Your search keyword '"Zhaoyu Wang"' showing total 653 results

1. Aberrant METTL1-mediated tRNA m7G modification alters B-cell responses in systemic autoimmunity in humans and mice

Author

Shuyi Wang, Hui Han, Yichao Qian, Xinyuan Ruan, Zhangmei Lin, Jin Li, Binfeng Chen, Yimei Lai, Zhaoyu Wang, Mengyuan Li, Jingping Wen, Xiaoyu Yin, Niansheng Yang, Shuibin Lin, and Hui Zhang

Subjects

Science

Abstract

Abstract Upon activation, naive B cells exit their quiescent state and enter germinal center (GC) responses, a transition accompanied by increased protein synthesis. How protein translation efficiency is adequately adjusted to meet the increased demand requires further investigation. Here, we identify the methyltransferase METTL1 as a translational checkpoint during GC responses. Conditional knockout of Mettl1 in mouse B cells blocks GC entry and impairs GC formation, whereas conditional knock-in of Mettl1 promotes GC responses. Mechanistically, METTL1 catalyzes m7G modification in a specific subset of tRNAs to preferentially translate BCR signaling-related proteins, ensuring mitochondrial electron transporter chain activity and sufficient bioenergetics in B cells. Pathologically, METTL1-mediated tRNA m7G modification controls B-cell autoreactivity in SLE patients or lupus-prone mice, and deletion of Mettl1 alleviates dysregulated B-cell responses during autoimmune induction. Thus, these results support the function of METTL1 in orchestrating an effective B-cell response and reveal that aberrant METTL1-mediated tRNA m7G modification promotes autoreactive B cells in systemic autoimmunity.

Published

2024

2. Analysis of influencing factors and prediction of aeroacoustic noise induced by cruise chimney exhaust pipelinene

Author

Zhenyang HUANG, Weiguo WU, Yongshui LIN, Cong CHEN, Yifei WANG, Xiaofei CAO, and Zhaoyu WANG

Subjects

cruise ship, chimney exhaust pipeline, aeroacoustic noise, noise prediction, Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

ObjectivesThis study analyzes the influencing factors of the aeroacoustic noise of cruise ship chimney exhaust pipelines, and predicts the noise level in the open area of a domestic cruise ship. MethodsA hybrid approach combining Large Eddy Simulation and Lighthill Analogy is used to conduct a numerical simulation of the pipeline’s aeroacoustic noise under the actual working conditions of a cruise ship. The impacts of the inlet flow rate, outlet pressure, cross-section shape and bending angle on the aerodynamic noise are studied. A real-size cruise ship chimney exhaust pipeline model is then established to analyze the main noise sources and predict the noise level in the open areaa. ResultsThe results show that the larger the inlet velocity and bending angle, the greater the aeroacoustic noise. Furthermore, the aeroacoustic noise of a pipeline with a zero pressure-outlet is greater than that with a non-zero pressure-outlet. It is also found that the aeroacoustic noise of a rectangular cross-sectional pipeline is marginally smaller than that of a circular one. In addition, the narrowband peak frequency decreases as the bending angle increases. Except for the chimney outlet, the noise level in the open area is low. ConclusionsThis study has significant reference value for controlling the aeroacoustic noise of cruise ship chimney exhaust pipelines and improving passenger comfort in open areas.

Published

2024

3. Ballistic impact wave and back bulge propagation mechanism and blunt trauma assessment of ceramic/UHMWPE composite body armor

Author

Yihui Zhu, Wei Wu, Yang Song, Zhuangqing Fan, WeiLong Niu, Zhaoyu Wang, Yaoke Wen, Cheng Xu, and Min Xia

Subjects

Ceramics/UHMWPE laminate composite, Bulge hyperbolic profile, Blunt trauma assessment, Ballistic impact wave propagation, Energy transformation, Mining engineering. Metallurgy, TN1-997

Abstract

With increasing local conflicts worldwide, studying the impact response of body armor is crucial for enhancing soldier survival rates. However, there is still insufficient understanding of the back bulge expansion patterns, the impact waves transmission features, and blunt injury assessing method of body armor. To investigate these problems deeply, the three-dimensional digital image correlation method and numerical models were employed to reveal the ballistic response mechanism of ceramic/ultra-high-molecular-weight polyethylene (UHMWPE) composite body armor impacted by 7.62 mm rifle bullet. This study built theoretical function for the bulge expansion, revealed the wave transmission mechanism and fractures in both materials and their interaction. Firstly, the experiment revealed that the back-face bulge transverse expansion velocity exhibits a double exponential decrease. Secondly, the contour of back-face bulges consistently demonstrated excellent hyperbolic characteristics at various moments. Thirdly, the average Viscous Criterion (VC) and Blunt Criterion (BC) values were 5.37 and 0.95, corresponding to Abbreviated Injury Scale (AIS) values of 6 and 4. Fourthly, the simulation revealed that the ceramics transverse and radial cracks seems primarily induced by shear stress xy; ceramics conical cracks occurring at the boundaries of equivalent stress seems primarily induced by stress in x and y directions. Fifthly, numerical results revealed that the velocity of compression waves within the laminate increases over time in the impact direction and consistent with ceramic velocity impacted on the laminate. These findings lead to experimental and theoretical advances in the impact response mechanism of composite body armor and provide index for improving the protective performance.

Published

2024

4. Analysis of the characteristics of a hail event with multi-source data

Author

Wei SONG, Xiaobin QIU, Zhaoyu WANG, and Chao CHEN

Subjects

hail, convection cell, number concentration, characteristic diameter, Meteorology. Climatology, QC851-999

Abstract

To understand the evolution characteristics of radar echo, microphysical parameters, and thermal dynamics of the convective systems during different stages of hailstorms, observations from Doppler weather radar, laser raindrop spectrometer, microwave radiometer, and automatic meteorological stations were used to investigate the radar echo characteristics, raindrop spectrum difference, temperature, humidity and water vapor variation characteristics of a hailstorm occurred in Tianjin on July 9, 2017. The results are as follows. (1) The warm and wet air on the east side of the shear line at 850 hPa is superimposed with the cold air at 500 hPa, which is conducive to the accumulation of unstable energy and triggering of convective weather. With hail approaching, the instability of the ambient atmosphere increased significantly. (2) During the evolution stage of the hail cloud, two hailfall events were observed, both of which occurred during the strengthening and merging processes of the convective cells. (3) During the hailfall stage, the maximum diameter, mass-weighted mean diameter, and median volume diameter of the precipitation particles reached their peak values. The contribution rate of medium and large droplets to precipitation intensity reached 94.56%, and the average spectral width during the hailfall stage was the largest. While after hailfall, the contribution rate of particles with a diameter less than 1.0 mm increased. The mean spectrum of particles within the range of less than 1.0 mm showed a bimodal pattern, with the first peak and the second peak occurring near 0.3 mm and 0.6 mm, respectively. (4) Before the hailfall, the water vapor accumulated slowly but continuously. The integrated water vapor and liquid water content showed an obvious increase in 1 h before hailfall. Due to the existence of temperature inversion, the upper layers were dryer and colder, while the lower layers were warmer and wetter. Note that the water vapor content in the whole atmosphere started to decrease after the hailfall.

Published

2024

5. Editorial − Advances in Volt/Var control for active distribution networks with high-level intermittent renewable energy resources

Author

Cuo Zhang, Yan Xu, Pierluigi Siano, Zhaoyu Wang, Sukumar Mishra, Raphaël Caire, and David Hill

Subjects

Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

This editorial summarises the papers selected for publication in the Special Issue on Advances in Volt/Var Control for Active Distribution Networks with High-Level Intermittent Renewable Energy Resources. The Special Issue contains 13 high-quality papers which are classified into novel models of VVC (3 papers), design of VVC framework (3 papers), data-driven VVC (5 papers), and VVC in special power systems (2 papers). The Special Issue can provide advanced VVC methods with invaluable insights to enhance renewable energy utilisation efficiency, power loss reduction for public infrastructure, and guarantee high power quality for end-users.

