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Your search keyword '"Hao, Mengyuan"' showing total 34 results
Start Over Author "Hao, Mengyuan" Publication Type Academic Journals
34 results on '"Hao, Mengyuan"'

15. Experiences of Rural-Dwelling Children Wearing Physical Activity Trackers: An Exploratory Study.

Author

Bray, Katy, Hao, Mengyuan, Lelo, Veronica, Katz, Heather, Pickett, Kristen A., and Andreae, Susan J.

Abstract

Background/Objectives: Although there is a need for evidence-based physical activity programs in rural communities, evaluating such programs is often challenging due to access-related barriers and measurement tools that are not designed for rural contexts. This study aimed to explore and better understand the day-to-day experiences of rural-dwelling children using wrist-worn PA trackers as part of a study to develop a health promotion program. Methods: Ten caregivers and child dyads were enrolled (n = 20). The children wore accelerometers pre- and post-intervention. Semi-structured interviews were completed post-intervention and were audio recorded, transcribed, and summary reports were generated based on recurring themes. Results: The children had a mean age of 8.7 (SD = 1.4) years and the majority were male (80%). The caregivers were female, white, and had a mean age of 43.6 (SD = 8.5) years, with an annual income of ≥USD 40,000. Factors contributing to device wear times included low caregiver burden, device functioning as a watch, and device interactivity. The children reported that the devices were acceptable, but may have changed their physical activity behaviors, with children regularly checking their step count. The caregivers preferred devices that monitored the children's activity levels without sharing location data. Conclusions: Identifying acceptable and feasible strategies to measure physical activity is vital to developing effective health promotion efforts. The lessons learned may help develop evaluation plans for implementing rural physical activity programming. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Resting cell formation in the marine diatom Thalassiosira pseudonana.

Author

Wang, Guangning, Huang, Lu, Zhuang, Shanshan, Han, Fang, Huang, Qianqian, Hao, Mengyuan, Lin, Guifang, Chen, Longnan, Shen, Biying, Li, Feng, Li, Xuesong, Chen, Changping, Gao, Yahui, Mock, Thomas, and Liang, Junrong

Subjects
METABOLIC reprogramming, CHLOROPLAST formation, CELL survival, DIATOMS, ENERGY consumption
Abstract

Summary: Resting cells represent a survival strategy employed by diatoms to endure prolonged periods of unfavourable conditions. In the oceans, many diatoms sink at the end of their blooming season and therefore need to endure cold and dark conditions in the deeper layers of the water column. How they survive these conditions is largely unknown.We conducted an integrative analysis encompassing methods from histology, physiology, biochemistry, and genetics to reveal the biological mechanism of resting‐cell formation in the model diatom Thalassiosira pseudonana.Resting‐cell formation was triggered by a decrease in light and temperature with subsequent catabolism of storage compounds. Resting cells were characterised by an acidic and viscous cytoplasm and altered morphology of the chloroplast ultrastructure.The formation of resting cells in T. pseudonana is an energy demanding process required for a biophysical alteration of the cytosol and chloroplasts to endure the unfavourable conditions of the deeper ocean as photosynthetic organisms. However, most resting cells (> 90%) germinate upon return to favorable growth conditions. See also the Commentary on this article by von Dassow, 243: 1284–1286. [ABSTRACT FROM AUTHOR]

Published
2024
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24. A Comprehensive Study on the Hydrogeochemical and Isotope Characteristics and Genetic Mechanism of Geothermal Water in the Northern Jinan Region.

