar beet pectin-stabilized emulsions. The structural characteristics of sugar beet pectin (such as degree of methylation, degree of acetylation, degree of blockiness, molecular weight, ferulic acid content, protein content, neutral sugar side chains, etc.) are of great significance to the emulsifying activity and stability of sugar beet pectin. Compared with traditional hot acid extraction method, ultrasonic-assisted extraction, microwave-assisted extraction, subcritical water-assisted extraction, induced electric field-assisted extraction and enzyme-assisted extraction can improve the yield of sugar beet pectin. At the same time, compared with harsh extraction conditions (too high temperature, too strong acidity, too long extraction time, etc.), mild extraction conditions can better preserve these emulsifying groups in sugar beet pectin molecules, which are beneficial to improve the emulsifying properties of sugar beet pectin. In addition, the interfacial self-assembly behavior of sugar beet pectin induced by the molecular structure is crucial to the long-term stability of the emulsion. This review provides a direction for extracting or modifying sugar beet pectin with specific structure and function, which is instructive for finding alternatives to gum arabic.

Published
2022

22. Cell wall permeability of pinto bean cotyledon cells regulate in vitro fecal fermentation and gut microbiota

Author

Xiong Fu, Bin Zhang, Feitong Liu, Qiang Huang, Sushil Dhital, and Yanrong Huang

Subjects
0301 basic medicine, food.ingredient, biology, Chemistry, Lachnospiraceae, food and beverages, 04 agricultural and veterinary sciences, General Medicine, Gut flora, biology.organism_classification, 040401 food science, Cell wall, 03 medical and health sciences, 030104 developmental biology, 0404 agricultural biotechnology, food, Pinto bean, Fermentation, Food science, Roseburia, Cotyledon, Intracellular, Food Science
Abstract

Processing induced structural changes of whole foods for the regulation of the colonic fermentation rate and microbiota composition are least understood and often overlooked. In the present study, intact cotyledon cells from pinto beans were isolated as a whole pulse food model and subjected to a series of processing temperatures to modulate the structure, most dominantly the cell wall permeability. The cell wall permeability, observed with the diffusion of fluorescently labeled dextran (FITC-dextran), was increased as a function of the hydrothermal temperature, which is in line with the rise in the in vitro fecal fermentation rate and production of short-chain fatty acids (SCFAs) from the pinto bean cells. Further, the abundance of beneficial microbiota, such as Roseburia, Lachnospiraceae, Bacteroides, and Coprococcus, were significantly higher for cells processed at 100 °C compared to the 60 °C-treated ones. We conclude that cell wall provides an effective barrier for the microbial fermentation of intact cells. With an increase in cell wall permeability, microbes and/or microbial enzymes have easier access to intracellular starch for fermentation, leading to an increase in the production of metabolites and the abundance of beneficial microbes. Thus, desired colonic fermentation profiles can be achieved with the controlled processing of whole foods for enhanced gut health.

Published
2021
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23. In vitro fecal fermentation profiles and microbiota responses of pulse cell wall polysaccharides: enterotype effect

Author

Qiang Huang, Seda Arıoğlu-Tuncil, Tingting Chen, Bin Zhang, Miaomiao Yu, Xiong Fu, and Zhuqing Xie

Subjects
chemistry.chemical_classification, biology, food and beverages, General Medicine, Gut flora, biology.organism_classification, Polysaccharide, stomatognathic diseases, stomatognathic system, chemistry, Propionate, Prevotella, Enterotype, Fermentation, Food science, Bacteroides, Bacteria, Food Science
Abstract

The gut microbiota community of individuals is predominated by diverse fiber-utilizing bacteria, and might have distinct fermentation outcomes for a given dietary substrate. In this research, we isolated pea cell walls (PCWs) from cotyledon seeds, and performed the in vitro fecal fermentation by individual Prevotella- and Bacteroides-enterotype inocula. The Prevotella-enterotype inoculum showed a higher fermentation rate and produced more short-chain fatty acids (SCFAs), especially propionate and butyrate, throughout the entire fermentation period from PCW degradation compared with the Bacteroides-enterotype one. Furthermore, the better monosaccharide utilization capacity of Prevotella-enterotype inoculum was shown, compared to the Bacteroides-enterotype inoculum. PCW fermentation with Prevotella- and Bacteroides-enterotype inocula resulted in different microbial changes, and the abundance of Prevotella and Bacteroides was promoted, respectively. These results may contribute to predicting the responses of Prevotella and Bacteroides enterotypes to diets and offer useful information in personalized nutrition.

Published
2021
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24. Changes of digestive and fermentation properties of Sargassum pallidum polysaccharide after ultrasonic degradation and its impacts on gut microbiota

Author

Hao Dong, Lijun You, Dan Yuan, Xiong Fu, and Chao Li

Subjects
Firmicutes, Prevotella, 02 engineering and technology, Gut flora, Polysaccharide, Biochemistry, Antioxidants, Bile Acids and Salts, 03 medical and health sciences, Picrates, Polysaccharides, Structural Biology, Ruminococcus, Dietary Carbohydrates, Bacteroides, Humans, Ultrasonics, Glycosides, Food science, Sargassum pallidum, Saliva, Molecular Biology, 030304 developmental biology, chemistry.chemical_classification, Principal Component Analysis, 0303 health sciences, Base Sequence, biology, Bacteroidetes, Viscosity, Biphenyl Compounds, Monosaccharides, Sargassum, alpha-Glucosidases, General Medicine, Hydrogen-Ion Concentration, 021001 nanoscience & nanotechnology, biology.organism_classification, Gastrointestinal Microbiome, Molecular Weight, chemistry, Fermentation, 0210 nano-technology, Digestion
Abstract

The in vitro digestive and fermentation properties of Sargassum pallidum polysaccharide (SPP) after ultrasound degradation were investigated. The results showed that SPP and its degraded fractions were not affected by human saliva, but slightly degraded by breaking glycosidic bonds under simulated gastrointestinal digestion. The DPPH radical scavenging activity, α-glucosidase inhibitory activity, and bile acid-binding capacity of SPP and its degraded fractions were decreased after digestion, which was attributed to the reduction of molecular weights (MWs) and viscosity. Furthermore, in vitro fermentation assay indicated that SPP and its degraded fractions showed good fermentability. The predominant compositional monosaccharides including arabinose, galactose, glucose, xylose, and uronic acid were significantly decreased, and the degraded SPP fractions were more easily fermented and utilized by gut bacteria. SPP and its degraded fractions could modulate gut health by decreasing the Firmicutes/Bacteroidetes ratio and increasing the relative abundances of some beneficial genera, such as Prevotella, Dialister, Phascolarctobacterium, Ruminococcus, and Bacteroides. These findings suggested that SPP and its degraded fractions exhibited similar influence on gut microbiota community, but appropriate degraded SPP fractions were more easily fermented by gut microbiota.