Published

2025

6. Pore Engineering in Biomass-Derived Carbon Materials for Enhanced Energy, Catalysis, and Environmental Applications

Author

Qi Wang, Bolong Luo, Zhaoyu Wang, Yao Hu, and Mingliang Du

Subjects

biomass-derived carbon, pore engineering, energy, catalysis, environmental, Organic chemistry, QD241-441

Abstract

Biomass-derived carbon materials (BDCs) are highly regarded for their renewability, environmental friendliness, and broad potential for application. A significant advantage of these materials lies in the high degree of customization of their physical and chemical properties, especially in terms of pore structure. Pore engineering is a key strategy to enhance the performance of BDCs in critical areas, such as energy storage, catalysis, and environmental remediation. This review focuses on pore engineering, exploring the definition, classification, and adjustment techniques of pore structures, as well as how these factors affect the application performance of BDCs in energy, catalysis, and environmental remediation. Our aim is to provide a solid theoretical foundation and practical guidance for the pore engineering of BDCs to facilitate the rapid transition of these materials from the laboratory to industrial applications.

Published

2024

7. Computed Tomography Imaging Features of Pulmonary Sequestration

Author

Tingqian Yang, Zhaoyu Wang, Jun Qiang, Qinxiang Mao, Shufeng Kong, Zhonghua Sun, and Yu Li

Subjects

pulmonary sequestration, computed tomography angiography, intralobar and extralobar sequestration, supplying artery, draining vessel, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background: Pulmonary sequestration (PS), generally diagnosed using computed tomography pulmonary angiography (CTPA), is a rare congenital developmental malformation of the lung that is characterized by nonfunctional lung tissue, independent of the normal lung tissue. This paper summarizes the imaging features of the supplying arteries and draining vessels in patients with PS with an aim to assist in timely clinical diagnosis and operation guidance. Materials and Methods: A total of 55 patients with PS diagnosed using CTPA from multiple clinical centers were retrospectively analyzed. Data included demographic characteristics, imaging features, disease location, isolation type, and the features of supplying and draining vessels, as shown on CTPA images. Results: Of the 55 patients reviewed, 3 (5.45%) were children, 3 (5.45%) were adolescents, and 49 (89.09%) were adults; the mean age was 44 years. Fifty-four (98.18%) patients had intralobar sequestration and one (1.82%) had extralobar sequestration. PS was noted 3.5 times more frequently in the left lower lobe than in the right lower lobe. For the supplying arteries, 47 (85.45%) were derived from the descending thoracic aorta, 1 (1.82%) from the abdominal aorta, 7 (12.73%) from the celiac axis, and 1 (1.82%) from the bronchial artery. The draining vessels were the pulmonary veins in 49 patients (89.09%), the umbilical vein in 1 (1.82%), the venae intercostal in 1 (1.82%), the pulmonary arteries in 11 (20.00%), and the vessels were not shown on the images in 2 patients (3.64%). Conclusion: Clinical presentations of PS are non-specific and can be easily missed or misdiagnosed. However, CTPA can help to improve the diagnostic accuracy and identify the supplying arteries and draining vessels, which significantly contribute to surgical planning.

Published

2023

8. Design and mechanical properties analysis of a cellular Waterbomb origami structure

Author

Yongtao Bai, Zhaoyu Wang, and Yu Shi

Subjects

Cellular structure, Waterbomb origami, Mechanical metamaterial, Numerical simulation, Energy absorption, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Cellular structures are commonly used to design energy-absorbing structures, and origami structures are becoming a prevalent method of cellular structure design. This paper proposes a foldable cellular structure based on the Waterbomb origami pattern. The geometrical configuration of this structure is described. Quasi-static compression tests of the origami tube cell of this cellular structure are conducted, and load-displacement relationship curves are obtained. Numerical simulations are carried out to analyze the effects of aspect ratio, folding angle, thickness and number of layers of origami tubes on initial peak force and specific energy absorption (SEA). Calculation formulas for initial peak force and SEA are obtained by the multiple linear regression method. The degree of influence of each parameter on the mechanical properties of the single-layer tube cell is compared. The results show that the cellular structure exhibits negative stiffness and periodic load-bearing capacity, as well as folding angle has the most significant effect on the load-bearing and energy-absorbing capacity. By adjusting the design parameters, the stiffness, load-bearing capacity and energy absorption capacity of this cellular structure can be adjusted, which shows the programmable mechanical properties of this cellular structure. The foldability and the smooth periodic load-bearing capacity give the structure potential for application as an energy-absorbing structure.

Published

2024

9. RNA modification-related genes illuminate prognostic signature and mechanism in esophageal squamous cell carcinoma

Author

Hui Han, Yucong Sun, Wei Wei, Zixin Huang, Maosheng Cheng, Hongshen Qiu, Juan Wang, Siyi Zheng, Lianlian Liu, Qiang Zhang, Canfeng Zhang, Jieyi Ma, Siyao Guo, Zhaoyu Wang, Zhenpeng Li, Xu Jiang, Shuibin Lin, Qianwen Liu, and Shuishen Zhang

Subjects

Oncology, Biological sciences, Genetics, Molecular biology, Cancer systems biology, Science

Abstract

Summary: Emerging studies have demonstrated the link between RNA modifications and various cancers, while the predictive value and functional mechanisms of RNA modification-related genes (RMGs) in esophageal squamous cell carcinoma (ESCC) remain unclear. Here we established a prognostic signature for ESCC based on five RMGs. The analysis of ESCC clinical samples further verified the prognostic power of the prognostic signature. Moreover, we found that the knockdown of NSUN6 promotes ESCC progression in vitro and in vivo, whereas the overexpression of NSUN6 inhibits the malignant phenotype of ESCC cells. Mechanically, NSUN6 mediated tRNA m5C modifications selectively enhance the translation efficiency of CDH1 mRNA in a codon dependent manner. Rescue assays revealed that E-cadherin is an essential downstream target that mediates NSUN6’s function in the regulation of ESCC progression. These findings offer additional insights into the link between ESCC and RMGs, as well as provide potential strategies for ESCC management and therapy.

Published

2024

10. Ultrasound scoring system for prenatal diagnosis of placenta accreta spectrum

Author

Junling Zhang, Hezhou Li, Demin Feng, Juan Wu, Zhaoyu Wang, and Fan Feng

Subjects

Placenta accreta spectrum, Abnormally invasive placenta, Accreta, Ultrasound scoring system, Prenatal diagnosis, Gynecology and obstetrics, RG1-991

Abstract

Abstract Background To develop an ultrasound scoring system for placenta accreta spectrum (PAS), evaluate its diagnostic value, and provide a practical approach to prenatal diagnosis of PAS. Methods A total of 532 pregnant women (n = 184 no PAS, n = 120 placenta accreta, n = 189 placenta increta, n = 39 placenta percreta) at high-risk for placenta accreta who delivered in the Third Affiliated Hospital of Zhengzhou University between January 2021 and December 2022 underwent prenatal ultrasound to evaluate placental invasion. An ultrasound scoring system that included placental and cervical morphology and history of cesarean section was created. Each feature was assigned a score of 0 ~ 2, according to severity. Thresholds for the total ultrasound score that discriminated between no PAS, placenta accreta, placenta increta, and placenta percreta were calculated. Results Univariate and multivariate regression analysis identified seven indicators of PAS that were included in the ultrasound scoring system, including placental location, placental thickness, presence/absence of the retroplacental space, thickness of the retroplacental myometrium, presence/absence of placental lacunae, retroplacental myometrial blood flow and history of cesarean section. Using the final ultrasound scoring system, no PAS is diagnosed at a total score

Published

2023

11. Study protocol: Identifying transcriptional regulatory alterations of chronic effects of blast and disturbed sleep in United States Veterans

Author

Molly J. Sullan, Kelly A. Stearns-Yoder, Zhaoyu Wang, Andrew J. Hoisington, Adam D. Bramoweth, Walter Carr, Yongchao Ge, Hanga Galfalvy, Fatemah Haghighi, and Lisa A. Brenner

Subjects

Medicine, Science

Published

2024

12. NAT10-mediated ac4C tRNA modification promotes EGFR mRNA translation and gefitinib resistance in cancer

Author

Wei Wei, Shuishen Zhang, Hui Han, Xiaochen Wang, Siyi Zheng, Zhaoyu Wang, Chunlong Yang, Lu Wang, Jieyi Ma, Siyao Guo, Juan Wang, Lianlian Liu, Junho Choe, and Shuibin Lin

Subjects

CP: Cancer, Biology (General), QH301-705.5

Abstract

Summary: Aberrant RNA modifications are frequently associated with cancers, while the underlying mechanisms and clinical significance remain poorly understood. Here, we find that the ac4C RNA acetyltransferase NAT10 is significantly upregulated in esophageal cancers (ESCAs) and associated with poor ESCA prognosis. In addition, using ESCA cell lines and mouse models, we confirm the critical functions of NAT10 in promoting ESCA tumorigenesis and progression in vitro and in vivo. Mechanistically, NAT10 depletion reduces the abundance of ac4C-modified tRNAs and decreases the translation efficiencies of mRNAs enriched for ac4C-modified tRNA-decoded codons. We further identify EGFR as a key downstream target that facilitates NAT10’s oncogenic functions. In terms of clinical significance, we demonstrate that NAT10 depletion and gefitinib treatment synergistically inhibit ESCA progression in vitro and in vivo. Our data indicate the mechanisms underlying ESCA progression at the layer of mRNA translation control and provide molecular insights for the development of effective cancer therapeutic strategies.

