Your search keyword '"Jinjing Gao"' showing total 4 results

1. Immunomodulatory Mechanisms of Tea Leaf Polysaccharide in Mice with Cyclophosphamide-Induced Immunosuppression Based on Gut Flora and Metabolomics

Author

Qiaoyi Zhou, Jinjing Gao, Xueyan Sun, Junyuan Du, Zhiyi Wu, Dongxia Liang, Caijin Ling, and Binghu Fang

Subjects

tea polysaccharide, immune regulation, gut microbiota flora, metabolomic, Chemical technology, TP1-1185

Abstract

Tea polysaccharides (TPSs) are receiving increasing attention because of their diverse pharmacological and biological activities. Here, we explored the immunoregulatory mechanisms of TPSs from fresh tea leaves in a mouse model of cyclophosphamide (CTX)-induced immunosuppression in terms of gut microbiota and metabolites. We observed that TPSs significantly increased the body weight and alleviated CTX-induced thymus atrophy in the immunosuppressed mice; they also increased the plasma levels of immunoglobulins A and M, interleukin (IL) 1β, IL-6, inducible nitric oxide synthase, and tumor necrosis factor α. Furthermore, we conducted 16S rDNA sequencing of cecal contents, resulting in the acquisition of 5008 high-quality bacterial 16S rDNA gene reads from the sequencing of mouse fecal samples. By analyzing the data, we found that TPSs regulated the gut microbiota structure and diversity and alleviated the CTX-induced dysregulation of gut microbiota. The colonic contents of mice were subjected to analysis using the UPLC-Q-TOF/MS/MS technique for the purpose of untargeted metabolomics. In the course of our metabolite identification analysis, we identified a total of 2685 metabolites in positive ion mode and 1655 metabolites in negative ion mode. The analysis of these metabolites indicated that TPSs improved CTX-induced metabolic disorders by regulating the levels of metabolites related to tryptophan, arginine, and proline metabolism. In conclusion, TPSs can alleviate CTX-induced immunosuppression by regulating the structural composition of gut microbiota, indicating the applicability of TPSs as novel innate immune modulators in health foods or medicines.

Published

2024

2. In Vitro Characterization of Polysaccharides from Fresh Tea Leaves in Simulated Gastrointestinal Digestion and Gut Microbiome Fermentation

Author

Qiaoyi Zhou, Jinjing Gao, Xueyan Sun, Yicheng Liang, Minqi Ye, Dongxia Liang, Caijin Ling, and Binghu Fang

Subjects

tea polysaccharide, simulated gastrointestinal digestion, fecal fermentation, gut microbiota, Chemical technology, TP1-1185

Abstract

Tea plants have a long cultivation history in the world, but there are few studies on polysaccharides from fresh tea leaves. In this study, tea polysaccharides (TPSs) were isolated from fresh tea leaves. Then, we investigated the characteristics of TPSs during in vitro simulated digestion and fermentation; moreover, the effects of TPSs on gut microbiota were explored. The results revealed that saliva did not significantly affect TPSs’ molecular weight, monosaccharide composition, and reducing sugar content, indicating that TPSs cannot be digested in the oral cavity. However, TPSs were partially decomposed in the gastrointestinal tract after gastric and intestinal digestion, resulting in the release of a small amount of free glucose monosaccharides. Our in vitro fermentation experiments demonstrated that TPSs are degraded by gut microbiota, leading to short-chain fatty acid (SCFA) production and pH reduction. Moreover, TPSs increased the abundance of Bacteroides, Lactobacillus, and Bifidobacterium but reduced that of Escherichia, Shigella, and Enterococcus, demonstrating that TPSs can regulate the gut microbiome. In conclusion, TPSs are partially decomposed by gut microbiota, resulting in the production of SCFAs and the regulation of gut microbiota composition and function. Therefore, TPSs may be used to develop a prebiotic supplement to regulate the gut microbiome and improve host health.

Published

2024

3. Insights into water-energy cobenefits and trade-offs in water resource management

Author

Guozhu Mao, Jinjing Gao, Hongwei Zhang, Yuan Wang, Peng Zhao, and Chenlong Li

Subjects

Resource (biology), Renewable Energy, Sustainability and the Environment, 020209 energy, Strategy and Management, 05 social sciences, 02 engineering and technology, Energy consumption, Environmental economics, Industrial and Manufacturing Engineering, Reclaimed water, Water resources, Energy conservation, 050501 criminology, 0202 electrical engineering, electronic engineering, information engineering, Resource allocation, Environmental science, Energy supply, Surface water, 0505 law, General Environmental Science

Abstract

Cobenefits between water and energy are always pursued for urban planning since their consumption has a significant influence on each resource. To achieve the optimal conservation of both resources, i.e., reducing energy consumption while resolving water resource problems, this study established a new water resource allocation optimization tool with traditional water resources (such as surface water and ground water) and untraditional water resources (such as reclaimed water and desalinated water) using a multiobjective model with an evolutionary algorithm, which minimized the water consumption of freshwater and lowered the energy consumption of the system. To validate the model, the water resource system in Tianjin, one of the metropolitans in China, was simulated to provide the optimal water and energy conservation plan on a Pareto frontier. Our results suggest that at least 17% of current freshwater consumption could be decreased with less energy contribution by using imported water and a centralized supply in Tianjin. Furthermore, a minimum of 3.15 kWh of energy input would be required to save 1 m3 of fresh water with the assumption of linear regression fitting of the Pareto frontier in the water allocation plan. In addition, a sensitivity analysis was performed to determine the effects of variations in the demand/supply volumes as well as the energy supply involved in untraditional water resources. Thus, our optimization model can help policy makers identify water and energy cobenefits under different water allocation plans and provide valuable references for the optimization of the water and energy nexus.

Published

2019

4. Operational Water Withdrawal and Consumption Factors for Electricity Generation Technology in China—A Literature Review

Author

Guozhu Mao, Peng Zhao, Jinjing Gao, Yuan Wang, and Hongwei Zhang

Subjects

China, freshwater demands, Natural resource economics, 020209 energy, lcsh:TJ807-830, Geography, Planning and Development, lcsh:Renewable energy sources, 02 engineering and technology, Management, Monitoring, Policy and Law, Water conservation, electricity generation, 0202 electrical engineering, electronic engineering, information engineering, Coal, lcsh:Environmental sciences, Hydropower, lcsh:GE1-350, Water-energy nexus, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:Environmental effects of industries and plants, meta-analysis, Water resources, lcsh:TD194-195, Electricity generation, Environmental science, Electricity, Electric power, water–energy nexus, business

Abstract

As two indispensable resources for human development, energy and water are closely related. China, as the world’s largest consumer of electricity, is also experiencing very serious water shortages. Understanding the water consumption intensity in various types of electric power production technologies according to China’s national conditions is a prerequisite for understanding the potential impact of electrical power production on water resources. Therefore, following the steps of a meta-analysis, this paper provides a literature review on operational water withdrawal and consumption factors for electricity generation technology in China. We observed that 50% of water consumption for electricity generation was for coal power, whereas there was no research on the water consumption intensity of natural gas power generation, and a shortage of studies on water intake during electrical power production. The average water consumption intensity of hydropower is the largest. The results indicate that compared with other fuel types, hydropower is not a sustainable energy with respect to water conservation, and the study of hydropower applications should be improved in China.

Published

2018