Your search keyword '"Zhao, Yuquan"' showing total 20 results

1. Genome-wide identification and evolutionary analysis of the NRAMP gene family in the AC genomes of Brassica species

Author

Zhao, Yuquan, Xie, Qijun, Yang, Qian, Cui, Jiamin, Tan, Wenqing, Zhang, Dawei, Xiang, Jianhua, Deng, Lichao, Guo, Yiming, Li, Mei, Liu, Lili, and Yan, Mingli

Published

2024

2. Evaluation indexes of the frost resistance of recycled aggregate concrete and improvement mechanisms: A review

Author

Zhao, Yuxin, Xi, Xinyue, Zheng, Yuanxun, Du, Chaowei, Zhao, Yuquan, and Li, Yate

Published

2024

3. First single-frequency Pr:LiYF4 ring laser at green

Author

Zhao, Yuquan, Xiong, Mengyuan, Wang, Dong, Xu, Bin, and Baesso, Mauro Luciano

Published

2024

4. Compact diode-pumped tunable single- and dual-wavelength single-frequency semiconductor disk lasers

Author

Xiong, Mengyuan, Zhao, Yuquan, Wang, Dong, Chen, Zhong, Xu, Bin, Yu, Shengjie, and Tong, Cunzhu

Published

2023

5. Cow Placenta Extract Ameliorates Cyclophosphamide-Induced Intestinal Damage by Enhancing the Intestinal Barrier, Improving Immune Function, and Restoring Intestinal Microbiota.

Author

Zhao, Yuquan, Zhang, Zeru, Tang, Anguo, Zeng, Zhi, Zheng, Weijian, Luo, Yuxin, Huang, Yixin, Dai, Xinyi, Lu, Wei, Fan, Lei, and Shen, Liuhong

Subjects

INTESTINAL barrier function, GUT microbiome, OCCLUDINS, INTRAPERITONEAL injections, SUPEROXIDE dismutase, INTERLEUKIN-1

Abstract

Simple Summary: The intestinal tract is one of the most important barriers in an organism. Cyclophosphamide can lead to the destruction of the structural integrity of the intestinal barrier, causing immunosuppression, oxidative stress, and microbiota disorders. Conversely, cow placenta extract can improve the immunity and antioxidant power of the organism, etc. Therefore, it is important to investigate the protective effects of cow placenta extract on the intestinal barrier, intestinal immune function, and intestinal microbiota caused by cyclophosphamide to provide a new approach for its clinical application in the treatment of intestinal injury caused by immunosuppression. Immunosuppression undermines intestinal barrier integrity. Cow placenta extract (CPE) primarily consists of active peptides with immunomodulatory and antioxidant effects. This study aimed to examine the preventive effect of CPE against intestinal damage induced by cyclophosphamide (Cy) in immunosuppressed mice. Thirty-six mice were randomly allocated into three groups: control group (C), model group (M), and treatment group (CPE). The mice in the CPE group were provided with 1500 mg/kg/day of CPE via gavage. In the last 3 days, mice in the groups M and CPE received intraperitoneal injections of 80 mg/kg/day of Cy. The results showed that CPE improved intestinal barrier function by decreasing serum d-Lactate (D-LA) levels and diamine oxidase (DAO) activity, while elevating the relative expression of Occludin, zonula occludens-1 (ZO-1), and mucin-2 (MUC-2) mRNA. Additionally, CPE improved the immune organ index and elevated the levels of secretory immunoglobulin A (sIgA), superoxide dismutase (SOD), interleukin-1beta (IL-1β), interleukin-4 (IL-4), interleukin-10 (IL-10), and tumor necrosis factor-α (TNF-α) in the intestine, thereby enhancing intestinal mucosal immune function. Furthermore, CPE improved the diversity of intestinal microbiota and increased the abundance of Candidatus_Saccharimonas, Psychrobacter, and Enterorhabdus, which promoted the proper functioning of the intestines. These findings suggest that CPE effectively ameliorates Cy-induced intestinal damage by enhancing the intestinal barrier, improving immune function, and restoring intestinal microbiota. [ABSTRACT FROM AUTHOR]