Published

2023

13. Toxicity and inhibition mechanism of gallic acid on physiology and fermentation performance of Escherichia coli

Author

Lina Liu, Xiaolong Ma, Muhammad Bilal, Linlin Wei, Shijie Tang, Hongzhen Luo, Yuping Zhao, Zhaoyu Wang, and Xuguo Duan

Subjects

Escherichia coli, Gallic acid, Physiological mechanism, Fermentation characteristics, Transcriptional analysis, Technology, Chemical technology, TP1-1185, Biotechnology, TP248.13-248.65

Abstract

Abstract Gallic acid is a natural phenolic acid that has a stress inhibition effect on Escherichia coli. This study by integrates fermentation characteristics and transcriptional analyses to elucidate the physiological mechanism of E. coli 3110 response to gallic acid. Compared with the control (without stress), the cell growth was severely retarded, and irregular cell morphology appeared in the case of high levels of gallic acid stress. The glucose consumption of E. coli was reduced successively with the increase of gallic acid content in the fermentation medium. After 20 h of gallic acid stress, cofactor levels (ATP, NAD+ and NADH) of E. coli 3110 were similarly decreased, indicating a more potent inhibitory effect of gallic acid on E. coli. The transcriptional analysis revealed that gallic acid altered the gene expression profiles related to five notable differentially regulated pathways. The genes related to the two-component system were up-regulated, while the genes associated with ABC-transporter, energy metabolism, carbon metabolism, and fatty acid biosynthesis were down-regulated. This is the first report to comprehensively assess the toxicity of gallic acid on E. coli. This study has implications for the efficient production of phenolic compounds by E. coli and provides new ideas for the study of microbial tolerance to environmental stress and the identification of associated tolerance targets. Graphical abstract

Published

2022

14. A Label-Free Optical Biosensor Based on an Array of Microring Resonators for the Detection of Human Serum Albumin

Author

Xin Chen, Mingyu Li, Zhaoyu Wang, Kaihao Zhao, Jiamei Gu, Qiushun Li, and Jian-Jun He

Subjects

array of microring resonators, label-free detection, surface functionalization, HSA protein, Chemical technology, TP1-1185

Abstract

We introduced a label-free sensing system based on an array of microring resonators (MRRs) which was successfully employed for human serum albumin (HSA) detection. The sensing-ring surface was functionalized to immobilize anti-HSA, facilitating HSA binding. Our refractive index sensing system demonstrates high sensitivity at 168 nm/RIU and a low limit of detection (LOD) of 63.54 ng/mL, closely comparable to current HSA detection methods. These findings confirm the potential of MRRs as biocompatible sensors for HSA detection. This system holds great promise as an innovative platform for the detection of HSA, carrying significant importance in medical diagnostics.

Published

2024

15. N7-methylguanosine tRNA modification promotes esophageal squamous cell carcinoma tumorigenesis via the RPTOR/ULK1/autophagy axis

Author

Hui Han, Chunlong Yang, Jieyi Ma, Shuishen Zhang, Siyi Zheng, Rongsong Ling, Kaiyu Sun, Siyao Guo, Boxuan Huang, Yu Liang, Lu Wang, Shuang Chen, Zhaoyu Wang, Wei Wei, Ying Huang, Hao Peng, Yi-Zhou Jiang, Junho Choe, and Shuibin Lin

Subjects

Science

Abstract

Deregulation of METTL1-mediated N7- methylguanosine tRNA modification can promote oncogenesis. Here, the authors report that this modification regulates the translation of proteins in both the mTOR and negative regulators of autophagy pathways, resulting in the progression of esophageal squamous cell carcinoma.

Published

2022

16. Editorial: Flexibility analysis and regulation technology of clean energy system

Author

Nantian Huang, Yingjun Wu, Dazhi Yang, and Zhaoyu Wang

Subjects

operational flexibility, frequency regulation, power system, system uncertainty, technology index, General Works

Published

2023

17. METTL3-mediated m6A mRNA modification promotes esophageal cancer initiation and progression via Notch signaling pathway

Author

Hui Han, Chunlong Yang, Shuishen Zhang, Maosheng Cheng, Siyao Guo, Yan Zhu, Jieyi Ma, Yu Liang, Lu Wang, Siyi Zheng, Zhaoyu Wang, Demeng Chen, Yi-Zhou Jiang, and Shuibin Lin

Subjects

METTL3, N6-methyladenosine, m6A, esophageal cancer, esophageal squamous cell carcinoma, ESCC, Therapeutics. Pharmacology, RM1-950

Abstract

Esophageal cancer is a lethal malignancy with a high mortality rate, while the molecular mechanisms underlying esophageal cancer pathogenesis are still poorly understood. Here, we found that the N6-methyladenosine (m6A) methyltransferase-like 3 (METTL3) is significantly upregulated in esophageal squamous cell carcinoma (ESCC) and associated with poor patient prognosis. Depletion of METTL3 results in decreased ESCC growth and progression in vitro and in vivo. We further established ESCC initiation and progression models using Mettl3 conditional knockout mouse and revealed that METTL3-mediated m6A modification promotes ESCC initiation and progression in vivo. Moreover, using METTL3 overexpression ESCC cell model and Mettl3 conditional knockin mouse model, we demonstrated the critical function of METTL3 in promoting ESCC tumorigenesis in vitro and in vivo. Mechanistically, METTL3-catalyzed m6A modification promotes NOTCH1 expression and the activation of the Notch signaling pathway. Forced activation of Notch signaling pathway successfully rescues the growth, migration, and invasion capacities of METTL3-depleted ESCC cells. Our data uncovered important mechanistical insights underlying ESCC tumorigenesis and provided molecular basis for the development of novel strategies for ESCC diagnosis and treatment.

Published

2021

18. Huaier polysaccharides suppress triple-negative breast cancer metastasis and epithelial-mesenchymal transition by inducing autophagic degradation of Snail

Author

Yuan Tian, Jin Wu, Lingjuan Zeng, Linxi Zhou, Ying Hu, Qinwen Pan, Wei Liu, Yuzhao Yan, Ziwei Wu, Zhaoyu Wang, Zhen Zeng, Peng Tang, Jun Jiang, and Minghao Wang

Subjects

Triple-negative breast cancer, Metastasis, Invasion, Huaier, In vitro, In vivo, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Abstract Background Triple-negative breast cancer (TNBC) is the most aggressive subtype of breast cancer, and the targeted therapies are lacking for this type of cancer. We previously demonstrated that Huaier effectively improve 5-year OS and DFS in stage III TNBC patients, and the polysaccharides of Huaier (PS-T) have been identified as the major components of Huaier. However, the mechanisms of anti-tumor action of PS-T is unclear. This study aimed to investigate the effect of PS-T on TNBC cell invasion and migration. Results This study showed that PS-T inhibited cell invasion and migration both in vitro and in vivo by inducing autophagy to suppress epithelial-mesenchymal transition (EMT). Autophagy inhibitor LY294002 or knockdown of ATG5 suppressed the inhibitory effects of PS-T. In addition, as a key transcription factor controlling EMT initiation, Snail was found to be degraded by PS-T induced autophagy. In addition, overexpression of Snail reversed the inhibitory effects of PS-T. Furthermore, it was confirmed that the expression of Snail was inversely correlated with LC3 and associated with poor prognosis using immunohistochemistry and TCGA database analysis, respectively. Conclusions This study demonstrated that PS-T could inhibit EMT in breast cancer cells by inducing autophagy to degrade Snail protein, thus improving the prognosis of TNBC, offering potential treatment alternatives for TNBC patients.