Published
2020
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25. Cell Wall Integrity of Pulse Modulates the in Vitro Fecal Fermentation Rate and Microbiota Composition

Author

Guan Nannan, Tingting Chen, Xiaowei He, Xiong Fu, Feitong Liu, Bin Zhang, Qiang Huang, and Shaokang Wang

Subjects
food.ingredient, Cell, Polysaccharide, Cell wall, Feces, food, Cell Wall, Polysaccharides, medicine, Humans, Food science, Resistant starch, Phaseolus, chemistry.chemical_classification, Bacteria, biology, food and beverages, General Chemistry, biology.organism_classification, Gastrointestinal Microbiome, medicine.anatomical_structure, chemistry, Fermentation, Seeds, Pinto bean, Roseburia, General Agricultural and Biological Sciences
Abstract

The physical structure of type 1 resistant starch (RS 1) could influence the metabolite production and stimulate the growth of specific bacteria in the human colon. In the present study, we isolated intact cotyledon cells from pinto bean seeds as whole pulse food and RS 1 model and obtained a series of cell wall integrities through controlled enzymolysis. In vitro human fecal fermentation performance and microbiota responses were tested, and we reported that the cell wall integrity controls the in vitro fecal fermentation rate of heat-treated pinto bean cells. The concentration of butyrate produced by pinto bean cell fermentation enhanced with weakened cell wall integrity, and certain beneficial bacterial groups such as Blautia and Roseburia genera were remarkably promoted by pinto bean cells with damaged cell wall integrity. However, the intact cell sample had a shape more similar to microbiota composition with the purified cell wall polysaccharides, rather than the damaged cells.

Published
2020
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26. Digestibility, bioactivity and prebiotic potential of phenolics released from whole gold kiwifruit and pomace byin vitrogastrointestinal digestion and colonic fermentation

Author

Chun Chen, Qiang Huang, Xing Xie, and Xiong Fu

Subjects
0301 basic medicine, Hydroxybenzoic acid, 030109 nutrition & dietetics, Prebiotic, medicine.medical_treatment, Pomace, Catechin, 04 agricultural and veterinary sciences, General Medicine, 040401 food science, Protocatechuic acid, 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, chemistry, Caffeic acid, medicine, Fermentation, Food science, Digestion, Food Science
Abstract

The aim of this study was to evaluate the release of phenolics, biological activity variation and prebiotic potential of whole gold kiwifruit and pomace by in vitro digestion and colonic fermentation. The released phenolics of whole kiwifruit and pomace after digestion were 99.53 and 101.04 mg GAE per 100 g FW, respectively. Six compounds were quantified, and catechin, gallic and caffeic acid were mainly released in the oral phase, protocatechuic acid in the gastric phase, and coumaric and hydroxybenzoic acid during fermentation. The whole kiwifruit possessed higher antioxidant activity than the pomace, while both showed decreases during the whole digestion and fermentation process. After S-intestine digestion, the α-glucosidase inhibitory activities of pomace and whole kiwifruit were 1.33 and 3.11 mg acarbose per g FW, respectively. The fermentation of the whole kiwifruit and pomace caused reduction of the pH and variation of the gut microbiota diversity. Compared with whole kiwifruit, the pomace showed stronger modulative effects on the ratio of Firmicutes/Bacteroidetes. These findings provide scientific evidence for the utilization of pomace and whole gold kiwifruit.

Published
2020
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27. A study on the Fe3O4@Fructus mori L. polysaccharide particles with enhanced antioxidant activity and bioavailability

Author

Rui Hai Liu, Jia-Qi Zhang, Chun Chen, and Xiong Fu

Subjects
0301 basic medicine, chemistry.chemical_classification, 030109 nutrition & dietetics, Antioxidant, medicine.medical_treatment, Nanoparticle, 02 engineering and technology, General Medicine, 021001 nanoscience & nanotechnology, Polysaccharide, Bioavailability, law.invention, 03 medical and health sciences, Adsorption, chemistry, Magazine, law, medicine, Absorption (chemistry), 0210 nano-technology, Food Science, Nuclear chemistry, Macromolecule
Abstract

Molecular conformation is closely related to the functional properties of macromolecules. In order to prove that the bioactivity of mulberry fruit polysaccharides (MFPs) is greatly affected by the conformation, and to improve adsorption properties, we have designed Fe3O4@MFPNPs core-shell nanoparticles. The spherical Fe3O4@MFPNPs have been successfully synthesized with particle size distribution in the ranges of 3-10 nm and 68-164 nm, which are smaller than their previously prepared original polysaccharides and MFP-Fe(iii). The Fe3O4@MFPNPs showed better antioxidant activity in comparison to MFP and MFP-Fe(iii). The difference in the antioxidant activity between Fe3O4@MFPNPs and MFP-Fe(iii), both of which were modified based on elemental iron, may be attributed to their different conformations: MFP-Fe(iii) were rod-shaped, while Fe3O4@MFPNPs were spherical. Furthermore, Fe3O4@MFPNPs also exhibited greater absorption in the small intestine, which can promote its application in human health.

Published
2020
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28. Glycation mechanism of lactoferrin–chitosan oligosaccharide conjugates with improved antioxidant activity revealed by high-resolution mass spectroscopy

Author

Chun Chen, Wen-Duo Wang, and Xiong Fu

Subjects
0301 basic medicine, Conformational change, Glycosylation, Antioxidant, Oxygen radical absorbance capacity, medicine.medical_treatment, Oligosaccharides, Antioxidants, Mass Spectrometry, 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, Glycation, Spectroscopy, Fourier Transform Infrared, medicine, Gel electrophoresis, Chitosan, Oxygen Radical Absorbance Capacity, 030109 nutrition & dietetics, ABTS, biology, Lactoferrin, 04 agricultural and veterinary sciences, General Medicine, 040401 food science, Spectrometry, Fluorescence, Biochemistry, chemistry, biology.protein, Electrophoresis, Polyacrylamide Gel, Peptides, Food Science
Abstract

Glycosylation has a great effect on the antioxidant ability of proteins, which is due to the structural conformational change of peptides in the protein. In this study, a chitosan oligosaccharide (COS) was selected as the saccharide for glycation with lactoferrin (LF) by a wet-heat method, and a new stripe at a higher molecular zone in the gel of sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and a change in the bond revealed by Fourier transform infrared (FT-IR) and fluorescence spectroscopy analyses were used to confirm that the chitosan oligosaccharide was successfully covalently bound to lactoferrin. The ABTS and oxygen radical absorbance capacity (ORAC) assays indicated that lactoferrin exhibited a stronger antioxidant activity after glycation with the chitosan oligosaccharide. High-resolution mass spectroscopy further illuminated the relationship of enhanced antioxidant capacity and structural conformational change of peptides in lactoferrin at a molecular level.

