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1. Clinical insights into tooth extraction via torsion method: a biomechanical analysis of the tooth-periodontal ligament complex

Author

Jiawei Xing, Guangzeng Zhang, Mingliang Sun, Hao Pan, Congdi Zhang, Yao Liu, Kehan Li, Ze He, Kailiang Zhang, Jizeng Wang, En Luo, and Baoping Zhang

Subjects
biomechanics, periodontal ligament, minimally invasive dentistry, finite element analysis, oral surgery, Biotechnology, TP248.13-248.65
Abstract

Traditionally, extracting single, flat- or curved-rooted teeth through twisting is unfeasible. However, our clinical practice suggests that such teeth can be extracted efficiently through moderate twisting in a minimally invasive manner. Given the lack of studies on biomechanics of the tooth–periodontal ligament (PDL) complex during torsion, which has further constrained its application, we assessed the feasibility of the torsion method for extracting single-rooted teeth and evaluated its minimally invasive potential. Using three-dimensional finite element analysis, we examined the stress distribution of the tooth and PDL during torsion. Then, we examined changes in the optimal torsion angle (OTA) and stress distribution across various anatomical scenarios. During torsion loading, stress concentration was primarily observed on the sing-rooted tooth surface near the alveolar crest, whereas molars at the root furcation. The OTA was found to increase under conditions such as narrowing of root width, decrease in the root apical curvature, change from type I to IV bone, alveolar bone loss, and shortening of root length. Moreover, the clinically validated model demonstrated that 74% of outcomes fell within the standard OTA range. In conclusion, the decrease in PDL area necessitated a larger angle for complete PDL tearing. Single-rooted teeth with root width-to-thickness ratios of ≥0.42 and apical curvatures of ≤30°are suitable for extraction using the torsion method. This study confirms the feasibility of the torsion method for minimally invasive tooth extraction and expands its indications, laying the theoretical foundation and essential insights for its clinical application.

Published
2024
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2. Isocorydine Exerts Anticancer Activity by Disrupting the Energy Metabolism and Filamentous Actin Structures of Oral Squamous Carcinoma Cells

Author

Qiaozhen Zhou, Qianqian Zhang, Lingzi Liao, Qian Li, Huidan Qu, Xinyu Wang, Ying Zhou, Guangzeng Zhang, Mingliang Sun, Kailiang Zhang, and Baoping Zhang

Subjects
isocorydine, oral squamous cell carcinoma, anticancer activity, energy metabolism, Biology (General), QH301-705.5
Abstract

Isocorydine (ICD) exhibits strong antitumor effects on numerous human cell lines. However, the anticancer activity of ICD against oral squamous cell carcinoma (OSCC) has not been reported. The anticancer activity, migration and invasion ability, and changes in the cytoskeleton morphology and mechanical properties of ICD in OSCC were determined. Changes in the contents of reactive oxygen species (ROS), the mitochondrial membrane potential (MMP), ATP, and mitochondrial respiratory chain complex enzymes Ⅰ–Ⅳ in cancer cells were studied. ICD significantly inhibited the proliferation of oral tongue squamous cells (Cal-27), with an IC50 of 0.61 mM after 24 h of treatment. The invasion, migration, and adhesion of cancer cells were decreased, and cytoskeletal actin was deformed and depolymerized. In comparison to an untreated group, the activities of mitochondrial respiratory chain complex enzymes I-IV were significantly decreased by 50.72%, 27.39%, 77.27%, and 73.89%, respectively. The ROS production increased, the MMP decreased by 43.65%, and the ATP content decreased to 17.1 ± 0.001 (mmol/mL); ultimately, the apoptosis rate of cancer cells increased up to 10.57% after 24 h of action. These findings suggest that ICD exerted an obvious anticancer activity against OSCC and may inhibit Cal-27 proliferation and growth by causing mitochondrial dysfunction and interrupting cellular energy.