Published

2021

19. A facile and efficient synthesis approach of salidroside esters by whole-cell biocatalysts in organic solvents

Author

Rongling Yang, Yu Wang, Xiangjie Zhao, Zheng Tong, Qianlin Zhu, Xiaoxi He, Zhaoyu Wang, Hongzhen Luo, and Fang Fang

Subjects

salidroside esters, whole-cells, biocatalysis, acyl donor specificity, organic solvents, Biotechnology, TP248.13-248.65

Abstract

Salidroside, the main bioactive compound isolated from the plant source of Rhodiola rosea L, possesses broad-spectrum pharmacological activities, but suffers from the low cell membranes permeability and alimentary absorption due to its high polarity. Therefore, a whole-cell catalytic strategy for the synthesis of salidroside esters was explored to improve its lipophilicity. The results showed that Aspergillus oryzae demonstrated the highest biocatalytic activity among the microbial strains tested. For the synthesis of salidroside caprylate, the optimum conditions of reaction medium, Aspergillus oryzae amount, molar ratio of vinyl caprylate to salidroside and reaction temperature were acetone, 30 mg/ml, 10°C and 40°C, respectively. Under these conditions, the initial reaction rate was 15.36 mM/h, and substrate conversion and regioselectivity all reached 99%. Moreover, the results indicated that although various 6′-monoesters derivatives of salidroside were exclusively obtained with excellent conversions (96%–99%), the reaction rate varied greatly with different chain-length acyl donors. This study details an efficient and cost-effective biocatalytic approach for the synthesis of salidroside esters by using Aspergillus oryzae as a catalyst for the first time. Considering the whole cell catalytic efficiency and operational stability, this strategy may provide a new opportunity to develop green industrial processes production for ester derivatives of salidroside and its analogues.

Published

2022

20. MsTHI1 overexpression improves drought tolerance in transgenic alfalfa (Medicago sativa L.)

Author

Hang Yin, Zhaoyu Wang, Han Li, Yu Zhang, Mei Yang, Guowen Cui, and Pan Zhang

Subjects

alfalfa, MsTHI1, photosynthesis, antioxidant defense, osmotic homeostasis, drought tolerance, Plant culture, SB1-1110

Abstract

In recent years, drought stress caused by global warming has become a major constraint on agriculture. The thiamine thiazole synthase (THI1) is responsible for controlling thiamine production in plants displaying a response to various abiotic stresses. Nonetheless, most of the THI1 activities in plants remain largely unknown. In this study, we extracted MsTHI1 from alfalfa and demonstrated its beneficial impact on improving the resistance of plants to stress conditions. The highest levels of MsTHI1 expression were identified in alfalfa leaves, triggered by exposure to cold, drought, salt, or alkaline conditions. The upregulation of MsTHI1 in drought-stressed transgenic plants resulted in enhanced accumulation of vitamin B1 (VB1), chlorophyll a (Chl a), chlorophyll b (Chl b), soluble protein, higher soil and plant analyzer development (SPAD) value, and the activity of peroxidase (POD), maintained Fv/Fm, and decreased lipid peroxidation. Moreover, overexpression of MsTHI1 upregulated the transcription of THI4, TPK1, RbcX2, Cu/Zn-SOD, CPK13, and CPK32 and downregulated the transcription of TH1 and CPK17 in transgenic alfalfa under drought stress. These results suggested that MsTHI1 enhances drought tolerance by strengthening photosynthesis, regulating the antioxidant defense system, maintaining osmotic homeostasis, and mediating plant signal transduction.

Published

2022

21. Pareto-optimal analysis of adverse drug reactions induced by Chinese patent medicine and clinical medication management

Author

Meihong CHEN, Fei TONG, Linqian GUO, Jingming LIN, and Zhaoyu WANG

Subjects

Chinese patent medicine, ADR, Pareto-optimal analysis, Clinical medication management, Pharmacy and materia medica, RS1-441, Therapeutics. Pharmacology, RM1-950

Abstract

[Abstract]: Objective: To provide the optimal measure for the prevention and control of adverse drug reactions (ADRs) of Chinese patent medicine (CPM), high-risk factors of ADRs induced by CPM were explored. Methods: ADR report data of CPM from patients hospitalized in a Level III Grade A Hospital for 7 consecutive years were collected, and Pareto-optimal analysis method was used to determine the high-risk characteristic values of patients’ age, drug type, and involved systems/organs. Results: The high-risk characteristics for ADRs included age ≥ 51 years, blood-regulating drugs, and ADRs were observed most commonly in systemic damage, damage in the cardiovascular system, and skin and its accessories. Conclusion: These high-risk characteristics should be considered when prescribing CPM. Drugs and medical instruments required for ADR treatment should be prepared before drug use, and early symptoms of ADRs should be monitored closely during CPM administration to timely discontinue suspected drugs, provide appropriate treatment, and improve prevention and control of ADRs.

Published

2021

22. An Experimental Study on the Resistance of a High-Speed Air Cavity Craft

Author

Lin Song, Jianxing Yu, Yang Yu, Zhaoyu Wang, Shibo Wu, and Ruilong Gao

Subjects

high-speed craft, air cavity, ship resistance, model tests, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

For the marine industry, resistance reduction can reduce energy consumption and achieve protection of the marine environment. The use of air lubrication to reduce the resistance of ships is one of the most important ways. With this technology, high-speed air cavity crafts show immense potential as they can be utilized in various marine activities, such as emergency rescue, supply, and maritime security. Through experiments, this study presents an in-depth analysis of the effects of bubble chamber pressure and initial stern inclination on the resistance of high-speed air cavity crafts at different speeds. The results show that air pressure has a significant impact on resistance. It was found that as the speed of the ship increased, the resistance reduction effect became more prominent under the same pressure conditions. Moreover, the resistance tended to stabilize when the pressure reached a certain value. In addition to the air pressure, the longitudinal inclination does have an effect on resistance reduction. To achieve better resistance reduction, the initial stern inclination angle should be chosen appropriately. Furthermore, adjusting the angle with speed changes can optimize the resistance reduction effect. This experimental study provides critical support for conducting further research on high-speed air cavity crafts. The findings offer valuable insights into improving hull forms, guiding host selection, and assessing performance.

Published

2023

23. Information entropy based prioritization strategy for data-driven transient stability batch assessment

Author

Rong Yan, Zhaoyu Wang, Yuxuan Yuan, Guangchao Geng, and Quanyuan Jiang

Subjects

Technology, Physics, QC1-999

Published

2021

24. Impacts of Water Bodies on Microclimates and Outdoor Thermal Comfort: Implications for Sustainable Rural Revitalization

Author

Yanyan Cheng, Xiao Liu, Zhi Zeng, Shengshuai Liu, Zhaoyu Wang, Xu Tang, and Bao-Jie He

Subjects

water bodies, water-sensitive design, microclimate, thermal comfort, ENVI-met, rural revitalization, Environmental sciences, GE1-350

Abstract

Water is the source of life and the fundamental element of ecology, and climate is inseparable from water. To evaluate the influence of water-adaptive space in a traditional Weizi (polder village) settlement on its microclimate, the authors analyzed the morphological characteristics of such a polder village and applied the ENVI-met model to simulate the impact of water bodies and village morphological elements on human thermal comfort. This paper demonstrates the positive impact of water bodies on improving the thermal environment of a village and regulating its microclimate by quantifying the impact of morphological elements of the settlement on microclimate. The results indicate that: 1) The simulation model fits the actual measurements well, and the simulation accurately reflects experimental results; 2) In summer, the cooling effect of water bodies is better in the afternoon than in the morning, especially from 12:00 to 15:00. The cooling effect is significantly correlated with the distance to water bodies, i.e., the closer, the better; 3) Building density and man-made underlying surface are negatively correlated with temperature, humidity, and Physiological Equivalent Temperature value, while greening rate and water body rate are positively correlated with microclimate. Overall, water bodies can improve outdoor comfort in summer and thus should be protected and developed in rural planning and design. Villages can be built around water bodies for a maximized cooling effect, and microclimate comfort can be effectively improved by increasing green plants near the village center, and reducing man-made underlying surface and building density. The results of this study will guide the improvement of the habitat environment in the process of rural revitalization, as well as the protection and re-development of traditional villages.