Published
2020
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31. In vitro digestibility and prebiotic activities of a bioactive polysaccharide from Moringa oleifera leaves

Author

Qiang Huang, Shilin Zhou, Xiong Fu, Qing Chen, and Chao Li

Subjects
Pharmacology, chemistry.chemical_classification, Moringa oleifera, biology, Chemistry, Prebiotic, medicine.medical_treatment, Biophysics, Cell Biology, Gut flora, biology.organism_classification, Polysaccharide, Gastrointestinal Microbiome, Moringa, Plant Leaves, Prebiotics, Polysaccharides, medicine, Humans, Fermentation, Food science, Roseburia, Bacteroides, Digestion, Food Science
Abstract

In this study, the digestion and fermentation properties of a bioactive polysaccharide (MOP-2) purified from Moringa oleifera leaves and its impact on the human colonic microbiota were determined using simulated saliva-gastrointestinal digestion and human fecal fermentation models in vitro. The results showed that the simulated saliva and gastric juices had no effect on the average molecular weight (MW) of MOP-2. The MW of MOP-2 slightly decreased from 155.29 to 145.02 kDa during intestinal digestion, and the reducing sugar content increased from 0.159 to 0.234 mg/ml, indicating that MOP-2 was partially degraded during intestinal digestion. During fermentation, MOP-2 was largely used by human fecal inoculums. Notably, MOP-2 could significantly regulate the structure of the microbial community by improving the relative abundances of some beneficial gut microbiota, such as Phascolarctobacterium, Coprococcus, Roseburia, and Bacteroides. Additionally, after fermentation for 48 hr, MOP-2 could significantly improve the production of short-chain fatty acids, especially n-butyric acid, acetic acid, propionic acid, and n-valeric acid. These results suggested that MOP-2 could potentially be a gut microbiota manipulator aimed at promoting gut health. PRACTICAL APPLICATIONS: Gut microbial community is an important part of the human intestinal environment. The health of gut microbiota is closely associated with host heath. This work reported that a polysaccharide (MOP-2) purified from Moringa oleifera leaves could modulate the microbial structure by improving the relative abundances of some beneficial gut microbiota, which provided useful information for the application of MOP-2 as a prebiotic additive in food industry.

Published
2021

32. Identification of polyphenols from Rosa roxburghii Tratt pomace and evaluation of in vitro and in vivo antioxidant activity

Author

Dansi Huang, Chao Li, Qing Chen, Xing Xie, Xiong Fu, Chun Chen, Qiang Huang, Zebo Huang, and Hao Dong

Subjects
Spectrometry, Mass, Electrospray Ionization, Nematoda, Plant Extracts, Tandem Mass Spectrometry, Animals, Polyphenols, General Medicine, Rosa, Antioxidants, Chromatography, High Pressure Liquid, Food Science, Analytical Chemistry
Abstract

Rosa roxburghii Tratt pomace (RRTP) has increasingly attracted attention due to its various nutritional ingredients and health benefits. In this study, the free phenolic fraction (RRTP-FPF) and bound phenolic fraction (RRTP-BPF) were extracted from RRTP by solvent extraction method and alkaline hydrolysis method, respectively. The composition of polyphenols in RRTP-FPF and RRTP-BPF were identified by ultra-high performance liquid chromatography equipped with an electrospray ionization and quadrupole time-of-flight mass spectrometry (UHPLC-ESI-QTOF-MS/MS). In vitro antioxidant assays indicated that RRTP-FPF and RRTP-BPF could scavenge radicals in a dose-dependent manner, and RRTP-BPF exhibited better scavenging activity than RRTP-FPF. In addition, RRTP-FPF and RRTP-BPF (20 ∼ 100 μg/mL) treatment for 24 h could significantly increase the survival rate and decrease reactive oxygen species (ROS) level of paraquat-exposed nematodes through improving the activities of superoxide dismutase (SOD) and catalase (CAT). These results suggest that RRTP could be as a good and cheap source of natural antioxidants.

Published
2021

33. Enhanced stability and controlled release of menthol using a β-cyclodextrin metal-organic framework

Author

Xiong Fu, Bin Zhang, Ziman Hu, Miao Shao, and Qiang Huang

Subjects
chemistry.chemical_classification, Cyclodextrins, biology, Cyclodextrin, beta-Cyclodextrins, General Medicine, Molecular encapsulation, biology.organism_classification, Controlled release, Analytical Chemistry, chemistry.chemical_compound, Menthol, chemistry, Delayed-Action Preparations, Organic chemistry, Metal-organic framework, Delivery system, Aroma, Metal-Organic Frameworks, Food Science
Abstract

Menthol inclusion complexes (ICs) have addressed a range of opportunities in food applications due to their volatile resistance. However, previous protocols used for their synthesis give low yields and high industrial application costs. In the present investigation, metal-organic frameworks based on β-cyclodextrin (β-CD-MOF) have been prepared for the molecular encapsulation of menthol. Menthol/β-CD-MOF-IC was synthesized under the optimized parameters, after which release behavior was studied. In this optimized manner, a higher menthol capacity was obtained in which the menthol content and encapsulation efficiency were 27.1 and 30.6%, respectively. Compared with menthol/β-CD-IC, menthol/β-CD-MOF-IC is resistant to high temperature, but sensitive to moisture. In a simulated oral release experiment, the rate of menthol release from different samples followed the order of: pure menthol > β-CD > β-CD-MOF, which can be attributed to two mechanisms: non-specific binding and site preference. We propose that β-CD-MOF can be used as a promising delivery system for aroma compounds.