Author

Gao, Zongjun, Hao, Mengyuan, Liu, Jiutan, Li, Qiang, Tan, Menghan, and Niu, Yiru

Subjects
*CHEMICAL weathering, *GEOTHERMAL resources, *METEOROLOGICAL precipitation, *ISOTOPES, *RENEWABLE energy sources, *WATER chemistry, *WATER-rock interaction
Abstract

Geothermal water (GW) resources are highly valued as clean, renewable energy sources. In this study, a comprehensive analysis of water chemistry and isotope data from 25 GW samples was conducted to gain insights into the hydrochemical characteristics and formation mechanisms of the GW in the northern Jinan region (NJR). Statistical analysis and hydrochemical methods were employed for relevant analysis. The findings reveal that the GW in the NJR exhibits high salinity, with an average total dissolved solids (TDS) concentration of 9009.00 mg/L. The major ions identified are Na+ and Cl−, with mean concentrations of 2829.73 mg/L and 4425.77 mg/L, respectively, resulting in a hydrochemical type of Cl−Na. The analysis of δ2H and δ18O isotopes indicates that the GW originates from atmospheric precipitation that undergoes deep cycling and interaction with older groundwater. The composition of 3H suggests that the GW in the NJR is a mixture of waters, while radiocarbon dating (14C) suggests that the recharge of the GW may have occurred in the late Pleistocene era. The GW in the NJR is classified as partially equilibrated waters. The temperature range of geothermal reservoirs is 57.13 to 99.74 °C. The hydrochemical components primarily result from water–rock interactions, including silicate weathering, cation exchange, as well as carbonate weathering and the dissolution of halite and gypsum. Moreover, taking into account the hydrogeological conditions, hydrochemistry, and isotope analysis, a conceptual model of the geothermal reservoir in the NJR was developed. The research findings serve as a valuable reference and foundation for the development and utilization of geothermal resources in the Jinan region. These originate from the Taiyi mountains in the south or the Taihang mountains in the west, and experience deep circulation and long runoff times. This study provides a reference for the sustainable development and utilization of regional geothermal resources. [ABSTRACT FROM AUTHOR]

Published
2023
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25. Microstructural evolution of gas bubbles and thermal conductivity in UO2-BeO bicrystal.

Author

Liang, Chuanxin, Su, Yunting, Hao, Mengyuan, Dong, Tianjiao, Gong, Hengfeng, Liu, Wenbo, and Wang, Dong

Subjects
NUCLEAR fuels, DISCONTINUOUS precipitation, CRYSTAL grain boundaries, BUBBLES, THERMAL conductivity, GRAIN size, GASES
Abstract

UO2-BeO is an important composite nuclear fuel with high thermal conductivity. The impact of grain boundaries between UO2-UO2 and phase boundaries between UO2-BeO on the bubble evolution and the thermal conductivity in nuclear fuels is significant. In this study, we utilize a 3D phase field model to examine the influence of these boundaries on the nucleation and growth of bubbles in a bicrystalline UO2-BeO. Our simulations reveal that the diffusion of vacancies and gas atoms towards the phase boundaries results in bubbles preferentially forming at the phase boundaries. Intergranular bubbles possess an asymmetrical lectical shape due to the long-range diffusion-controlled boundary migration and the different defect production rate on the both sides. Spherical intragranular bubbles appear after the intergranular bubbles with high defects production rates and large grain size. The effective thermal conductivity decreases with the irradiation time and shows three distinct stages for systems that have both inter- and intragranular bubbles. [ABSTRACT FROM AUTHOR]

Published
2023
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27. Visualizing chiral structures in cellulose nanocrystal films by a Mueller matrix microscope.

Author

Feng, Xiaowei, Wang, Ting, Hao, Mengyuan, Xue, Nichang, Zhu, Haidan, Tian, Yang, and Cui, Xiaoyan

Subjects
MUELLER calculus, CELLULOSE, MICROSCOPES
Abstract

Visualizing chiral structures in solid materials is crucial but difficult in chiral analysis. The three-dimensional structures in the helicoidal nano-assemblies in cellulose nanocrystal (CNC) films were visualized using a Mueller matrix microscope (MMM). Optical analysis of the assembly of CNCs through structural reconstruction by optical simulation revealed the complex structures in CNC films. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Modifying Anti-Compression Property and Water-Soluble Ability of Polyglycolic Acid via Melt Blending with Polyvinyl Alcohol.