Published

2022

25. Immobilized Fe3O4-Polydopamine-Thermomyces lanuginosus Lipase-Catalyzed Acylation of Flavonoid Glycosides and Their Analogs: An Improved Insight Into Enzymic Substrate Recognition

Author

Zhaoyu Wang, Yang Li, Mingyi Li, Xiaohui Zhang, Qingxia Ji, Xiaojuan Zhao, Yanhong Bi, and Si Luo

Subjects

flavonoid glycosides, immobilized enzyme, magnetic nanoparticle, Thermomyces lanuginosus lipase, substrate recognition, Biotechnology, TP248.13-248.65

Abstract

The conversion of flavonoid glycosides and their analogs to their lipophilic ester derivatives was developed by nanobiocatalysts from immobilizing Thermomyces lanuginosus lipase (TLL) on polydopamine-functionalized magnetic Fe3O4 nanoparticles (Fe3O4-PDA-TLL). The behavior investigation revealed that Fe3O4-PDA-TLL exhibits a preference for long chain length fatty acids (i.e., C10 to C14) with higher reaction rates of 12.6–13.9 mM/h. Regarding the substrate specificity, Fe3O4-PDA-TLL showed good substrate spectrum and favorably functionalized the primary OH groups, suggesting that the steric hindrances impeded the secondary or phenolic hydroxyl groups of substrates into the bonding site of the active region of TLL to afford the product.

Published

2021

26. Penetrating Ballistic Brain Injury Produces Acute Alterations in Sleep and Circadian-Related Genes in the Rodent Cortex: A Preliminary Study

Author

Andrea Mountney, Jennifer Blaze, Zhaoyu Wang, Michelle Umali, William Jesse Flerlage, Jacqueline Dougherty, Yongchao Ge, Deborah Shear, and Fatemeh Haghighi

Subjects

traumatic brain injury, circadian, sleep, prefrontal cortex, gene expression, Neurology. Diseases of the nervous system, RC346-429

Abstract

Traumatic brain injury (TBI) affects millions of Americans each year, with extremely high prevalence in the Veteran community, and sleep disturbance is one of the most commonly reported symptoms. Reduction in the quality and amount of sleep can negatively impact recovery and result in a wide range of behavioral and physiological symptoms, such as impaired cognition, mood and anxiety disorders, and cardiovascular effects. Thus, to improve long-term patient outcomes and develop novel treatments, it is essential to understand the molecular mechanisms involved in sleep disturbance following TBI. In this effort, we performed transcriptional profiling in an established rodent model of penetrating ballistic brain injury (PBBI) in conjunction with continuous sleep/wake EEG/EMG recording of the first 24 h after injury. Rats subjected to PBBI showed profound differences in sleep architecture. Injured animals spent significantly more time in slow wave sleep and less time in REM sleep compared to sham control animals. To identify PBBI-related transcriptional differences, we then performed transcriptome-wide gene expression profiling at 24 h post-injury, which identified a vast array of immune- related genes differentially expressed in the injured cortex as well as sleep-related genes. Further, transcriptional changes associated with total time spent in various sleep stages were identified. Such molecular changes may underlie the pathology and symptoms that emerge following TBI, including neurodegeneration, sleep disturbance, and mood disorders.

Published

2021

27. Aerobic exercise training at maximal fat oxidation intensity improves body composition, glycemic control, and physical capacity in older people with type 2 diabetes

Author

Yan Jiang, Sijie Tan, Zhaoyu Wang, Zhen Guo, Qingwen Li, and Jianxiong Wang

Subjects

Sports, GV557-1198.995

Abstract

Background: Aerobic training has been used as one of the common treatments for type 2 diabetes; however, further research on the individualized exercise program with the optimal intensity is still necessary. The purpose of this study was to investigate the effects of supervised exercise training at the maximal fat oxidation (FATmax) intensity on body composition, glycemic control, lipid profile, and physical capacity in older people with type 2 diabetes. Methods: Twenty-four women and 25 men with type 2 diabetes, aged 60–69 years. The exercise groups trained at the individualized FATmax intensity for 1 h/day for 3 days/week over 16 weeks. No dietary intervention was introduced during the experimental period. Whole body fat, abdominal fat, oral glucose tolerance test, lipid profile, and physical capacity were measured before and after the interventions. Results: FATmax intensity was at 41.3 ± 3.2% VO2max for women and 46.1 ± 10.3% VO2max for men. Exercise groups obtained significant improvements in body composition, with a special decrease in abdominal obesity; decreased resting blood glucose concentration and HbA1c; and increased VO2max, walking ability, and lower body strength, compared to the non-exercising controls. Daily energy intake and medication remained unchanged for all participants during the experimental period. Conclusion: Beside the improvements in the laboratory variables, the individualized FATmax training can also benefit daily physical capacity of older people with type 2 diabetes. Keywords: Type 2 diabetes, Exercise training, Maximal fat oxidation rate, Physical capacity, Older people

Published

2020

28. Mathematical Representation of WECC Composite Load Model

Author

Zixiao Ma, Zhaoyu Wang, Yishen Wang, Ruisheng Diao, and Di Shi

Subjects

Composite load model, dynamic load modeling, mathematical model, three-phase motor, DER_A model, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Renewable energy sources, TJ807-830

Abstract

Composite load model of Western Electricity Coordinating Council (WECC) is a newly developed load model that has drawn great interest from the industry. To analyze its dynamic characteristics with both mathematical and engineering rigors, a detailed mathematical model is needed. Although composite load model of WECC is available in commercial software as a module and its detailed block diagrams can be found in several public reports, there is no complete mathematical representation of the full model in literature. This paper addresses a challenging problem of deriving detailed mathematical representation of composite load model of WECC from its block diagrams. In particular, we have derived the mathematical representation of the new DER_A model. The developed mathematical model is verified using both MATLAB and PSS/E to show its effectiveness in representing composite load model of WECC. The derived mathematical representation serves as an important foundation for parameter identification, order reduction and other dynamic analysis.

Published

2020

29. Large zero bias peaks and dips in a four-terminal thin InAs-Al nanowire device

Author

Huading Song, Zitong Zhang, Dong Pan, Donghao Liu, Zhaoyu Wang, Zhan Cao, Lei Liu, Lianjun Wen, Dunyuan Liao, Ran Zhuo, Dong E. Liu, Runan Shang, Jianhua Zhao, and Hao Zhang

Subjects

Physics, QC1-999

Abstract

We report electron transport studies of a thin InAs-Al hybrid semiconductor-superconductor nanowire device using a four-terminal design. Compared to previous studies, thinner InAs nanowire (diameter less than 40 nm) is expected to reach fewer subband regime. The four-terminal device design excludes electrode contact resistance, an unknown value, which has inevitably affected previously reported device conductance. Using tunneling spectroscopy, we find large zero bias peaks (ZBPs) in differential conductance on the order of 2e^{2}/h. At specific gate voltage settings, we find a magnetic-field-driven transition between a zero bias peak and a zero bias dip while the zero-bias conductance sticks close to 2e^{2}/h. We discuss a topologically trivial interpretation involving disorder, smooth potential variation and quasi-Majorana zero modes.

Published

2022

30. Correlation Between Pulmonary Sclerosing Pneumocytoma Features and MSCT Imaging Manifestations in 34 Patients: Implications for Precision Medicine

Author

Gen Xu, Zhaoyu Wang, Zeng Xiong, Manqiu Li, Weijun Luo, Yong Xu, and Tang Min

Subjects

pulmonary sclerosing pneumocytoma, pathology, multi-slice computed tomography, image pathological control, diagnosis, Medicine (General), R5-920

Abstract

Objective: To identify and analyze the multi-slice computed tomography (MSCT) imaging manifestations and clinicopathological features of PSP to improve the preoperative and intraoperative diagnosis of the disease.Method: This was a retrospective study conducted on the imaging and clinicopathological data of the PSP patients treated in two major hospitals in China from October 2001 to December 2019. The locations of lung lesions, clinical symptoms, surgical complications, MSCT imaging features, and the corresponding relationship with clinicopathological features were assessed. Then, a new diagnostic approach was defined and used to train imaging and pathological doctors (experimental group). Then, the diagnostic accuracy of the experimental group was evaluated in preoperative and intraoperative diagnosis of PSP.Results: Thirty-four PSP cases were analyzed (mean: 51.42; range: 39–69 years old). The peripheral type was more common, while 92% of the lesions located in the middle lobe of the right lung and the lower lobe of bilateral lungs. The shortest lesion edge-pleura distance ranged 0 to 30 mm and 46% of the lesions (16/34) were attached to the pleura, 62% (21/34) located at 0–5 mm, 92% (31/34) within 20 mm from the pleura. Diameters of the lesions ranged 8.58 to 68.41 mm, while most of them were 20-40 mm. All lesions showed enhancement, and 97% (33/34) were unevenly enhanced. PSP volume was negatively correlated with the total degree of enhancement (r = −0.587, p < 0.01), and the volume difference between the obvious enhancement zone and the slight enhancement zone (r = −0.795, p < 0.01). Welt vessel sign was observed in 61.7% (21/34) of cases, and none of welt vessels entered into the lesions. Vascular-like enhancement area inside the lesion showed no significant correlation with the welt vessels outside the lesion, and no case showed entrance of bronchus into the lesion. The trained experimental group showed significantly greater diagnostic accuracy than the control group. In particular, the accuracy rate of intraoperative frozen section diagnosis was 60% higher in the experimental group than the control group.Conclusion: PSP has characteristic imaging manifestations, which can be utilized to improve the preoperative and intraoperative diagnostic coincidence rate of PSP.