Published

2024

6. Discussion on the model of community management of chronic diseases in cold areas

Author

Jiang Rui, Zhao Yuquan, and Wang Yongchen

Subjects

cold area, chronic disease, community management, general practitioner, Special situations and conditions, RC952-1245

Abstract

Because of the overbearing low temperature, cold areas increase the morbidity and mortality of chronic non-communicable diseases (chronic diseases) in exposed populations. With the growth of the aging population and the superposition of lifestyle risk factors, the number of people with chronic diseases in cold areas is climbing, and the family and social burdens are rising. These health-threatening circumstances in the cold areas render the general practitioners to face serious challenges and difficulties in the community management of chronic diseases. This paper summarizes the current situation of chronic disease management in cold areas and explores the relevant management models so as to provide a useful reference for regional health construction, graded diagnosis and treatment, and prevention and control of chronic diseases in China.

Published

2021

7. Isolation and Characterization of Antioxidant Peptides from Dairy Cow (Bos taurus) Placenta and Their Antioxidant Activities.

Author

Tian, Xinyu, Zhang, Zeru, Zhao, Yuquan, Tang, Anguo, Zeng, Zhi, Zheng, Weijian, Zhang, Hanwen, Luo, Yuxin, Lu, Wei, Fan, Lei, and Shen, Liuhong

Subjects

KEAP1 (Protein), CATTLE, ENDOENZYMES, DAIRY cattle, OXIDATIVE stress

Abstract

Our preliminary study identified dairy cow placenta extract (CPE) as a mixture of peptides with potent antioxidant activity both in vivo and in vitro. However, the specific antioxidant peptides (AOPs) responsible for this activity were not yet identified. In the current study, we employed virtual screening and chromatography techniques to isolate two peptides, ANNGKQWAEVF (CP1) and QPGLPGPAG (CP2), from CPE. These peptides were found to be less stable under extreme conditions such as high temperature, strong acid, strong alkali, and simulated digestive conditions. Nevertheless, under normal physiological conditions, both CP1 and CP2 exhibited significant antioxidant properties, including free-radical scavenging, metal chelating, and the inhibition of lipid peroxidation. They also up-regulated the activities of intracellular antioxidant enzymes in response to hydrogen-peroxide-induced oxidative stress, resulting in reduced MDA levels, a decreased expression of the Keap1 gene and protein, and increased levels of the Nrf2 and HO-1 genes and proteins. Furthermore, CP1 demonstrated superior antioxidant activity compared to CP2. These findings suggest that CP1 and CP2 hold potential for mitigating oxidative stress in vitro and highlight the efficacy of virtual screening as a method for isolating AOPs within CPE. [ABSTRACT FROM AUTHOR]

Published

2024

8. Molecular Mechanisms of Plant Extracts in Protecting Aging Blood Vessels.

Author

Luo, Yuxin, Zhang, Zeru, Zheng, Weijian, Zeng, Zhi, Fan, Lei, Zhao, Yuquan, Huang, Yixin, Cao, Suizhong, Yu, Shumin, and Shen, Liuhong

Abstract

Plant Extracts (PE) are natural substances extracted from plants, rich in various bioactive components. Exploring the molecular mechanisms and interactions involved in the vascular protective effects of PE is beneficial for the development of further strategies to protect aging blood vessels. For this review, the content was obtained from scientific databases such as PubMed, China National Knowledge Infrastructure (CNKI), and Google Scholar up to July 2024, using the search terms "Plant extracts", "oxidative stress", "vascular aging", "endothelial dysfunction", "ROS", and "inflammation". This review highlighted the effects of PE in protecting aging blood vessels. Through pathways such as scavenging reactive oxygen species, activating antioxidant signaling pathways, enhancing respiratory chain complex activity, inhibiting mitochondrial-reactive oxygen species generation, improving nitric oxide bioavailability, downregulating the secretion of inflammatory factors, and activating sirtuins 1 and Nrf2 signaling pathways, it can improve vascular structural and functional changes caused by age-related oxidative stress, mitochondrial dysfunction, and inflammation due to aging, thereby reducing the incidence of age-related cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2024

9. Determination of active ingredients in matrine aqueous solutions by mid-infrared spectroscopy and competitive adaptive reweighted sampling