Published
2024
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3. LayerCFL: an efficient federated learning with layer-wised clustering

Author

Jie Yuan, Rui Qian, Tingting Yuan, Mingliang Sun, Jirui Li, and Xiaoyong Li

Subjects
Federated learning, Clustered federated learning, Non-IID, Layer-wised clustering, Computer engineering. Computer hardware, TK7885-7895, Electronic computers. Computer science, QA75.5-76.95
Abstract

Abstract Federated Learning (FL) suffers from the Non-IID problem in practice, which poses a challenge for efficient and accurate model training. To address this challenge, prior research has introduced clustered FL (CFL), which involves clustering clients and training them separately. Despite its potential benefits, CFL can be computationally and communicationally expensive when the data distribution is unknown beforehand. This is because CFL involves the entire neural networks of involved clients in computing the clusters during training, which can become increasingly time-consuming with large-sized models. To tackle this issue, this paper proposes an efficient CFL approach called LayerCFL that employs a Layer-wised clustering technique. In LayerCFL, clients are clustered based on a limited number of layers of neural networks that are pre-selected using statistical and experimental methods. Our experimental results demonstrate the effectiveness of LayerCFL in mitigating the impact of Non-IID data, improving the accuracy of clustering, and enhancing computational efficiency.

Published
2023
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4. Bioinformatics study of the potential therapeutic effects of ginsenoside Rh3 in reversing insulin resistance

Author

Yayun Wang, Dongming Wu, Yongxin Wang, Jingwen Sun, Xiaona Wang, Yanqin Huang, and Mingliang Sun

Subjects
ginsenoside Rh3, insulin resistance, bioinformatics analysis, metabolic syndrome, molecular docking, Biology (General), QH301-705.5
Abstract

BackgroundIn recent years, the incidence of insulin resistance is increasing, and it can cause a variety of Metabolic syndrome. Ginsenosides have been clinically proven to improve fat metabolism and reduce insulin resistance, but their components and mechanism of action are still unclear.ObjectiveGinsenoside, a bioactive compound derived from ginseng, exhibits significant potential in treating obesity, diabetes, and metabolic disorders. Despite evidence supporting its efficacy in ameliorating insulin resistance (IR) in obesity, the specific bioactive components and underlying mechanisms remain obscure. In this study, we endeavored to elucidate the potential molecular targets and pathways influenced by ginsenoside Rh3 (GRh3) to ameliorate IR in liver tissue. We employed a comprehensive approach that integrates system pharmacology and bioinformatics analysis.Materials and methodsOur methodology involved the identification of candidate targets for GRh3 and the profiling of differentially expressed genes (DEGs) related to IR in individuals with insulin resistance. The coalescence of candidate targets and DEGs facilitated the construction of a “GRh3-targets-disease” network for each tissue type, ultimately yielding 38 shared target genes. Subsequently, we conducted pathway enrichment analysis, established protein-protein interaction (PPI) networks, and identified hub targets among the GRh3 targets and IR-related DEGs. Additionally, we conducted animal experiments to corroborate the role of these hub targets in the context of GRh3.ResultsOur investigation identified a total of 38 overlapping targets as potential candidates. Notably, our analysis revealed crucial hub targets such as EGFR, SRC, ESR1, MAPK1, and CASP3, alongside implicated signaling pathways, including those related to insulin resistance, the FoxO signaling pathway, the PPAR signaling pathway, and the IL-17 signaling pathway. This study establishes a robust foundation for the mechanisms underlying GRh3’s efficacy in mitigating IR. Furthermore, these results suggest that GRh3 may serve as a representative compound within the ginsenoside family.ConclusionThis study elucidates the potential molecular targets and associated pathways through which GRh3 ameliorates IR, showcasing its multifaceted nature, spanning multiple targets, pathways, and mechanisms. These findings establish a robust foundation for subsequent experimental inquiries and clinical applications.