Published
2021

34. The effect of ultrasound irradiation on the physicochemical properties and α-glucosidase inhibitory effect of blackberry fruit polysaccharide

Author

Chun Chen, Xiong Fu, and Zuman Dou

Subjects
chemistry.chemical_classification, Circular dichroism, 010304 chemical physics, Chemistry, General Chemical Engineering, Protein primary structure, 04 agricultural and veterinary sciences, General Chemistry, Polysaccharide, 040401 food science, 01 natural sciences, Fluorescence, Protein tertiary structure, Random coil, 0404 agricultural biotechnology, Functional food, 0103 physical sciences, Particle size, Food science, Food Science
Abstract

In this study, the influence of ultrasound irradiation on the characterization and α-glucosidase inhibitory effect of polysaccharide from blackberry fruit (BBP, molecular weight of 591.39 kDa) was investigated. After degraded, BBP-8, BBP-16 and BBP-24 three fractions were obtained with molecular weight of 363.93, 249.51 and 177.42 KDa, respectively. Moreover, compared with the particle size of BBP (1070.5 nm), that of BBP-8, BBP-16 and BBP-24 were decreased to 679.9, 548.8 and 395.4 nm, respectively. However, the monosaccharide composition test, FT-IR, and tertiary structure analysis all indicated that the ultrasound did not destroy the primary structure of the original polysaccharide. In addition, the degraded polysaccharide (BBP-24) exhibited the stronger α-glucosidase inhibitory activity than that of BBP. By fluorescence spectrum and circular dichroism spectrum analysis, we found that the polysaccharide could induce the structure change like rigidity structure (α-helixe) and loop structure (random coil) of α-glucosidase to inhibit its activity by binding to the α-glucosidase. The polysaccharide with different molecular weight showed different binding capacity which was related to its inhibitory effect on the α-glucosidase. In general, the results suggested that appropriate degradation was benefit for the enhancement of the inhibitory effect on α-glucosidase of blackberry polysaccharide, and ultrasound irradiation was a green and efficient method to produce bioactivity-added polysaccharide for use in the functional food.

Published
2019
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35. Digestive Property and Bioactivity of Blackberry Polysaccharides with Different Molecular Weights

Author

Xiong Fu, Zuman Dou, and Chun Chen

Subjects
Adult, Male, 0106 biological sciences, Antioxidant, Firmicutes, medicine.medical_treatment, Gut flora, Polysaccharide, 01 natural sciences, Young Adult, Polysaccharides, medicine, Humans, Food science, chemistry.chemical_classification, Bacteria, biology, Molecular mass, Plant Extracts, Chemistry, Stomach, 010401 analytical chemistry, General Chemistry, Fatty Acids, Volatile, biology.organism_classification, Gastrointestinal Microbiome, 0104 chemical sciences, Molecular Weight, Digestion, Female, Fermentation, Rubus, General Agricultural and Biological Sciences, 010606 plant biology & botany
Abstract

In the present study, the digestion and fermentation of blackberry polysaccharides (BBPs) with different molecular weights (Mw) were investigated. The results showed that the Mw decrease rates of BBP, BBP-8, BBP-16, and BBP-24 were 77.48, 69.61, 56.87, and 52.89%, respectively. The antioxidant and α-glucosidase inhibitory activities of BBPs were decreased under gastrointestinal condition, which might be due to the variation of Mw during digestion. The bile acid-binding ability of BBPs showed an Mw-dependent manner for higher Mw polysaccharides with higher viscosity. Through fermentation, the BBPs affected the ecosystem of the intestinal tract by promoting the production of short-chain fatty acids, lowering the pH of colon, and decreasing the ratio of Firmicutes to Bacteroidetes. All BBPs showed almost a similar modulation effect on the gut bacteria, but the lower Mw polysaccharide was more easily utilized by bacteria.

Published
2019
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36. Preparation and properties of ferulic acid-sugar beet pulp pectin ester and its application as a physical and antioxidative stabilizer in a fish oil-water emulsion

Author

Hui Niu, Wenxue Chen, Weijun Chen, Yong-Huan Yun, Chen Haiming, Xiong Fu, Qiuping Zhong, and Hailing Zhang

Subjects
Magnetic Resonance Spectroscopy, Antioxidant, food.ingredient, Chemical Phenomena, Coumaric Acids, Pectin, DPPH, medicine.medical_treatment, 02 engineering and technology, Biochemistry, Antioxidants, Ferulic acid, 03 medical and health sciences, chemistry.chemical_compound, Fish Oils, food, Structural Biology, Spectroscopy, Fourier Transform Infrared, medicine, TBARS, Peroxide value, Food science, Beet pulp, Molecular Biology, 030304 developmental biology, 0303 health sciences, Water, Esters, General Medicine, 021001 nanoscience & nanotechnology, chemistry, Emulsion, Pectins, Emulsions, Sugars, 0210 nano-technology
Abstract

A ferulic acid-sugar beet pulp pectin complex (FA-SBPP) was prepared using an immobilized enzyme (Novozym 435®) as the catalyst at 60 °C in a vacuum-controlled system. The structure of FA-SBPP was characterized by FT-IR and NMR (1H and 13C). In addition, the antioxidant activity of FA-SBPP was evaluated according to the DPPH free radical scavenging ability and ORAC values. Moreover, the physical and oxidation stability of the emulsion was evaluated by particle size distribution, cream index (CI), peroxide value (POV), and 2-thiobarbituric acid reactive substance (TBARS) formation. The results showed that esterification between FA and SBPP was confirmed, and the reaction mainly occurred at the C-2, C-3, and C-6 positions. When the concentration was 1.0 mg/mL, the DPPH scavenging activity and total antioxidant activity of FA-SBPP-3 were 80.03% and 355.72 μmol TE/g, respectively. Compared with SBPP, FA-SBPP-stabilized emulsions exhibited significant smaller droplet sizes and lower CIs, POVs and TBARS amounts. Thus, the introduction of FA changed not only the chemical reactivity but also the polarity of SBPP, thereby improving its antioxidant ability and affinity for the oil-water interface. Thus, we provide a multifunctional stabilizer that can reduce the dose of antioxidants or even replace them in oil-in-water emulsions.

Published
2019
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37. Effects of limited moisture content and storing temperature on retrogradation of rice starch

Author

Qiang Huang, Li Ding, Chin Ping Tan, Xiong Fu, and Bin Zhang

Subjects
Retrogradation (starch), Food Handling, Starch, 02 engineering and technology, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, Crystallinity, Differential scanning calorimetry, Structural Biology, Amylose, Transition Temperature, Food science, Molecular Biology, 030304 developmental biology, 0303 health sciences, Moisture, Temperature, Recrystallization (metallurgy), Oryza, General Medicine, 021001 nanoscience & nanotechnology, Food Storage, chemistry, Amylopectin, 0210 nano-technology
Abstract

The objective of this study is to investigate the effects of limited moisture content and storing temperature on the retrogradation of rice starch. Starch was gelatinized in various moisture contents (30–42%) and rice paste was stored at different temperatures (4 °C, 15 °C, 30 °C, −18/30 °C and 4/30 °C). X-ray diffraction (XRD) analysis revealed that after retrogradation, the crystalline type of rice starch changed from A-type to B + V type. The B-type crystallinity of retrograded rice starch under 30 °C was the highest among the five temperature conditions, and an increase in B-type crystallinity with increasing moisture content was observed. Differential scanning calorimetry (DSC) results revealed that rice starch retrogradation consists of recrystallization of amylopectin and amylose, and is mainly attributed to amylopectin. The higher moisture content was favorable for amylopectin recrystallization, whereas the moisture content had little effect on the amylose recrystallization. The optimal temperature for amylopectin and amylose recrystallization was 4 °C and 15 °C, respectively. The amylopectin recrystallization enthalpy of rice starch stored at 4/30 °C was mediated between 4 °C and 30 °C but always higher than that at −18/30 °C. On the whole, after being heated at 42% moisture content and stored at 4 °C, rice starch showed the maximum total retrogradation enthalpy (8.44 J/g).