Author

Tang, Guo, Hu, Jing, Yan, Hong, Zhao, Yuquan, Xiong, Yanmei, and Min, Shungeng

Published

2016

10. Analysis and Comparison of Proteomics of Placental Proteins from Cows Using Different Proteases.

Author

Shen, Liuhong, Zhang, Zeru, Zhang, Yue, Zhao, Yuquan, Fan, Lei, Yu, Shumin, Cao, Suizhong, and Huang, Yixin

Subjects

PREGNANCY proteins, PROTEASOMES, PEPSIN, ARRHYTHMOGENIC right ventricular dysplasia, PHYSIOLOGY, SMALL cell lung cancer, PROTEOMICS

Abstract

Simple Summary: As an organ of fetal development, the placenta has many biological functions such as anti-oxidation, anti-tumor, anti-apoptosis, immune regulation, and skin care. It was found that the protein content, trace elements, and amino acid types of bovine placenta were similar to those of human placenta—which has been widely studied, developed, and utilized—and at the same time, the waste of resources caused by the random disposal of placenta was avoided. In this study, we explored and compared the proteome of different proteases following their action on cow placenta based on marker-free mass spectrometry and performed a bioinformatics analysis, which provided valuable reference information for the subsequent proteomic analysis of pregnancy-related diseases in cows, the study of the physiological functions of cow placenta, and the development and utilization of its by-products. Newly found biochemical characteristics of the placenta can provide new insights for further studies on the possible markers of physiological/pathological pregnancy or the function of the placenta. We compared the proteome of the dairy cow placenta after enzymatic hydrolysis by three different proteases using a label-free mass spectrometry approach. In total, 541, 136, and 86 proteins were identified in the trypsin group (TRY), pepsin group (PEP), and papain group (PAP). By comparing the proteome of the PAP and TRY, PEP and TRY, and PEP and PAP groups, 432, 421, and 136 differentially expressed proteins were identified, respectively. We compared the up-regulated DEPs and down-regulated DEPs of each comparison group. The results show that the proteins identified by papain were mostly derived from the extracellular matrix and collagen, and were enriched in the relaxin signaling pathway and AGE-RAGE signaling pathway in diabetic complications; pepsin digestion was able to identify more muscle-related proteins, which were enriched in the lysosome, platelet activation, cardiac muscle contraction, the bacterial invasion of epithelial cells, and small cell lung cancer; trypsin mainly enzymatically degraded the extracellular matrix, blood particles, and cell-surface proteins that were enriched in arginine and proline metabolism, olfactory transduction proteasome, protein processing in the endoplasmic reticulum, pyruvate metabolism, and arrhythmogenic right ventricular cardiomyopathy (ARVC). In summary, these results provide insights into the discovery of the physiological functions of dairy cow placenta and the selection of proteases in dairy cow placenta proteomics. [ABSTRACT FROM AUTHOR]

Published

2023

11. Oligomeric Proanthocyanidins: An Updated Review of Their Natural Sources, Synthesis, and Potentials.

Author

Nie, Fanxuan, Liu, Lili, Cui, Jiamin, Zhao, Yuquan, Zhang, Dawei, Zhou, Dinggang, Wu, Jinfeng, Li, Bao, Wang, Tonghua, Li, Mei, and Yan, Mingli

Subjects

OLIGOMERIC proanthocyanidins, PROCYANIDINS, MOLECULAR structure, CATECHIN, FREE radicals, OXIDANT status

Abstract

Oligomeric Proanthocyanidins (OPCs), as a class of compounds widely found in plants, are particularly abundant in grapes and blueberries. It is a polymer comprising many different monomers, such as catechins and epicatechins. The monomers are usually linked to each other by two types of links, A-linkages (C-O-C) and B-linkages (C-C), to form the polymers. Numerous studies have shown that compared to high polymeric procyanidins, OPCs exhibit antioxidant properties due to the presence of multiple hydroxyl groups. This review describes the molecular structure and natural source of OPCs, their general synthesis pathway in plants, their antioxidant capacity, and potential applications, especially the anti-inflammatory, anti-aging, cardiovascular disease prevention, and antineoplastic functions. Currently, OPCs have attracted much attention, being non-toxic and natural antioxidants of plant origin that scavenge free radicals from the human body. This review would provide some references for further research on the biological functions of OPCs and their application in various fields. [ABSTRACT FROM AUTHOR]