Published
2024
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5. Association between Glycosylated Hemoglobin and Serum Uric Acid: A US NHANES 2011–2020

Author

Huan Li, Mingliang Sun, Chengcheng Huang, Jingwu Wang, and Yanqin Huang

Subjects
Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Background. Serum uric acid (SUA) and glycosylated hemoglobin (HbA1c) were closely related to the body’s metabolism. This study aimed to investigate the relationship between HbA1c and SUA in adults. Methods. This study selected 7293 participants aged ≥20 from 2011 to 2020 in the National Health and Nutrition Examination Survey (NHANES). The multivariate linear regression model was used to test the association between HbA1c and SUA. Subgroup analysis was performed according to age, gender, race, and body mass index (BMI). This study solved the relationship between HbA1c and SUA by fitting a smooth curve. Finally, the inflection point in the nonlinear relationship was calculated by the recursive algorithm, and the relationship between HbA1c and SUA on both sides of the inflection point was analyzed by the two-segment piecewise linear regression model. Results. All 7293 participants found a negative correlation between HbA1c and SUA by completely adjusting the model (β = −7.93 and 95% CI: −9.49–−6.37). In addition, when this study was stratified by gender, age, race, and BMI status, this negative correlation was still statistically significant. In the subgroup analysis, we found that the relationship between the two had different results due to gender differences. In men, HbA1c had a significant negative correlation with SUA. However, in women, the HbA1c value was positively correlated with SUA before 6.8%, and the HbA1c value was negatively correlated with SUA after 6.8%, which indicates that the relationship between HbA1c and SUA in women has changed in prediabetes and diabetes. Conclusion. This study shows that HbA1c is positively correlated with SUA in American adults before 7%. There is a negative correlation after the HbA1c value of 7%.

Published
2024
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6. Analysis of shale pore structure characteristics based on nitrogen adsorption experiment and fractal FHH model: a case study of 7th member of Triassic Yanchang Formation in Huachi area, Ordos Basin

Author

Cheng AN, Guangdi LIU, Mingliang SUN, Fuliang YOU, Zixin WANG, and Yushun CAO

Subjects
fractal fhh model, pore structure, nitrogen adsorption experiment, chang 7 member, yanchang formation, triassic, ordos basin, Geophysics. Cosmic physics, QC801-809, Geology, QE1-996.5
Abstract

Pore structure, as the focus of shale reservoir research, has important influence on the occurrence of shale oil. In this paper, 10 shale core samples from the 7th member of Triassic Yanchang Formation (Chang 7 member) in Huachi area, Ordos Basin were selected to carry out scanning electron microscope (SEM) observation and low-temperature nitrogen adsorption experiment, and the fractal dimension was calculated to quantitatively characterize the pore structure of shale in the research area combined with fractal FHH model. On this basis, the relationship between fractal dimension and pore structure parameters and oil-bearing parameters was discussed, and the main influencing factors of pore development of shale in the Chang 7 member were determined. The results show that the shale of the Chang 7 member in Huachi area has high organic matter abundance, which are good-to-excellent source rocks mainly composed of quartz and clay minerals, with good oil-bearing property (up to the middle oil-bearing level) and mobility. The reservoir space is dominated by intergranular pores, intragranular pores and a small amount of organic pores. There are two types of pore morphology, namely, parallel plate-shaped slit+unilateral slit and ink bottle-shaped + parallel plate-shaped slit. The pores are mainly micropores and mesopores, with macropores less developed. Most samples have fractal characteristics. The fractal dimension D1 of small pores is between 2.264 7 and 2.714 9, and the fractal dimension D2 of large pores is between 2.373 3 and 2.77 7. Among them, D2 has a good correlation with surface area, pore volume, average pore diameter and S1, which can characterize the development characteristics of pore structure and oil-bearing property of shale, while D1 can only characterize the mobility of shale oil. The pore development of shale is mainly controlled by TOC and quartz content, and has a certain relationship with feldspar content, while clay mineral content is not the main influencing factor.