Published
2019
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38. CO2 inclusion complexes of Granular V-type crystalline starch: Structure and release kinetics

Author

Han Li, Zhigang Wang, Chao Li, Qiang Huang, Xiong Fu, and Bin Zhang

Subjects
Materials science, Starch, Scanning electron microscope, 010401 analytical chemistry, Kinetics, food and beverages, Infrared spectroscopy, 04 agricultural and veterinary sciences, General Medicine, 040401 food science, 01 natural sciences, Controlled release, Maize starch, 0104 chemical sciences, Analytical Chemistry, chemistry.chemical_compound, 0404 agricultural biotechnology, chemistry, Chemical engineering, Relative humidity, Potato starch, Food Science
Abstract

Granular V-type crystalline starch (V-type starch) was prepared using different starch varieties by alcoholic-alkaline treatment. Carbon dioxide was encapsulated into V-type starch using a solid encapsulation method. The morphological and structural properties of the inclusion complexes (ICs) were characterised using scanning electron microscopy and X-ray diffraction. Fourier-transform infrared spectroscopy and 13C Nuclear Magnetic Resonance proved that CO2 was successfully encapsulated. The encapsulation capacity of V-type starches was determined by head space gas chromatography, and ICs made from normal maize starch achieved the highest CO2 concentration (2.55%, w/w). The controlled release characteristics of ICs were also determined at various temperatures and relative humidity, and ICs made from normal potato starch exhibited slower release characteristics. The release kinetics showed that the release of CO2 from ICs was accelerated by increasing temperature or RH. V-type starch is a renewable, inexpensive material for encapsulation of gasses such as CO2.

Published
2019
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39. Physicochemical characterization, antioxidant and hypoglycemic activities of selenized polysaccharides from Sargassum pallidum

Author

Xiong Fu, Chao Li, Chun Chen, Heng Xiao, and Qiang Huang

Subjects
Antioxidant, Chemical Phenomena, Iron, medicine.medical_treatment, chemistry.chemical_element, 02 engineering and technology, Polysaccharide, Biochemistry, Antioxidants, Selenium, 03 medical and health sciences, Ingredient, Non-competitive inhibition, Picrates, Polysaccharides, Structural Biology, medicine, Hypoglycemic Agents, Glycoside Hydrolase Inhibitors, Chelation, Benzothiazoles, Food science, Sargassum pallidum, Molecular Biology, Chelating Agents, 030304 developmental biology, Acarbose, chemistry.chemical_classification, 0303 health sciences, biology, Biphenyl Compounds, Sargassum, General Medicine, 021001 nanoscience & nanotechnology, biology.organism_classification, Molecular Weight, Kinetics, chemistry, Sulfonic Acids, 0210 nano-technology, medicine.drug
Abstract

This study was carried out to study the effects of selenylation on physicochemical and biological properties of polysaccharide (SPP) extracted from Sargassum pallidum. The selenized derivative of SPP (Se-SPP) with the selenium content of 2419 μg/g was synthesized by sodium selenite/dilute nitric acid method. Physicochemical characterization indicated that selenylation modification resulted in some changes in chemical composition, monosaccharide composition, molecular weight and surface morphology of polysaccharides. FT-IR spectroscopy showed that a new absorption peak appeared at 675 cm−1 in Se-SPP probably due to the substitution of selenyl groups. Bioactivity assay showed that Se-SPP exhibited higher scavenging radical activities and ferrous ion chelating activities than native SPP. Compared with SPP and acarbose, Se-SPP showed more significantly inhibitory effect on α-glucosidase activity in a noncompetitive inhibition type. The IC50 values of SPP, Se-SPP and acarbose were determined as 1.579, 0.896 and 2.742 mg/mL, respectively. These results suggest that Se-SPP can be used to develop a new selenium-complementary ingredient in functional foods.

Published
2019
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40. Octenylsuccinate quinoa starch granule-stabilized Pickering emulsion gels: Preparation, microstructure and gelling mechanism

Author

Chin Ping Tan, Xiong Fu, Chao Li, Songnan Li, Qiang Huang, and Bin Zhang

Subjects
010304 chemical physics, Chemistry, Starch, General Chemical Engineering, Granule (cell biology), 04 agricultural and veterinary sciences, General Chemistry, Dynamic mechanical analysis, Apparent viscosity, 040401 food science, 01 natural sciences, Pickering emulsion, Contact angle, chemistry.chemical_compound, 0404 agricultural biotechnology, Chemical engineering, Rheology, 0103 physical sciences, Emulsion, Food Science
Abstract

The development of emulsion gels has attracted increasing interests due to their potential applications as oil structuring templates and release-controlled carriers for sensitive lipid-soluble bioactive compounds. This work aimed to elucidate the importance of changing the degree of substitution (DS, 0.0072–0.0286) and oil volume fraction (Φ, 10–90%) to achieve octenylsuccinate (OS) quinoa starch granule-based Pickering emulsion gels. The gelation process, droplet size distribution, rheological properties and microstructure of Pickering emulsion gels formed at various DS and Φ values were evaluated. Octenylsuccinylation did not change the morphology or the granule size of quinoa starch but significantly increased the contact angle from 36.2° to 68.7°. OS quinoa starch granule-stabilized Pickering emulsion gels were formed at a DS of 0.0286 with Φ values ranging from 50 to 70%. At the Φ value of 70%, increasing DS progressively increased the apparent viscosity (η) and storage modulus (G′) of the emulsions as a result of the adsorption of more OS quinoa starch granules at the oil/water interface. Both η and G′ showed an increasing trend as a function of Φ (50–70%) at a DS value of 0.0286, and this was closely related to the microstructure of the formed emulsion gels. The network of OS quinoa starch-based Pickering emulsion gels at high Φ values (e.g., 60% and 70%) was mainly composed of compact “aggregated” oil droplets, which was largely attributed to the inter-droplet interactions. These results are of great help in understanding the gelling mechanism and the development of starch granule-based Pickering emulsion gels.