Author

Wei, Liao, Ma, Shuyue, Hao, Mengyuan, Ma, Lanrong, and Lin, Xiang

Subjects
POLYVINYL alcohol, THERMAL instability, COMPRESSION loads, BIODEGRADABLE materials, POLLUTION, MELTING, POLYMER blends
Abstract

Biodegradable polymeric materials have become the most attractive research interest in recent years and are gradually widely used in various fields in the case of environmental pollution. In this paper, binary blends, mainly including varying contents of polyglycolic acid (PGA) and poly(vinyl alcohol) (PVA), were prepared via a melt compounding strategy. The ethylene-methyl acrylate-glycidyl methacrylate (EMA-GMA) was employed as the compatibilizer to improve the compatibility between the PGA and PVA and the polyolefin elastomer (POE) was used as toughening agent. The anti-compression property and water-soluble ability of the blends were particularly studied to explore their potential application in an oil/gas exploitation field. Special attentions were paid to the evolution of the water-soluble ability of PGAX with the PVA concentration. Furthermore, isothermal shear measurement and thermogravimetric analysis were performed to evaluate the thermal stability of PGA and PGA blends (PGAX) during melt processing. The results showed that the incompatibility between PGA and PVA largely deteriorated the mechanical property, i.e., anti-compression strength, leading to fragile characteristics under a lower compressive load for the PGAX samples with varied contents of PVA. The presence of PVA and EMA-GMA greatly enhanced the viscoelasticity of the PGA melt, showing an increased storage modulus and viscosity at a low shear frequency; however, the thermal instability of PGAX was intensified owing to the greater ease of thermal degradation of PVA than that of PGA. Meanwhile, the water-soluble ability of PGAX was improved due to the high water dissolution of PVA, which played the role as a sacrificial material. The purpose of this work is to pursue an effective modification for PGA processing and application via melt blending. [ABSTRACT FROM AUTHOR]

Published
2022
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29. A New Method for Rapid Subcellular Localization and Gene Function Analysis in Cotton Based on Barley Stripe Mosaic Virus.

Author

Chen, Weiwei, Huang, Chaolin, Luo, Chenmeng, Zhang, Yongshan, Zhang, Bin, Xie, Zhengqing, Hao, Mengyuan, Ling, Hua, Cao, Gangqiang, Tian, Baoming, Wei, Fang, and Shi, Gongyao

Subjects
MOSAIC viruses, GOLGI apparatus, COTYLEDONS, GENETIC overexpression, FUNCTIONAL genomics, BARLEY
Abstract

The difficulty of genetic transformation has restricted research on functional genomics in cotton. Thus, a rapid and efficient method for gene overexpression that does not rely on genetic transformation is needed. Virus-based vectors offer a reasonable alternative for protein expression, as viruses can infect the host systemically to achieve expression and replication without transgene integration. Previously, a novel four-component barley stripe mosaic virus (BSMV) was reported to overexpress large fragments of target genes in plants over a long period of time, which greatly simplified the study of gene overexpression. However, whether this system can infect cotton and stably overexpress target genes has not yet been studied. In this study, we verified that this new BSMV system can infect cotton through seed imbibition and systemically overexpress large fragments of genes (up to 2340 bp) in cotton. The target gene that was fused with GFP was expressed at a high level in the roots, stems, and cotyledons of cotton seedlings, and stable fluorescence signals were detected in the cotton roots and leaves even after 4 weeks. Based on the BSMV overexpression system, the subcellular localization marker line of endogenous proteins localized in the nucleus, endoplasmic reticulum, plasma membrane, Golgi body, mitochondria, peroxisomes, tonoplast, and plastids were quickly established. The overexpression of a cotton Bile Acid Sodium Symporter GhBASS5 using the BSMV system indicated that GhBASS5 negatively regulated salt tolerance in cotton by transporting Na+ from underground to the shoots. Furthermore, multiple proteins were co-delivered, enabling co-localization and the study of protein–protein interactions through co-transformation. We also confirmed that the BSMV system can be used to conduct DNA-free gene editing in cotton by delivering split-SpCas9/sgRNA. Ultimately, the present work demonstrated that this BSMV system could be used as an efficient overexpression system for future cotton gene function research. [ABSTRACT FROM AUTHOR]

Published
2022
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30. A Methodological Advance of Tobacco Rattle Virus-Induced Gene Silencing for Functional Genomics in Plants.