Published

2023

12. Abscisic-Acid-Regulated Responses to Alleviate Cadmium Toxicity in Plants.

Author

Zhao, Yuquan, Wang, Jiaqi, Huang, Wei, Zhang, Dawei, Wu, Jinfeng, Li, Bao, Li, Mei, Liu, Lili, and Yan, Mingli

Subjects

PHYSIOLOGY, CADMIUM, ABSCISIC acid, PLANT genes, HEAVY metals, CELLULAR signal transduction

Abstract

High levels of cadmium (Cd) in soil can cause crop yield reduction or death. Cadmium accumulation in crops affects human and animal health as it passes through the food chain. Therefore, a strategy is needed to enhance the tolerance of crops to this heavy metal or reduce its accumulation in crops. Abscisic acid (ABA) plays an active role in plants' response to abiotic stress. The application of exogenous ABA can reduce Cd accumulation in shoots of some plants and enhance the tolerance of plants to Cd; therefore, ABA may have good application prospects. In this paper, we reviewed the synthesis and decomposition of ABA, ABA-mediated signal transduction, and ABA-mediated regulation of Cd-responsive genes in plants. We also introduced physiological mechanism underlying Cd tolerance because of ABA. Specifically, ABA affects metal ion uptake and transport by influencing transpiration and antioxidant systems, as well as by affecting the expression of metal transporter and metal chelator protein genes. This study may provide a reference for further research on the physiological mechanism of heavy metal tolerance in plants. [ABSTRACT FROM AUTHOR]

Published

2023

13. Novel self‐initiating UV‐curable acrylate monomers.

Author

Zhao, Yuquan, Tao, Xingyu, Li, Xinyi, and Zhang, Tao

Subjects

ACRYLATES, FOURIER transform infrared spectroscopy, NUCLEAR magnetic resonance, MONOMERS, DIFFERENTIAL scanning calorimetry, ADDITION reactions, MOIETIES (Chemistry)

Abstract

Based on the addition reaction of hydroxyl groups and the isocyanate groups in the bi‐functional monomer acroyloxyethyl isocyanate (AOI), two novel self‐initiating ultraviolet (UV)‐curable acrylate monomers were synthesized from benzoin and 2‐hydroxy‐4′‐(2‐hydroxyethoxy)‐2‐methylpropiophenone (commercial‐available Irgacure® 2959), and the products were denoted as Benzoin‐AOI and 2959‐AOI, respectively. The chemical structures of the products were confirmed by nuclear magnetic resonance (NMR) and Fourier transform infrared spectroscopy (FTIR). The UV–visible absorption spectrum showed that the self‐initiating acrylates exhibited similar maximum absorption wavelengths to both benzoin (250 nm) and Irgacure® 2959 (270 nm). When the products were continually exposed to a mercury lamp, the maximum absorption peak gradually blue shifted, showing that the products decomposed under the UV radiation. The photo differential scanning calorimetry (Photo‐DSC) analysis showed that the self‐initiating monomers could initiate the polymerization of 1,6‐hexanediol diacrylate (HDDA) as quickly as the original photo‐initiator, and the efficiency of Benzoin‐AOI was slightly lower than that of benzoin, while for 2959‐AOI, the efficiency remained stable after being linked to the AOI moiety. The cytotoxicity assay against fibroblasts cell line L929 showed that 2959‐AOI exhibited lower cytotoxicity at low dosages but higher cytotoxicity at high dosages compared to Irgacure® 2959 after the introduction of the AOI structure. [ABSTRACT FROM AUTHOR]

Published

2020

14. In situ preparation of NiO nanoflakes on Ni foams for high performance supercapacitors

Author

Zhu, Shuaishuai, Dai, Yuming, Huang, Wei, Zhang, Chuanxiang, Zhao, Yuquan, Tan, Linhua, and Wang, Zhangzhong

Published

2015

15. Functional, UV-curable coating for the capture of circulating tumor cells.

Author

Song, Wanyun, Li, Xinyi, Zhao, Yuquan, Liu, Chaoying, Xu, Junying, Wang, Huiyu, and Zhang, Tao

Published

2019

16. The Estimation of Chemical Oxygen Demand of Erhai Lake Basin and Its Links with DOM Fluorescent Components Using Machine Learning.