Published
2019
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41. In vitro colonic fermentation of dietary fibers: Fermentation rate, short-chain fatty acid production and changes in microbiota

Author

Xiong Fu, Miaomiao Wang, Xiaowei He, Qiang Huang, Santad Wichienchot, and Bin Zhang

Subjects
chemistry.chemical_classification, 0303 health sciences, 030309 nutrition & dietetics, Short-chain fatty acid, Fatty acid, Butyrate, Bacterial growth, Carbohydrate, 03 medical and health sciences, medicine.anatomical_structure, chemistry, medicine, Propionate, Large intestine, Fermentation, Food science, 030304 developmental biology, Food Science, Biotechnology
Abstract

Background Dietary fiber is the undigested carbohydrate that escapes small intestinal digestion and absorption, and then reaches the large intestine for partial or complete fermentation by the colonic microbiota. Fermentation of dietary fiber into short-chain fatty acids (i.e., acetic, propionic, and butyric particularly) in the colon has been reported to bring about positive changes in microbiota composition and reduce the risk of colon-related diseases as well as some metabolic syndromes, such as obesity, diabetes, chronic kidney disease, and systemic inflammation. Scope and approach There is a growing interest in the fate of different dietary fibers in the gastrointestinal tract regarding their rate and extent (location) of fermentation and microbiota changes, particularly from data obtained with static and dynamic in vitro models. These models provide information on the fermentation performance and microbiota modulation by dietary fibers with diverse structures and enable the formulation of functional foods with health benefits. Key findings and conclusions This review summarizes the fermentation performance of various dietary fibers using in vitro models. Both the physical and chemical structures of dietary fibers are critical factors that determine fermentation rate, short-chain fatty acid profiles and growth of different bacterial groups. Considering the potential relationship between fermentation performance and health, three principles for designing fermentable dietary fiber are proposed: slow fermentation in the colon; high butyrate and/or propionate production; and selective bacterial growth, promoting the beneficial bacteria that improve the intestinal barrier function.

Published
2019
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42. The chemical structure and biological activities of a novel polysaccharide obtained from Fructus Mori and its zinc derivative

Author

Chun Chen, Xiong Fu, Lijun You, Mouming Zhao, Zhigang Luo, Rui Hai Liu, Ping-ping Wang, and Qiang Huang

Subjects
0301 basic medicine, Arabinose, Antioxidant, Oxygen radical absorbance capacity, Rhamnose, Chemical structure, medicine.medical_treatment, Medicine (miscellaneous), Polysaccharide, 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, Structural, medicine, TX341-641, chemistry.chemical_classification, 030109 nutrition & dietetics, Nutrition and Dietetics, Chromatography, Nutrition. Foods and food supply, Murus alba L, 04 agricultural and veterinary sciences, Hypoglycemic, 040401 food science, Zinc, chemistry, Galactose, Trolox, Food Science
Abstract

A novel polysaccharide (MFP4P) was isolated from mulberry fruits (Morus alba L.) pulp using a combination of DEAE-Sepharose fast-flow and Sephadex G-100 chromatographic columns. Structural characterization revealed that MFP4P was composed of arabinose, rhamnose, galactose, glucose and galacturonic acid with a molecular weight of 198.2 kDa. The linkage types of MFP4P were proved to be (1 → 6)-linked α-D-Glc, (1 → 2)-linked α-L-Rha, (1 → 3)-linked α-D-Gal, (1 → 3)-linked β-L-Rha and (1 → )-linked α-L-Ara. The MFP4P showed good antioxidant activity with an oxygen radical absorbance capacity value of 121.8 ± 16.5 μM trolox equivalent/g. In addition, the MFP4P promoted pancreatic cell proliferation, increased insulin secretion, and enhanced glucose consumption. In the non-toxic range, the polysaccharide and zinc complexes (MFP4P-Zn) exhibited higher antioxidant and hypoglycemic activities than MFP4P at the same concentration. In vivo hypoglycemic study, MFP4P and MFP4P-Zn both showed decreased blood glucose level and glucose tolerance compared with the model control group.

Published
2019
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43. Structure andin vitrohypoglycemic activity of a homogenous polysaccharide purified fromSargassum pallidum

Author

Xiong Fu, Bin Zhang, Rui Hai Liu, Chao Li, Changliang Cao, and Qiang Huang

Subjects
0301 basic medicine, Gene Expression, Polysaccharide, Fucose, 03 medical and health sciences, chemistry.chemical_compound, Insulin resistance, Polysaccharides, medicine, Humans, Hypoglycemic Agents, Sargassum pallidum, Glycogen synthase, chemistry.chemical_classification, Glucose Transporter Type 4, 030109 nutrition & dietetics, biology, Plant Extracts, Sargassum, Hep G2 Cells, General Medicine, biology.organism_classification, medicine.disease, Molecular Weight, Insulin receptor, Glucose, Glycogen Synthase, 030104 developmental biology, chemistry, Biochemistry, Galactose, Insulin Receptor Substrate Proteins, biology.protein, GLUT4, Food Science
Abstract

This study aimed at investigating the structure, hypoglycemic activity and the underlying mechanism of a homogeneous polysaccharide (PSP-2) purified from Sargassum pallidum. Structural characterization revealed that PSP-2 with a molecular weight of 144.8 kDa was composed of fucose (21.6%), arabinose (2.5%), galactose (22.4%), glucose (2.2%), xylose (18.8%), mannose (1.2%), glucuronic acid (7.7%) and galacturonic acid (23.6%). The backbone chain of PSP-2 was composed of →1)-β-d-Xylp-(3→, →1,3)-β-l-Fucp-(4→, →1)-α-d-Galp-(6→, and →1)-α-d-GlcpNAc-(2→, and the side chains were composed of →1,3,6)-α-d-Galp-(2→, →3)-β-l-Fucp-(1,4→, β-d-GalpNAc-(1→, and α-d-Manp-(1→. In vitro hypoglycemic assays indicated that PSP-2 could significantly enhance glucose consumption, glycogen synthesis, and pyruvate kinase (PK) and hexokinase (HK) activities of insulin-resistant HepG2 cells. Furthermore, the underlying mechanistic studies revealed that PSP-2 could ameliorate insulin resistance by up-regulating the expression levels of insulin receptor substrate-1 (IRS-1), glycogen synthase (GS), phosphoinositide-3-kinase (PI3K) and glucose transporter-4 (GLUT4). These results suggested that PSP-2 may be a potential candidate for the prevention and treatment of Type 2 diabetes mellitus.