Author

Shi, Gongyao, Hao, Mengyuan, Tian, Baoming, Cao, Gangqiang, Wei, Fang, and Xie, Zhengqing

Subjects
GENE silencing, FUNCTIONAL genomics, GENETIC vectors, CROP improvement, PLANT species
Abstract

As a promising high-throughput reverse genetic tool in plants, virus-induced gene silencing (VIGS) has already begun to fulfill some of this promise in diverse aspects. However, review of the technological advancements about widely used VIGS system, tobacco rattle virus (TRV)-mediated gene silencing, needs timely updates. Hence, this article mainly reviews viral vector construction, inoculation method advances, important influential factors, and summarizes the recent applications in diverse plant species, thus providing a better understanding and advice for functional gene analysis related to crop improvements. [ABSTRACT FROM AUTHOR]

Published
2021
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31. Facile preparation of ultraviolet resistant "hard armors" on poly(p-phenylene benzobisoxazole) fibers through heat-induced surface treatment.

Author

Hao, Mengyuan, Hu, Zhen, Zhang, Yonggang, Qian, Xin, Liu, Li, Yang, Jiaming, Wang, Xuefei, Zhi, Jianhai, Huang, Yudong, and Shi, Xiaolu

Subjects
*SURFACE preparation, *LEAD oxides, *MOLECULAR vibration, *YOUNG'S modulus, *HEAT treatment, *FIBERS, *EPOXY resins
Abstract

• The coaxial poly(p-phenylene benzobisoxazole) fibers with ultraviolet resistant "hard armors" were prepared through heat treatment. • The transformation of UV sensitive oxazole groups into non-conjugated six membered ring structures could be achieved in the fiber surface. • Fiber's UV-resistance effect has significantly improved with over 90% strength retention after 800 h UV aging. • The 33.5% increase of Young's modulus, 74% increase of compressive strength and 64% interfacial shearing strength (IFSS) improvement were achieved. In terms of high-performance organic fibers such as poly(p-phenylene benzobisoxazole) (PBO) fiber, the anti-ultraviolet (UV) property is crucial for their applications in extreme conditions. In this work, excellent UV resistance was obtained through creating a thermal oxidized PBO sheath on PBO fiber. In detail, the peripheral UV sensitive oxazole groups were transformed into non-conjusix-memberedmbered rings after heat-induced gradient thermal oxidation, which could reduce the UV sensitivity of PBO fiber and release energy produced by UV radiation through molecular vibration. The efficiency had been verified through UV-aging tests, and the results indicated that more than 90% of the fiber's tensile strength was retained and the surface defects after 800 h UV aging was also effectively decreased. There were also considerable improvements in the mechanical properties of PBO fiber. For instance, Young's modulus and compressive strength of PBO fiber increased by 33.5% and 74%, respectively, along with the absence of yield zone. Meanwhile, the interfacial shearing strength (IFSS) of PBO reinforced epoxy resin composites increased by 64% with the introduction of non-conjugated structure. The inhomogeneous reduction in rigid-rod backbones resulted in the maintenance of internal microfibrils and decrease in peripheral microfibrils, and accordingly relieved the compressive damage. Enhancement of its interfacial property possibly resulted from increased surface roughness and decreased inert rigid-rod structure. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Enhanced mechanical properties of Ti-5Al-5Mo-5V-3Cr-1Zr by bimodal lamellar precipitate microstructures via two-step aging.