Author

Zhao, Yuquan, Shen, Jian, Feng, Jimeng, Sun, Zhitong, Sun, Tianyang, Liu, Decai, Xi, Mansong, Li, Rui, and Wang, Xinze

Subjects

DISSOLVED organic matter, CHEMICAL oxygen demand, WATERSHEDS, DISSOLVED oxygen in water, MACHINE learning, WATER quality management, BIOCHEMICAL oxygen demand

Abstract

Water quality estimation tools based on real-time monitoring are essential for the effective management of organic pollution in watersheds. This study aims to monitor changes in the levels of chemical oxygen demand (COD, CODMn) and dissolved organic matter (DOM) in Erhai Lake Basin, exploring their relationships and the ability of DOM to estimate COD and CODMn. Excitation emission matrix–parallel factor analysis (EEM–PARAFAC) of DOM identified protein-like component (C1) and humic-like components (C2, C3, C4). Combined with random forest (RF), maximum fluorescence intensity (Fmax) values of components were selected as estimation parameters to establish models. Results proved that the COD of rivers was more sensitive to the reduction in C1 and C2, while CODMn was more sensitive to C4. The DOM of Erhai Lake thrived by internal sources, and the relationship between COD, CODMn, and DOM of Erhai Lake was more complicated than rivers (inflow rivers of Erhai Lake). Models for rivers achieved good estimations, and by adding dissolved oxygen and water temperature, the estimation ability of COD models for Erhai Lake was significantly improved. This study demonstrates that DOM-based machine learning can be used as an alternative tool for real-time monitoring of organic pollution and deepening the understanding of the relationship between COD, CODMn, and DOM, and provide a scientific basis for water quality management. [ABSTRACT FROM AUTHOR]

Published

2021

17. Compact high-power 320-nm continuous-wave single-frequency laser based on power scaling of a diode-pumped Pr:LiYF 4 ring laser at red.

Author

Han Y, Guo K, Zhao Y, Xiong M, Wang D, Chen J, Cui X, and Xu B

Abstract

Single-frequency (SF) lasers in the visible spectral region are usually obtained through an indirect method, i.e., frequency doubling of near-infrared SF lasers. In this work, we report on the direct generation of a high-power continuous-wave (CW) SF laser in red based on a diode-pumped Pr:LiYF 4 (YLF) ring cavity technology. A maximum output power is scaled to 3.98 W at 640 nm with a linewidth of about 17.2 MHz and a power stability of 0.6%. Moreover, by inserting a LBO crystal into the ring cavity for intracavity frequency doubling of the 640 nm SF laser, we have also successfully demonstrated an ultraviolet (UV) SF laser at 320 nm, for the first time to the best of our knowledge, with a maximum power of 670 mW. This work provides a promising route for the development of simple, compact, and high-power SF lasers operating in visible and UV spectral regions.

Published

2024

18. Urbanization-induced soil organic carbon loss and microbial-enzymatic drivers: insights from aggregate size classes in Nanchang city, China.

Author

Zhang F, Zhong J, Zhao Y, Cai C, Liu W, Wang Q, Wang W, Wang H, Jiang X, and Yuan R