Published

2021

31. Overexpression of a Thioredoxin-Protein-Encoding Gene, MsTRX, from Medicago sativa Enhances Salt Tolerance to Transgenic Tobacco

Author

Xinhang Duan, Zhaoyu Wang, Yu Zhang, Han Li, Mei Yang, Hang Yin, Jing Cui, Hua Chai, Yonghang Gao, Guofu Hu, and Pan Zhang

Subjects

alfalfa, thioredoxin, salt stress, phenotype assay, physiological change, stress-response genes, Agriculture

Abstract

Thioredoxin (TRX) is a small molecule protein that participates in the redox process and plays a decisive role in various functions of plants. However, the role of TRX in Medicago sativa (alfalfa), a widely cultivated perennial herb of legume, is still poorly understood. Here, we isolated MsTRX from alfalfa and determined the characteristics in improving salt tolerance by assaying the phenotype and physiological changes and the expression of stress-response genes in transgenic tobacco. The expression of MsTRX was similar in alfalfa roots, leaves, and inflorescences, and was downregulated in response to cold, drought, and salt treatment. The overexpression of MsTRX in tobacco promoted the accumulation of soluble sugar (SS) and proline; enhanced the activity of peroxidase (POD); and induced the upregulation of beta-amylase 1 (BAM1), lipid-transfer protein 1 (LTP1), candidate signal molecules/sensor relay proteins (CBSX3), superoxide dismutase [Cu-Zn] (Cu/Zn-SOD), superoxide dismutase [Mn] (Mn-SOD), protein gamma response 1 (GR1), dehydrin DHN1-like (ERD10B), and serine/threonine-protein kinase (SnRK2), as well as the downregulation of phyB activation-tagged suppressor1 (BAS1) and serine/threonine-protein kinase that phosphorylates LHCII protein 7 (STN7) under salt stress. These results indicated that MsTRX improves salt tolerance via maintaining osmotic homeostasis, scavenging reactive oxygen species (ROS), and regulating the transcription of stress-response genes in plants. In our study, we provided a new understanding of how MsTRX improves salt stress in plants and how MsTRX can be included in future breeding programs to improve salt tolerance in alfalfa.

Published

2022

32. Comparison of radiologic characteristics and pathological presentations of primary pulmonary lymphoma in 22 patients

Author

Yanchao Wang, Jun Han, Fantao Zhang, Zhaoyu Wang, Dahai Zhao, Xuan Wang, Ningxin Wu, Rongjian Lu, Chongchong Wu, Jie Gao, Lei Pan, and Xinying Xue

Subjects

Medicine (General), R5-920

Abstract

Objective This study was performed to compare the radiologic characteristics and pathological presentations of primary pulmonary lymphoma (PPL), explore the possible mechanism underlying its development, summarize its radiologic characteristics, and improve the accuracy of its diagnosis. Methods The medical records of 22 patients pathologically diagnosed with PPL were retrospectively analyzed. Results Chest computed tomography (CT) demonstrated single or multiple nodules and masses in the lungs, patchy opacities or consolidation along the bronchovascular bundle, and no significantly enlarged mediastinal or hilar lymph nodes. All 22 cases of PPL were classified as non-Hodgkin’s lymphoma (NHL) by transbronchial biopsy, CT-guided needle biopsy, and postoperative pathology. Most (16 cases) were marginal-zone B-cell lymphomas of mucosa-associated lymphoid tissue (MALT). Twelve patients had air bronchograms within the lesion, and 13 showed ill-defined lesions with ground-glass brush-like changes. Conclusion PPL is a rare lung tumor, and most are classified as MALT lymphoma, a subtype of NHL. Chest CT can help to diagnose this disease. Positron emission tomography (PET)/CT is of great clinical value for evaluation of the lesion and patient’s general condition. The possibility of PPL should be considered in patients with characteristic CT and PET/CT findings and mild clinical symptoms, and early treatment should be administered.

Published

2020

33. DNA Methylation Patterns of Chronic Explosive Breaching in U.S. Military Warfighters

Author

Zhaoyu Wang, Caroline M. Wilson, Yongchao Ge, Jeffrey Nemes, Christina LaValle, Angela Boutté, Walter Carr, Gary Kamimori, and Fatemeh Haghighi

Subjects

blast exposure, breacher, epigenetics, DNA methylation, tinnitus, sleep, Neurology. Diseases of the nervous system, RC346-429

Abstract

Background: Injuries from exposure to explosions rose dramatically during the Iraq and Afghanistan wars, which motivated investigation of blast-related neurotrauma. We have undertaken human studies involving military “breachers” —exposed to controlled, low-level blast during a 3-days explosive breaching course.Methods: We screened epigenetic profiles in peripheral blood samples from 59 subjects (in two separate U.S. Military training sessions) using Infinium MethylationEPIC BeadChips. Participants had varying numbers of exposures to blast over their military careers (empirically defined as high ≥ 40, and conversely, low < 39 breaching exposures). Daily self-reported physiological symptoms were recorded. Tinnitus, memory problems, headaches, and sleep disturbances are most frequently reported.Results: We identified 14 significantly differentially methylated regions (DMRs) within genes associated with cumulative blast exposure in participants with high relative to low cumulative blast exposure. Notably, NTSR1 and SPON1 were significantly differentially methylated in high relative to low blast exposed groups, suggesting that sleep dysregulation may be altered in response to chronic cumulative blast exposure. In comparing lifetime blast exposure at baseline (prior to exposure in current training), and top associated symptoms, we identified significant DMRs associated with tinnitus, sleep difficulties, and headache. Notably, we identified KCNN3, SOD3, MUC4, GALR1, and WDR45B, which are implicated in auditory function, as differentially methylated associated with self-reported tinnitus. These findings suggest neurobiological mechanisms behind auditory injuries in our military warfighters and are particularly relevant given tinnitus is not only a primary disability among veterans, but has also been demonstrated in active duty medical records for populations exposed to blast in training. Additionally, we found that differentially methylated regions associated with the genes CCDC68 and COMT track with sleep difficulties, and those within FMOD and TNXB track with pain and headache.Conclusion: Sleep disturbances, as well as tinnitus and chronic pain, are widely reported in U.S. military service members and veterans. As we have previously demonstrated, DNA methylation encapsulates lifetime exposure to blast. The current data support previous findings and recapitulate transcriptional regulatory alterations in genes involved in sleep, auditory function, and pain. These data uncovered novel epigenetic and transcriptional regulatory mechanism underlying the etiological basis of these symptoms.

Published

2020

34. Abundance and characteristics of microplastic in sewage sludge: A case study of Yangling, Shaanxi province, China

Author

Xiuna Ren, Yue Sun, Zhaoyu Wang, Damià Barceló, Quan Wang, Zengqiang Zhang, and Yuanye Zhang

Subjects

Microplastics, Sewage sludge, Abundance, Characteristics, Yangling, Environmental engineering, TA170-171, Chemical engineering, TP155-156

Abstract

Microplastics (MPs), as a new type of pollution, could result in serious environmental pollution due to its special properties. Meanwhile, the damage of MPs to environment could be reflected by the MPs characteristics in sewage sludge, one of dominant sinks of MPs. Therefore, this study investigated the abundance and characteristics of MPs of sewage sludge derived from Yangling, Shaanxi province. Results showed that among of all detected MPs, the particle size ranged from 8 ​μm–1 ​mm, especially 8–400.00 ​μm, accounting for 97.27%. Moreover, the microplastics were dominantly in the shape of fragment in white. Additionally, 41.18% of the microplastics were identified as PVC, which led to higher risk index in Yangling. Furthermore, human density, human activities, environmental factors, and industrial types were responsible for the different details of microplastics in sewage sludge. Concluded from these results, more attention is supposed to pay on MPs pollution in Yangling zone.