Author

Wang, Yalong, Hao, Mengyuan, Li, Dian, Li, Pei, Liang, Qianglong, Wang, Dong, Zheng, Yufeng, Sun, Qiaoyan, and Wang, Yunzhi

Subjects
*MICROSTRUCTURE, *HEAT treatment, *DISCONTINUOUS precipitation, *TITANIUM alloys, *DUCTILITY
Abstract

The formation of ultra-fine α precipitates in β-titanium alloys can significantly improve strength but may lead to rupture and low ductility. Here, we propose a simple two-step aging heat treatment to design a bimodal microstructure with distinctively different populations of fine-scale and coarse α precipitates in Ti-5Al-5Mo-5V-3Cr-1Zr (Ti-55531, wt. %) by involving two transformation mechanisms, i.e., classical nucleation and growth, and pseudo-spinodal decomposition. Such a multi-scale α microstructure exhibits a synergistic combination of yield strength (∼1.1 GPa) and ductility (∼19.5% elongation). TEM characterization shows that the appearance of deformation twins in coarse α precipitates contribute to increased ductility, and the higher strength may be attributed to dislocation tangles in fine-scale α precipitates. Our work provides a new strategy to overcome the strength-ductility trade-off by designing a heterogeneous microstructure. • Bimodal lamellar α precipitate microstructures in Ti-alloys are designed via two-step aging. • Such a heterogeneous microstructure exhibits a superior combination of strength and ductility. • The good combination can be attributed to the deformation twins in coarse α precipitates and the dislocation tangles in fine α precipitates. [ABSTRACT FROM AUTHOR]

Published
2022
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33. Study on the Genetic Mechanism of Carbonate Rock Type Hot Mineral Water-A Case Study of Diaozhen, Jinan.

Author

Hao M, Tang T, Lu C, Jiang Y, Cui Y, and Dong F

Abstract

Geothermal resources are one of the most valuable resources in renewable energy because of their advantages of green environmental protection, stability, and reliability. Carbonate rock type geothermal reservoirs have great research significance. Carbonate rock type geothermal resources are abundant in the Shandong area. In this paper, we take the carbonate-type geothermal reservoir in the Diaozhen area of Jinan City as the research object, analyze the regional geothermal geological conditions, and identify the geological structure. Through physical logging exploration, hydrochemical analysis, isotope testing, and drilling exploration, we reveal the geothermal genesis mechanism and construct the genetic model of the carbonate geothermal system. The results show that Diaozhen area belongs to a low-temperature geothermal field and weak open karst thermal reservoir and that the reservoir is mainly Ordovician Majiagou group limestone. The thermal insulation caprock is the overlying Quaternary and Neogene strata with a cumulative thickness of 1376 m. The results of geophysical exploration wells and drilling data verify that the Mingshui fracture is seen around 1630-1645m, and the diorite intrusion is seen at 1610m. The Mingshui fracture connects the deep and shallow aquifers and is a geothermal fluid migration channel. The geothermal water in the Diaozhen area is mainly from the recharge of atmospheric precipitation, with a rich ion content and easy enrichment of trace elements. The regional thermal reservoir is mainly recharged by the deep circulation lateral runoff of Ordovician karst water. After long-distance deep circulation migration, groundwater continuously absorbs heat from the surrounding rock and is heated to geothermal raw water in the deep part. Deep geothermal water rises along the water-conducting fracture and mixes with shallow cold water to form shallow, low-temperature geothermal water., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published
2024
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34. Analysis of CRISPR-Cas System in Streptococcus thermophilus and Its Application.

Author

Hao M, Cui Y, and Qu X

Abstract

CRISPR-Cas (Clustered regularly interspaced short palindromic repeats-CRISPR associated proteins) loci, which provide a specific immunity against exogenous elements, are hypervariable among distinct prokaryotes. Based on previous researches, this review focuses on concluding systematical genome editing protocols in Streptococcus thermophilus. Firstly, its protocols and optimized conditions in gene editing are introduced. What's more, classification and diversity analyses of S. thermophilus CRISPR-Cas benefit the further understanding of evolution relationship among Streptococcus. Ability of its foreign segment integration and spacer source analyses also indicate a new direction of phage resistance. Above all, all of these point out its potential to be regarded as another model system other than type II CRISPR-Cas in Streptococcus pyogenes .

Published
2018
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