Published
2023
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7. Logging identification and distribution characteristics of high-gamma sandstones in the 7th member of Triassic Yanchang Formation, Ordos Basin

Author

Fuliang YOU, Guangdi LIU, Mingliang SUN, Chaozheng LI, Xiangbai LIU, Cheng AN, Zixin WANG, and Yishu LI

Subjects
high-gamma sandstone, lithologic identification, chang 7 member, yanchang formation, triassic, ordos basin, Geophysics. Cosmic physics, QC801-809, Geology, QE1-996.5
Abstract

A large number of sandstone interlayers were developed in the shale strata of the 7th member of the Triassic Yanchang Formation (Chang 7 member) in the Ordos Basin. These sandstone interlayers are frequently accompanied by abnormally high natural gamma values as high as 330.5 API. As a result, they are undistingui shable from shale on well profile. To characterize the high-gamma sandstones, the clastic rocks of the Chang 7 member were classified into fine sandstone, siltstone, argillaceous siltstone, silty mudstone, mudstone and shale according to grain size and structural characteristics. Conventional logging data were recalculated and combined into two new parameters—A and B. The new intersection chart composed of parameters A and B and natural gamma logging data can effectively distinguish and identify normal sandstone and high-gamma sandstone in the Chang 7 member. The plane distribution of cumulative thickness of high-gamma sandstone in the Chang 7 member shows that the high-gamma sandstone is mainly located in the southwest of the study area. The finger-like distribution of high-gamma sandstone from the edge to the center of the lake basin indicates that its formation may be related to the volcanic eruption during sedimentary period.

Published
2023
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8. Influence of tectonic evolution of the northern slope in the central Sichuan paleo-uplift on the Sinian-Cambrian hydrocarbon accumulations

Author

Qiang LI, Guangdi LIU, Zezhang SONG, Mingliang SUN, Lianqiang ZHU, Xingwang TIAN, Kui MA, Dailin YANG, Yunlong WANG, Yushun CAO, and Fuliang YOU

Subjects
tectonic evolution, sinian-cambrian, evolution process, northern slope of central sichuan, sichuan basin, Geophysics. Cosmic physics, QC801-809, Geology, QE1-996.5
Abstract

The Sinian-Cambrian tight carbonate strata locating on the northern slope (NS) of the paleo-uplift of central Sichuan Basin is the frontier for ultra-deep natural gas exploration. The tectonic evolution of the NS determined the accumulation process and current distribution of oil and gas. In this study, based on integrating drilling, seismic and test data, a 3D basin simulation software was used to carry out the structural restoration. This paper focused on the restoration of the tectonic evolution at the bottom of Cambrian in the NS and Gaoshiti-Moxi (GM) areas, and the tectonic pattern of hydrocarbon accumulation during critical periods was re-constructed. At the end of the Tongwan Movement, the NS area was locally uplifted to the high regions, while paleo-geomorphic depressions formed between the NS and GM areas. In the Late Caledonian, the NS and GM areas displayed a structural pattern similar to 'saddle-domal'. In the Indosinian period, the area to the north of Moxi gradually inclined northwards to form a monocline. In the early stage of Yanshanian Movement, the dip angle of Cambrian in the NS area further increased until it became stable and was consistent with the current tectonic pattern found after Mid-Yanshanian Movement. The paleo-tectonic morphology in the NS area during the Tongwan period laid a solid foundation for the development of large-scale platform margin and inner beach reservoirs in the Sinian Dengying Formation. Controlled by large-scale transgression, the NS area and the Deyang-Anyue rift trough were more conducive to the development of black shale in the Qiongzhusi Formation due to deeper sedimentary water body and higher degree of confinement-hypoxia. The oil-cracking in the Sinian-Cambrian paleo-oil reservoirs of the NS area occurred earlier than that in the GM area. The difference between thermal evolution and source rock characteristics of the Qiongzhusi Formation in the NS and GM areas led to a lighter δ13C1 of natural gas in the NS area. The coupling of local tectonic highs and lithologic traps controlled the formation and preservation of independent paleo-oil and natural gas reservoirs in the NS area.