Published

2020

35. Blast-Related Mild TBI Alters Anxiety-Like Behavior and Transcriptional Signatures in the Rat Amygdala

Author

Jennifer Blaze, Inbae Choi, Zhaoyu Wang, Michelle Umali, Natalia Mendelev, Anna E. Tschiffely, Stephen T. Ahlers, Gregory A. Elder, Yongchao Ge, and Fatemeh Haghighi

Subjects

mTBI, amygdala, blast, anxiety, transcriptome, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The short and long-term neurological and psychological consequences of traumatic brain injury (TBI), and especially mild TBI (mTBI) are of immense interest to the Veteran community. mTBI is a common and detrimental result of combat exposure and results in various deleterious outcomes, including mood and anxiety disorders, cognitive deficits, and post-traumatic stress disorder (PTSD). In the current study, we aimed to further define the behavioral and molecular effects of blast-related mTBI using a well-established (3 × 75 kPa, one per day on three consecutive days) repeated blast overpressure (rBOP) model in rats. We exposed adult male rats to the rBOP procedure and conducted behavioral tests for anxiety and fear conditioning at 1–1.5 months (sub-acute) or 12–13 months (chronic) following blast exposure. We also used next-generation sequencing to measure transcriptome-wide gene expression in the amygdala of sham and blast-exposed animals at the sub-acute and chronic time points. Results showed that blast-exposed animals exhibited an anxiety-like phenotype at the sub-acute timepoint but this phenotype was diminished by the chronic time point. Conversely, gene expression analysis at both sub-acute and chronic timepoints demonstrated a large treatment by timepoint interaction such that the most differentially expressed genes were present in the blast-exposed animals at the chronic time point, which also corresponded to a Bdnf-centric gene network. Overall, the current study identified changes in the amygdalar transcriptome and anxiety-related phenotypic outcomes dependent on both blast exposure and aging, which may play a role in the long-term pathological consequences of mTBI.

Published

2020

36. Highly Efficient Regioselective Decanoylation of Hyperoside Using Nanobiocatalyst of Fe3O4@PDA-Thermomyces lanuginosus Lipase: Insights of Kinetics and Stability Evaluation

Author

Yanhong Bi, Zhaoyu Wang, Yaoqi Tian, Haoran Fan, Shuo Huang, Yihui Lu, and Zhengyu Jin

Subjects

magnetic nanoparticle, hyperoside, immobilization, Thermomyces lanuginosus lipase, acylation, Biotechnology, TP248.13-248.65

Abstract

The immobilization of Thermomyces lanuginosus lipase on polydopamine-functionalized Fe3O4 magnetic nanoparticles (Fe3O4@PDA-TLL) as a nanobiocatalyst was successfully performed for the first time, and the Fe3O4@PDA-TLL was used for regioselective acylation of natural hyperoside with vinyl decanoate. The effects of several crucial factors, such as the reaction solvent, substrate molar ratio, temperature, and immobilized enzyme dosage, were investigated. Under optimum conditions, the reaction rate, 6″-regioselectivity, and maximum substrate conversion were as high as 12.6 mM/h, 100%, and 100%, respectively. An operational stability study demonstrated that the immobilized enzyme could maintain 90.1% of its initial maximum conversion even after reusing it five times. In addition, further investigations on the kinetic parameters, like Vmax, Km, Vmax/Km, and Ea, also revealed that the biocompatible Fe3O4@PDA could act as an alternative carrier for the immobilization of different enzymes.

Published

2020

37. GbWRKY1, a member of the WRKY transcription factor family identified from Gossypium barbadense, is involved in resistance to Verticillium wilt

Author

Xue Zhang, Jianfeng Liu, Lizhu Wu, Zhaoyu Wang, and Shuling Zhang

Subjects

gbwrky1, wrky transcription factors, cotton, verticillium wilt, disease resistance, Biotechnology, TP248.13-248.65

Abstract

WRKY transcription factors are involved in complex signalling processes that occur during stress responses. However, in contrast to the exploration of such mechanisms in model plants, far less research has focussed on the WRKY family in cotton. We previously identified GbWRKY1 in cotton (Gossypium barbadense), the expression of which is induced upon infection by Verticillium dahliae. Our current results indicate that this gene with three introns, has a group of cis-acting elements in its promoter that are associated with plant growth and development as well as responses to environmental stresses. Here, we used virus-induced gene silencing to characterize the role of GbWRKY1. Silencing in cotton simultaneously up-regulated salicylic acid (SA)-mediated responses and inhibited jasmonate (JA)-inducible and ethylene (ET)-inducible defences, resulting in an increased susceptibility to V. dahliae. However, when compared with wild-type Arabidopsis, transgenic plants exhibited more resistance to infection with V. dahliae. In the latter genotype, expression was increased for pathogen-related PR4 and ACS2, two genes involved in the JA pathway and ET biosynthesis, while expression of PR5, involved in the SA pathway, decreased after V. dahliae infection. Moreover, POD activity and lignin content related to ethylene synthesis in transgenic Arabidopsis were higher than those in wild-type Arabidopsis after V. dahliae infection. Collectively, these findings suggest that GbWRKY1 is regulated by signalling pathways for SA, JA and ET, and mainly involved in resistance to V. dahliae attack by ET signalling pathway the response. This highlights the importance of WRKYs in regulating pathogen-induced responses and plant development.

Published

2019

38. Significantly Enhanced Synthesis of Aromatic Esters of Arbutin Catalyzed by Immobilized Lipase in Co-solvent Systems

Author

Rongling Yang, Zekun Nie, Ningning Xu, Xiangjie Zhao, Zhaoyu Wang, and Hongzhen Luo

Subjects

arbutin, aromatic esters, enzyme catalysis, response surface methodology, co-solvent, Biotechnology, TP248.13-248.65

Abstract

Highly efficient and regioselective synthesis of pharmacologically interesting aromatic esters of arbutin catalyzed by immobilized lipase from Penicillium expansum in co-solvent systems was successfully carried out. As compared to tetrahydrofuran solvent, the initial rate and substrate conversion of arbutin vanilylation were markedly enhanced in tetrahydrofuran-isopropyl ether (20%, v/v). Moreover, the effects of three reaction parameters (enzyme amount, temperature and substrate molar ratio of vinyl vanillic acid to arbutin) on 6′-O-vanilloyl-arbutin synthesis were scrutinized and the key process parameters were optimized using response surface methodology (RSM). The experimental data were fitted well to a second order polynomial model by using multiple regression analysis. The best combination of variables was 50°C, 93 U/mL and 11 for the reaction temperature, the enzyme amount and mole ratio of arbutin to vinyl vanilic acid, respectively, and which the reaction rate, substrate conversion and regioselectivity were as high as 8.2 mM/h, 93 and 99%. It was worth noting that a variety of aromatic esters of arbutin were obtained with much higher conversion (93–99%) at these optimal conditions.

Published

2020

39. Electric Vehicle Charging Planning: A Complex Systems Perspective.

Author

Pengfei Zhao, Shuangqi Li, Zhengmao Li, Zhaoyu Wang 0001, Xue Fei, Zechun Hu, Mohannad Alhazmi, Xiaohe Yan, Chenye Wu, Shuai Lu 0002, Yue Xiang, and Da Xie

Published

2025

40. Relationships between Low-Level Jet and Low Visibility Associated with Precipitation, Air Pollution, and Fog in Tianjin

Author

Tingting Ju, Bingui Wu, Zhaoyu Wang, Jingle Liu, Dehua Chen, and Hongsheng Zhang

Subjects

LLJs, low visibility, pollution, turbulence, water vapor channel, Meteorology. Climatology, QC851-999

Abstract

In this study, relationships between low-level jet (LLJ) and low visibility associated with precipitation, air pollution, and fog in Tianjin are investigated based on observational data from January to December, 2016. Statistical results show 55% of precipitation is accompanied by LLJ, and two causes responsible for the relatively high percentage are presented. The result of case analysis shows that some southwesterly LLJs are favorable for the formation of precipitation by transporting water vapor when the water vapor channel from the South China Sea or Bengal Bay to Bohai Rim region is established. Statistical results show 55% of pollution episodes (PEs) are accompanied by LLJs. When pollutions are observed in the southern industrial regions, nocturnal southwesterly LLJ, which can carry polluted air masses from polluted regions to Tianjin and induce turbulent mixing, can enhance surface PM2.5 concentration and is favorable for the formation of surface pollution at night. Nocturnal northerly or southeasterly LLJ leads to clear air masses mixing with polluted air masses and is favorable for increasing visibility. Contributions of southwesterly LLJs to the formation of fog and precipitation are similar, which both rely on establishing the water vapor channel despite occurrence heights of LLJs being different.