Abstract

Soil microorganisms and enzymes play crucial roles in soil organic carbon (SOC) sequestration by promoting soil aggregate formation and stability and by participating in SOC cycling and accumulation. However, the effects by which soil microorganisms and enzymes act as mediators driving dynamic changes in SOC during rapid urbanization remain unclear. Therefore, this study selected the built-up area of Nanchang City, China (505 km 2 ), as the study area. Sampling surveys were conducted using 184 sample plots stratified based on the proportion of impermeable surface area to distinguish different urbanization levels. The driving factors of dynamic changes in SOC of different aggregates during the process of urbanization were analyzed using the soil microbial community and enzyme activities. The results demonstrated that with an increase in urbanization intensity, both SOC content and stock exhibited a significant decline ( p < 0.05). The highest SOC stock and contribution rate were observed in the 0.25-1 mm aggregates, and they were significantly influenced by urbanization ( p < 0.05). In addition, the biomass of gram-positive bacteria (G+) and actinomycetota, and the activities of N-acetylglucosaminidase and acid phosphatase (AP) were significantly higher in low-urbanization areas than in high-urbanization areas ( p < 0.05). SOC of each aggregate was positively correlated with fungi, arbuscular mycorrhizal fungi, G+, gram-negative bacteria, actinomycetota, protozoa, β-1,4-glucosidase, N-acetylglucosaminidase, AP, urease, and catalase. Compared to soil enzymes, soil microorganisms exhibited a greater role in SOC sequestration (22.7%). Additionally, a structural equation model indicated that urbanization can directly or indirectly lead to a decrease in SOC of aggregates by altering soil physicochemical properties and affecting microbial and enzyme dynamics. However, the larger vegetation characteristics index mitigate the negative impacts of urbanization on SOC. Overall, urbanization had a negative impact on soil carbon storage. In the future, it is important to consider strategies that focus on improving soil nutrients, maintaining soil structure, protecting existing urban trees, and enhancing plant diversity during the urbanization process. These measures can help increase soil microbial biomass and enzyme activity, thereby improving soil and aggregate-related SOC content. The study could contribute to enhancing carbon sequestration in urban greenspaces., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Zhang, Zhong, Zhao, Cai, Liu, Wang, Wang, Wang, Jiang and Yuan.)

Published

2024

19. Analysis and Comparison of Proteomics of Placental Proteins from Cows Using Different Proteases.

Author

Shen L, Zhang Z, Zhang Y, Zhao Y, Fan L, Yu S, Cao S, and Huang Y

Abstract

Newly found biochemical characteristics of the placenta can provide new insights for further studies on the possible markers of physiological/pathological pregnancy or the function of the placenta. We compared the proteome of the dairy cow placenta after enzymatic hydrolysis by three different proteases using a label-free mass spectrometry approach. In total, 541, 136, and 86 proteins were identified in the trypsin group (TRY), pepsin group (PEP), and papain group (PAP). By comparing the proteome of the PAP and TRY, PEP and TRY, and PEP and PAP groups, 432, 421, and 136 differentially expressed proteins were identified, respectively. We compared the up-regulated DEPs and down-regulated DEPs of each comparison group. The results show that the proteins identified by papain were mostly derived from the extracellular matrix and collagen, and were enriched in the relaxin signaling pathway and AGE-RAGE signaling pathway in diabetic complications; pepsin digestion was able to identify more muscle-related proteins, which were enriched in the lysosome, platelet activation, cardiac muscle contraction, the bacterial invasion of epithelial cells, and small cell lung cancer; trypsin mainly enzymatically degraded the extracellular matrix, blood particles, and cell-surface proteins that were enriched in arginine and proline metabolism, olfactory transduction proteasome, protein processing in the endoplasmic reticulum, pyruvate metabolism, and arrhythmogenic right ventricular cardiomyopathy (ARVC). In summary, these results provide insights into the discovery of the physiological functions of dairy cow placenta and the selection of proteases in dairy cow placenta proteomics.

Published

2023

20. Watt-level and near diffraction-limited Pr 3+ -doped single-crystal fiber lasers.

Author

Xiong M, Zhao Y, Wang D, Chen Z, Xu B, Nizamutdinov A, Semashko V, and Korableva S

Abstract

Using a CZ-grown a-cut Pr:YLF crystal as laser gain medium after processing it into crystal fiber, we have demonstrated real Pr 3+ -doped single-crystal fiber lasers for the first time to the best of our knowledge. This Pr 3+ crystal fiber has absorbed up to 20.4 W of pump power, which is the highest absorbed power among Pr 3+ lasers. For two representative laser emissions at about 639 nm and 607 nm, we have achieved maximum output powers of 5.45 W and 3.04 W, respectively. Output powers of the two lasers show very good linearities, which indicate that the present output powers are only limited by the available pump power. Both laser emissions have exhibited near diffraction-limited beam qualities. This proposal has provided a good and feasible route for the development of compact, high-power, and high-brightness all-solid-state Pr 3+ visible lasers via crystal fiber.

Published

2023