Published
2022
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9. Impacts of Pore Structure on the Occurrence of Free Oil in Lacustrine Shale Pore Networks

Author

Fuliang You, Guangdi Liu, Mingliang Sun, Cheng An, Chaozheng Li, and Yishu Li

Subjects
shale oil, pore structure, Chang7 member, Ordos Basin, Technology
Abstract

The ultimate recovery of shale oil is mostly dependent upon the occurrence and content of free oil within the nano-scaled pore network of shale reservoirs. Due to the nanoporous nature of shale, quantitatively characterizing the occurrence and content of free oil in shale is a formidable undertaking. To tackle this challenge, 12 lacustrine shale samples with diverse organic matter content from the Chang7 Member in the southern Ordos Basin were selected, and the characteristics of free oil occurrence were indirectly characterized by comparing changes in pore structure before and after organic solvent extraction. The free oil enrichment in shale was assessed using the oil saturation index (OSI), corrected oil saturation index (OSIcorr), and percentage of saturated hydrocarbons. The results revealed that slit-like interparticle pores with diameters less than 30 nm are dominant in the Chang7 shale. Conceptual models for the pore structures containing free oil were established for shale with total organic carbon (TOC) content less than 9% and greater than 9%, respectively. Shale samples with TOC content less than 9% exhibit a well-developed pore network characterized by relatively larger pore volume, surface area, and heterogeneity. Conversely, shale samples with TOC content exceeding 9% display a less developed pore network characterized by relatively smaller pore volume, surface area, and heterogeneity. Larger pore volume and lower organic matter abundance favor the enrichment of free oil within the lacustrine shale pore network. This study may have significant implications for understanding oil transport in shales.

Published
2023
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10. All-Tunicate Cellulose Film with Good Light Management Properties for High-Efficiency Organic Solar Cells

Author

Chen Jiang, Meiyan Wu, Fang Zhang, Chao Liu, Mingliang Sun, and Bin Li

Subjects
cellulose composite films, cellulose nanofibrils, micro-fibrillated cellulose, tunicate, organic solar cells, Chemistry, QD1-999
Abstract

Tunicate nanocellulose with its unique properties, such as excellent mechanical strength, high crystallinity, and good biodegradability, has potential to be used for the preparation of light management film with tunable transmittance and haze. Herein, we prepared a whole tunicate cellulose film with tunable haze levels, by mixing tunicate microfibrillated cellulose (MFC) and tunicate cellulose nanofibrils (CNF). Then, the obtained whole tunicate cellulose film with updated light management was used to modify the organic solar cell (OSC) substrate, aiming to improve the light utilization efficiency of OSC. Results showed that the dosage of MFC based on the weight of CNF was an important factor to adjust the haze and light transmittance of the prepared cellulose film. When the dosage of MFC was 3 wt.%, the haze of the obtained film increased 74.2% compared to the pure CNF film (39.2%). Moreover, the optimized tunicate cellulose film exhibited excellent mechanical properties (e.g., tensile strength of 168 MPa, toughness of 5.7 MJ/m3) and high thermal stability, which will be beneficial to the workability and durability of OSC. More interestingly, we applied the obtained whole tunicate cellulose film with a high haze (68.3%) and high light transmittance (85.0%) as an additional layer to be adhered to the glass substrate of OSC, and a notable improvement (6.5%) of the power conversion efficiency was achieved. With the use of biodegradable tunicate cellulose, this work provides a simple strategy to enhance light management of the transparent substrate of OSC for improving power conversion efficiency.

Published
2023
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11. Molecular mechanism for vitamin C-derived C5-glyceryl-methylcytosine DNA modification catalyzed by algal TET homologue CMD1

Author

Wenjing Li, Tianlong Zhang, Mingliang Sun, Yu Shi, Xiao-Jie Zhang, Guo-Liang Xu, and Jianping Ding

Subjects
Science
Abstract

C5-glyceryl-methylcytosine is a DNA modification that plays a role in the regulation of green alga photosynthesis and is catalysed by CMD1, using vitamin C (VC) as a co-substrate. Here, the authors provide insights into the catalytic mechanism of CMD1 by determining the crystal structures of apo CMD1 and CMD1 bound to either VC or DNA, as well as the ternary CMD1/VC/DNA complex structure.