Published

2020

41. Thermal Conductivity of Dry Sands Treated with Microbial-Induced Calcium Carbonate Precipitation

Author

Zhaoyu Wang, Nan Zhang, Fei Lin, Jinhua Ding, and Huimin Yang

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

With an increasing energy demand, exploration and utilization of new energy resources become more significant recently. Geothermal energy, characterized as a clean, renewable, and sustainable energy, has various engineering applications. Microbial-induced calcium carbonate precipitation (MICP) technique has a potential to improve soil thermal properties for geothermal applications. In this study, thermal conductivity of dry sands treated using MICP technique with different treatment cycles was investigated in laboratory. The results showed that thermal conductivity of MICP-treated sands was much higher than that of the untreated sand under dry condition and it increased with increasing treatment cycles. Based on the scanning electron microscopy (SEM) analyses, it is found MICP-induced CaCO3 crystals are being formed among sand particles functioned as “thermal bridge,” which provided more highly effective heat transfer path. It is concluded that the MICP technique could significantly improve the thermal conductivity of sands and the overall heat transfer efficiency. It is advantageous to use MICP-treated soils as enhanced grout materials for underground energy geostructures.

Published

2019

42. Fog Droplet Size Distribution and the Interaction between Fog Droplets and Fine Particles during Dense Fog in Tianjin, China

Author

Qing Liu, Bingui Wu, Zhaoyu Wang, and Tianyi Hao

Subjects

fog droplet size distribution, fog, atmospheric fine particles, liquid water content, pm2.5, fog droplet spectrum, Meteorology. Climatology, QC851-999

Abstract

From November 2016 to January 2017, there were large-scale dense fog processes in Tianjin area on the west coast of Bohai Bay, China, even strong dense fog with visibility less than 50 m occurred. Based on the observation data of fog droplet spectrum monitor, visibility sensor, environmental particle monitoring equipment and meteorological automatic station, the characteristics of fog droplet size distribution and the interaction between the fog droplets and fine particles during dense fog events were analyzed. The results show following characteristics: (1) The average concentration of fog droplets (Na), the average liquid water content (La) and the maximum liquid water content (Lmax) in the strong dense fog process are larger than those in the dense fog. The average spectrum of fog droplet size distribution conforms to Junge distribution, and they are all broad-spectrum fog with a spectrum width of about 45 μm. The average spectrum is similar to the dense fog of heavily industrialized inland in the world. (2) The maximum of fog droplet diameter during the formation stage have a good indication for the outbreak of strong dense fog. (3) The mass concentration of PM2.5 (CPM2.5) is ranged from 121−375 μg/m3, and the interaction between fog droplets and fine particles is analyzed. During the formation, development and maturity stages, fog process can scavenge atmospheric fine particles, and the scavenging efficiency of PM2.5 is more remarkable than PM10. When CPM2.5 does not exceed 350 μg/m3, the increase in the concentration of fine particles is conducive to the rapid growth of fog droplets and the sharp drop of visibility. However, when CPM2.5 exceeds the critical value, the increase has a negative feedback effect on the development of the fog process. More investigations and cases are necessary to fully assess the mechanisms related to the dense fog events in Tianjin area and further analysis will be done.

Published

2020

43. Experimental Study on Wind Erosion Resistance and Strength of Sands Treated with Microbial-Induced Calcium Carbonate Precipitation

Author

Zhaoyu Wang, Nan Zhang, Jinhua Ding, Chen Lu, and Yong Jin

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Wind erosion phenomenon is commonly encountered in desert areas, which is harmful to engineering constructions and environment. This study proposed an innovative microbial-induced calcium carbonate precipitation (MICP) technique to reinforce sands for mitigating natural hazards caused by the wind erosion. A series of small-scale laboratory experiments were performed to evaluate wind erosion resistance of MICP-treated sands with different treatment cycles. The spraying method was used to treat sand specimens, and unconfined compression (UCC) strength tests were also conducted to assess the performance of the MICP technique. Experimental results revealed that the bulk density of treated sand was slightly increased with the number of MICP treatment cycles. Additionally, the wind erosion rate of treated sands was significantly decreased, and the UCC strength was increased (maximum to 4 MPa) with the number of treatment cycles, which was mainly attributed to the bonding effect from the microbial-induced CaCO3 crystals among sand particles based on the scanning electron microscopy (SEM) analyses. Such effect also facilitated to form a hard protection layer on top of the sand specimen in order to improve the wind erosion resistance of MICP-treated sands. This technique provides an alternative method to mitigate and prevent the aggravation of desertification.

Published

2018

44. Establishment of A Clinical Prediction Model of Solid Solitary Pulmonary Nodules

Author

Wei YU, Bo YE, Liyun XU, Zhaoyu WANG, Hanbo LE, Shanjun WANG, Hanbo CAO, Zhenda CHAI, Zhijun CHEN, Qingquan LUO, and Yongkui ZHANG

Subjects

Solitary pulmonary nodules (SPNs), Prediction model, Independent predictors, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background and objective The solitary pulmonary nodule (SPN) is a common and challenging clinical problem, especially solid SPN. The object of this study was to explore the predictive factors of SPN appearing as pure solid with malignance and to establish a clinical prediction model of solid SPNs. Methods We had a retrospective review of 317 solid SPNs (group A) having a final diagnosis in the department of thoracic surgery, Shanghai Chest Hospital from January 2015 to December 2015, and analyzed their clinical data and computed tomography (CT) images, including age, gender, smoking history, family history of cancer, previous cancer history, diameter of nodule, nodule location (upper lobe or non-upper lobe, left or right), clear border, smooth margin, lobulation, spiculation, vascular convergence, pleural retraction sign, air bronchogram sign, vocule sign, cavity and calcification. By using univariate and multivariate analysis, we found the independent predictors of malignancy of solid SPNs and subsequently established a clinical prediction model. Then, another 139 solid SPNs with a final diagnosis were chosen in department of Cardiothoracic Surgery, Affiliated Zhoushan Hospital of Wenzhou Medical University as group B, and used to verify the accuracy of the prediction model. Receiver-operating characteristic (ROC) curves were constructed using the prediction model. Results Multivariate Logistic regression analysis was used to identify eight clinical characteristics (age, family history of cancer, previous cancer history, clear border, lobulation, spiculation, air bronchogram sign, calcification) as independent predictors of malignancy of in solid SPNs. The area under the ROC curve for our model (0.922; 95%CI: 0.865-0.961). In our model, diagnosis accuration rate was 84.89%. Sensitivity was 90.41%, and specificity was 78.79%, and positive predictive value was 80.50%, and negative predictive value was 88.14%. Conclusion Our prediction model could accurately identify malignancy in patients with solid SPNs, thereby it can provide help for diagnosis of solid SPNs.

Published

2016

45. Patch-Based Transformer Network Construction With Adaptive Feature-Interaction for Hyperspectral Image Classification.

Author

Zhaoyu Wang, Yunbo Li, Yuebin Wang, Haiyan Gu, and Liqiang Zhang 0001

Published

2024

46. Voltage Calculations in Secondary Distribution Networks via Physics-Inspired Neural Network Using Smart Meter Data.

Author

Liming Liu, Naihao Shi, Dingwei Wang, Zixiao Ma, Zhaoyu Wang 0001, Matthew J. Reno, and Joseph A. Azzolini

Published

2024

47. PP-CSA: Practical Privacy-Preserving Software Call Stack Analysis.

Author

Zhaoyu Wang, Pingchuan Ma 0004, Huaijin Wang 0001, and Shuai Wang 0011

Published

2024

48. IoT Real-Time Production Monitoring and Automated Process Transformation in Smart Manufacturing.

Author

Xiangqian Wang, Haifeng Hu, Yuyao Wang, and Zhaoyu Wang

Published

2024

49. Pas: a scale-invariant approach to maritime search and rescue object detection using preprocessing and attention scaling.

Author

Shibao Li, Chen Li, Zhaoyu Wang, Zekun Jia, Jinze Zhu, Xuerong Cui, and Jianhang Liu

Published

2024

50. Data-Driven Affinely Adjustable Robust Volt/VAr Control.

Author

Naihao Shi, Rui Cheng 0002, Liming Liu, Zhaoyu Wang 0001, Qianzhi Zhang, and Matthew J. Reno

Published

2024