Published
2019
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44. Biofunctionalization of selenium nanoparticles with a polysaccharide from Rosa roxburghii fruit and their protective effect against H2O2-induced apoptosis in INS-1 cells

Author

Chao Li, Xiong Fu, Qiang Huang, and Lei Wang

Subjects
0301 basic medicine, chemistry.chemical_classification, Reactive oxygen species, 030109 nutrition & dietetics, Antioxidant, medicine.medical_treatment, General Medicine, medicine.disease_cause, In vitro, Cell biology, 03 medical and health sciences, 030104 developmental biology, chemistry, Apoptosis, Cell culture, medicine, Viability assay, Intracellular, Oxidative stress, Food Science
Abstract

Defective glucose-stimulated insulin secretion (GSIS) induced by chronic exposure to reactive oxygen species (ROS) is a hallmark of type 2 diabetes mellitus (T2DM). Therefore, it is of great interest to search for biofunctional agents with antioxidant activity to protect pancreatic islet cells from oxidative damage. In the present study, selenium nanoparticles (SeNPs) functionalized with a novel polysaccharide (RTFP-3) extracted from Rosa roxburghii fruit were first prepared via a facile, single-step and green in situ synthesis method. The in vitro protective effects of RP3-SeNPs on INS-1 cells against H2O2-induced cell apoptosis were investigated. Structural characterization indicated that RTFP-3-functionalized SeNPs (RP3-SeNPs) with an average diameter of 104.5 nm were highly uniform and extremely stable in comparison with bare SeNPs. The results of bioassays revealed that RP3-SeNPs possessed much higher protective and suppressive activities against H2O2-induced apoptosis of INS-1 cells in comparison with their individual components. After treatment with an RP3-SeNPs solution (2 μg mL-1), the cell viability of INS-1 cells reached about 89.34%. Mechanistic studies demonstrated that RP3-SeNPs effectively blocked the overproduction of intracellular ROS, mitochondrial damage, and the activation of caspase-3, caspase-8, and caspase-9 in INS-1 cells, which indicated that RP3-SeNPs functioned via attenuating oxidative stress and downregulating the expression of uncoupling protein-2 (UCP-2). Our findings suggest that RP3-SeNPs can function as a promising candidate to prevent or limit the dysfunction of β-cells.

Published
2019
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45. In vitro digestibility and prebiotic potential of a novel polysaccharide from Rosa roxburghii Tratt fruit

Author

Xiong Fu, Chao Li, Lei Wang, Qiang Huang, and Rui Hai Liu

Subjects
0301 basic medicine, Saliva, In vitro fermentation, Firmicutes, medicine.medical_treatment, Medicine (miscellaneous), Gut microbiota, Gut flora, Polysaccharide, Short-chain fatty acids, 03 medical and health sciences, 0404 agricultural biotechnology, Intestinal health, medicine, TX341-641, Food science, chemistry.chemical_classification, 030109 nutrition & dietetics, Nutrition and Dietetics, Soluble dietary fiber, biology, Nutrition. Foods and food supply, Prebiotic, 04 agricultural and veterinary sciences, Carbohydrate, biology.organism_classification, 040401 food science, chemistry, Fermentation, Digestion, Food Science
Abstract

In the present study, the digestion properties of a polysaccharide from Rosa roxburghii fruit (RTFP-3) under saliva, simulated gastric and small intestinal conditions were studied for the first time. The results indicated that human saliva had no effect on RTFP-3. RTFP-3 was slightly degraded in simulated gastric and small intestinal juices. The molecular weight (Mw) of RTFP-3 was decreased from 67.59 to 44.22 kDa. Meanwhile, the reducing sugars were increased from 0.503 to 1.744 mM. Then, the prebiotic effects of RTFP-3 were examined by in vitro fermentation model. RTFP-3 could significantly increase the production of total short-chain fatty acids from 23.49 to 44.29 mM, and 60.28% of total carbohydrate was consumed after 48 h fermentation. Furthermore, RTFP-3 could significantly modulate the microbial structure by lowering the ratio of Firmicutes to Bacteroidetes from 14.89 to 4.68 after 48 h fermentation, and improving the relative abundances of some beneficial gut microbiota.

Published
2019
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46. Bioaccessibility, antioxidant activity and modulation effect on gut microbiota of bioactive compounds from Moringa oleifera Lam. leaves during digestion and fermentation in vitro

Author

Xiong Fu, Chun Chen, and Zuman Dou

Subjects
0301 basic medicine, Antioxidant, Colon, medicine.medical_treatment, Gut flora, Antioxidants, Moringa, Ferulic acid, 03 medical and health sciences, chemistry.chemical_compound, medicine, Humans, Food science, Moringa oleifera, 030109 nutrition & dietetics, Bacteria, biology, Plant Extracts, Catechin, General Medicine, biology.organism_classification, Small intestine, Gastrointestinal Microbiome, Gastrointestinal Tract, Plant Leaves, 030104 developmental biology, medicine.anatomical_structure, chemistry, Digestion, Fermentation, Food Science
Abstract

This study aims to investigate the bioaccessibility, bioactivity and gut microbiota modulation effect of Moringa oleifera Lam. leaves after in vitro gastrointestinal digestion and colonic fermentation. A total of 24.95 ± 0.91 mg GAE per g DM and 21.66 ± 1.41 mg RE per g DM of phenolics and flavonoids were released during digestion. The HPLC-ESI-TOF/MS analysis showed that the major phenolic compound 6,8-di-C-glucosylapigenin was released during oral digestion, catechin during gastric digestion, and quercetin-3-O-β-d-glucoside and ferulic acid during small intestine digestion. The antioxidant activity of Moringa oleifera Lam. leaves during the whole digestion process was in line with the release of phenolics and flavonoids. In addition, the fermentation of Moringa oleifera Lam. leaves induced the production of acetic, propionic, and n-butyric acids leading to a decrease in pH, as well as the growth of beneficial colonic bacteria. The results suggested that Moringa oleifera Lam. leaves are a promising candidate for healthy food.