Published
2021
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13. Subtle Side Chain Triggers Unexpected Two-Channel Charge Transport Property Enabling 80% Fill Factors and Efficient Thick-Film Organic Photovoltaics

Author

Yonghai Li, Lu Yu, Liangliang Chen, Chenyu Han, Huanxiang Jiang, Zitong Liu, Nan Zheng, Jiuxing Wang, Mingliang Sun, Renqiang Yang, and Xichang Bao

Subjects
organic solar cells, side chain, molecular assembly, two-channel charge transport, thick-film, Science (General), Q1-390
Abstract

To clearly show how important the impact of side chains on organic solar cells (OSCs) is, we designed three acceptors IDIC-CxPh (x = 4, 5, or 6) via subtle side-chain regulation. Despite this small change, significant distinctions were detected. IDIC-C4Ph devices achieve an optimal efficiency of 13.94% under thermal annealing, but thermal-assistant solvent-vapor annealing hugely suppresses the efficiencies to 10%. However, the C6Ph side chain endows extremely disordered stacking orientations, generating moderate efficiencies of ~12.50%. Excitingly, the IDIC-C5Ph affords an unexpected two-channel π-π charge transport (TCCT) property, boosting the fill factor (FF) by up to 80.02% and efficiency to 14.56%, ranking the best among five-ring fused-ladder-type acceptors. Impressively, the special TCCT behavior of IDIC-C5Ph enables 470 nm thick-film OSC with a high FF of up to 70.12% and efficiency of 13.01%, demonstrating the great promise in fabricating large-scale OSCs. Public summary: • OSCs are a promising technology to transform the solar energy to electricity • This article reports an efficient TCCT photovoltaic material through subtle side-chain modification • The TCCT property enables 13% efficiency with FF reaching 70% in 470 nm thick-film photovoltaics

Published
2021
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14. Analysis of Microbial Community in the Archaeological Ruins of Liangzhu City and Study on Protective Materials

Author

Mingliang Sun, Fengyu Zhang, Xinduo Huang, Yeqing Han, Nan Jiang, Biao Cui, Qingling Guo, Mengyue Kong, Lin Song, and Jiao Pan

Subjects
the Archaeological Ruins of Liangzhu City, microflora, biodegradation, soil properties, protective materials, Microbiology, QR1-502
Abstract

This study aims to provide a reference for the protection of the Archaeological Ruins of Liangzhu City. As a basis for the further preservation of these cultural relics, it is essential to analyze the microflora colonizing these soil objects. To do that, samples with microbial characteristics were obtained and analyzed by SEM and metagenomic sequencing to reveal the constitute of the microflora. We investigated the biodegradation of the protective material-epoxy resin by microorganisms in the Archaeological Ruins of Liangzhu City, and found that they would interact with each other, which would affect the performance of the epoxy resin. The specific mechanism of action requires further investigations. We evaluated the effect of ethyl orthosilicate on soil properties. Interestingly, we found that excess ethyl orthosilicate added to the soil of the Archaeological Ruins of Liangzhu City will cause a change in particle size and allowed the soil to condense in the laboratory. This indicates that the large use of orthosilicate may lead to intensified soil weathering, which in turn will cause soil erosion.

Published
2020
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15. Fungal Community Analysis and Biodeterioration of Waterlogged Wooden Lacquerware from the Nanhai No. 1 Shipwreck

Author

Yin Jia, Liuyu Yin, Fengyu Zhang, Mei Wang, Mingliang Sun, Cuiting Hu, Zijun Liu, Yue Chen, Jie Liu, and Jiao Pan

Subjects
Nanhai No.1 shipwreck, wood lacquers, fungi, high-throughput sequencing, carboxymethyl cellulose activity, biocides, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