Published
2019
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47. Controlled gelatinization of potato parenchyma cells under excess water condition: structural and in vitro digestion properties of starch

Author

Haiteng Li, Bin Zhang, Li Ding, Xiong Fu, Zhigang Wang, and Qiang Huang

Subjects
0301 basic medicine, Hot Temperature, Starch, Models, Biological, Hydrothermal circulation, Cell wall, 03 medical and health sciences, chemistry.chemical_compound, Parenchyma, medicine, Humans, Cooking, Food science, Incubation, Solanum tuberosum, 030109 nutrition & dietetics, Chemistry, Temperature, Water, food and beverages, General Medicine, Plant Tubers, 030104 developmental biology, Excess water, Digestion, Swelling, medicine.symptom, Food Science
Abstract

Modulation of the starch digestion rate and extent is a major target for increasing nutritional value of potato-based food. In order to understand the effect of controlled gelatinization on the structure and in vitro digestion properties of whole potato food, intact parenchyma cells were isolated as a model through soaking in mild acid and alkali solutions, and then hydrothermally treated at different incubation temperatures in excess water. The morphological and structural changes of entrapped starch granules as well as in vitro starch digestion properties were investigated. Three classes of starch digestion of potato cells are identified: (1) when the temperature of hydrothermal treatment was set at 55 °C or 60 °C, the efficient physical barrier of intact cell walls resulted in a limited starch digestion extent; (2) when the temperature is set at 65 °C, the cell wall structures apparently reduced the digestion rate but only slightly reduced the final extent compared to the starch counterpart, probably because starch swelling weakens the physical barrier; (3) at 70-95 °C, the damaged cell wall still reduced the digestion rate but did not reduce the digestion extent compared to the starch counterpart. The results suggest that controlling hydrothermal processing temperature is a viable approach to develop potato ingredients with enhanced nutritional functionality.

Published
2019
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48. A comparison study on polysaccharides extracted from Fructus Mori using different methods: structural characterization and glucose entrapment

Author

Chun Chen, Qiang Huang, Ping-ping Wang, Zhigang Luo, Rui Hai Liu, Lijun You, Mouming Zhao, and Xiong Fu

Subjects
0301 basic medicine, Antioxidant, medicine.medical_treatment, Chemical Fractionation, Polysaccharide, Antioxidants, 03 medical and health sciences, Polysaccharides, medicine, Glycoside Hydrolase Inhibitors, Enzyme Inhibitors, chemistry.chemical_classification, 030109 nutrition & dietetics, Chromatography, Plant Extracts, alpha-Glucosidases, Glycosidic bond, General Medicine, Molecular Weight, Hot water extraction, Glucose, 030104 developmental biology, chemistry, Fruit, Comparison study, Extraction methods, Morus, alpha-Amylases, Food Science
Abstract

In this study, the structure characteristics and the hypoglycemic and antioxidant activities of mulberry fruit polysaccharides obtained by the commonly used hot water (MFPh)-, ultrasonic (MFPu)-, acid (MFPc)- and alkali (MFPa)-assisted extraction methods were investigated. NMR analysis indicated that the four polysaccharides had similar glycosidic linkage patterns. Scanning electron microscopy analyses showed that the surface morphology of the polysaccharides was greatly affected by the extraction methods. The results of the bioactivity assays indicated that MFPh exhibited stronger antioxidant and α-amylase inhibitory activities than the other polysaccharides. Moreover, all the polysaccharides showed good α-glucosidase inhibitory activities except for MFPu with the lowest molecular weight. These results suggested that acid, alkali, and ultrasonic-assisted extractions have different effects on the degradation of polysaccharides without changing the main structure compared with hot water extraction. In addition, the molecular weight of polysaccharides plays a key role in the bioactivity of the mulberry fruit polysaccharides.

Published
2019
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49. Comparative study on the physicochemical properties and bioactivities of polysaccharide fractions extracted from Fructus Mori at different temperatures

Author

Chun Chen, Qiang Huang, Lijun You, Rui Hai Liu, Jia-Qi Zhang, Xiong Fu, and Chao Li

Subjects
0301 basic medicine, Antioxidant, medicine.medical_treatment, Uronic acid, Chemical Fractionation, Polysaccharide, Antioxidants, 03 medical and health sciences, chemistry.chemical_compound, Polysaccharides, medicine, Hypoglycemic Agents, Monosaccharide, Food science, Enzyme Inhibitors, chemistry.chemical_classification, 030109 nutrition & dietetics, Ethanol, Plant Extracts, Extraction (chemistry), Chemical fractionation, Temperature, General Medicine, Molecular Weight, 030104 developmental biology, chemistry, Morus, alpha-Amylases, Food Science
Abstract

This study examined the effects of different extraction temperatures (30 °C and 90 °C) on the physicochemical properties and bioactivities of polysaccharides (MFPs-30-60, MFPs-30-80, MFPs-90-40, MFPs-90-60 and MFPs-90-80) extracted at same ethanol gradation (40, 60 and 80%). The polysaccharides were extracted from Fructus Mori, and their antioxidant, hypoglycemic and hypolipidemic activities were evaluated. The results showed that all the polysaccharide fractions contained the same monosaccharides but at different molar ratios. MFPs-30-80 had the highest content of glucose (30.33%), and MFPs-90-40 had the highest content of uronic acid (43.46%). In addition, compared to the extraction temperature of 30 °C, the higher temperature (90 °C) caused the degradation of the extracted polysaccharides. Generally, MFPs-30-80 showed superior antioxidant activity, MFPs-90-40 displayed good bile acid-binding ability, and both MFPs-30-80 and MFPs-90-40 exhibited the strongest inhibitory effects on α-amylase and α-glucosidase activity. This study concludes that the bioactivities of mulberry fruit polysaccharides depend on a combination of structural factors that are greatly affected by the extraction temperature.

Published
2019
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50. Characterization of a novel starch-based foam with a tunable release of oxygen

Author

Yue, Zhang, Chao, Li, Xiong, Fu, Nan, Ma, Xianyang, Bao, and Hongsheng, Liu

Subjects
Oxygen, Physical Phenomena, Compressive Strength, Polyvinyl Alcohol, Starch, General Medicine, Food Science, Analytical Chemistry
Abstract

Here, we used techniques of extrusion and coating to produce starch-based foams with a combined function of buffering and controlled release of oxygen. The foams presented open-cell structures and showed a compression recovery ratio of 94%. After coating with poly(vinyl alcohol) solution, in which calcium peroxides were loaded, the developed functional foams showed a behavior of controllable oxygen release under a wet condition, as well as a high compression strength (≥2.2 MPa). Also, these foams showed an improved moisture resistance with a reduction in maximum moisture absorption from 25 to 14%. Under a vibrated storage condition to simulate food transportation, guavas packaged with functional foams showed a reduced physical damage, and browning index from 5.00 to 2.97, owing to the foams' superior buffering ability and self-regulation of storage atmosphere. The functional packaging system of the starch-based foams developed in our work is promising for fruit and vegetable preservations.

Published
2022
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