To avoid the lacquerware of the Nanhai No. 1 shipwreck from being corroded by microorganisms and to improve the knowledge on microbial ecology of the wood lacquers, we conducted a series of tests on the two water samples storing the lacquerware and colonies on the surface of the lacquerware. The high-throughput sequencing detected dominant fungal communities. After that, the fungal strains were isolated and then identified by amplification of ITS- 18S rRNA. Then the activity of ligninolytic and cellulolytic enzymes was detected on potato dextrose agar (PDA) plates with 0.04% (v/v) guaiacol and carboxymethyl cellulose (CMC) agar plates. Finally, we tested the biocide susceptibility of these fungi. Penicillium chrysogenum (NK-NH3) and Fusarium solani (NK- NH1) were the dominant fungi in the sample collected in April 2016 and June 2017. What is more, both showed activity of ligninolytic and cellulolytic enzymes. Four biocidal products (Preventol® D7, P91, BIT 20N, and Euxyl® K100) inhibited the growth of the fungal species in vitro effectively. In further research, the microbial community and environmental parameters in the museum should be monitored to assess the changes in the community and to detect potential microbial outbreaks.

Published
2020
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16. Fungal Community Analyses of a Pirogue from the Tang Dynasty in the National Maritime Museum of China

Author

Fengyu Zhang, Lin Li, Mingliang Sun, Cuiting Hu, Zhiguo Zhang, Zijun Liu, Hongfei Shao, Guanglan Xi, and Jiao Pan

Subjects
pirogue, biodeterioration, high-throughput sequencing, culture-dependent approach, cellulase activity, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The goal of this research was to analyze the fungal community responsible for the biodeterioration of a pirogue in the National Maritime Museum of China and to make recommendations for the protection of this artifact. Molecular identification of fungal strains isolated from the surface of the pirogue and the air of the storage room that were most closely related to Cladosporium, Penicillium, Talaromyces and Trichoderma spp. DNA extracted from the samples was sequenced on the Illumina MiSeq platform. The results showed that the predominant fungal genera present were Penicillium sp., Cladosporium sp. and Exophiala sp. Thereafter, cellulose degradation experiments were carried out on the predominant fungi screened by pure culturing. Finally, we tested the sensitivity of the predominant fungal isolates to four biocides. This work suggests that we should pay more attention to Penicillium sp. and Cladosporium sp. in the protection of wooden artifacts, and environmental control is recommended as the main means of protecting the pirogue.

Published
2019
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17. Bacterial and Biodeterioration Analysis of the Waterlogged Wooden Lacquer Plates from the Nanhai No. 1 Shipwreck

Author

Liuyu Yin, Yin Jia, Mei Wang, Huanhuan Yu, Ying Jing, Cuiting Hu, Fengyu Zhang, Mingliang Sun, Zijun Liu, Yue Chen, Jie Liu, and Jiao Pan

Subjects
Nanhai No. 1 shipwreck, lacquerware, high-throughput sequencing, ligninolytic enzymatic activity, cellulolytic enzymatic activity, biocide effectiveness, bacterial diversity, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

To protect the lacquer plates from the Nanhai No. 1 shipwreck from being corroded by microorganisms, a series of studies were conducted on the four water-stored samples. The water samples were collected from the vessel where the lacquerware was stored in June and December 2017. In our study, high-throughput sequencing was conducted to reveal predominant bacterial communities. Then, three different media were used to isolate the dominant bacteria, and the 16S rRNA genes were sequenced. Next, we tested the degradation activity of lignin and cellulose by the isolated bacterial strains. After being cultured on a medium containing carboxylmethylcellulose (CMC), almost all the isolated strains (except Microbacterium sp. NK-NH4, Ochrobactrum sp. NK-NH9, and Bacillus megaterium NK-NH10) showed the capacity for cellulose degradation. In addition, the lignin peroxidase (Lip) and laccase activity of the strains were shown by culturing the strains on one medium with azure and on another medium with Remazol brilliant blue. The results indicated that the Lip activity of all the strains was low, whereas the laccase activity of Microbacterium sp. NK-NH4, Bacillus tequilensis NK-NH5, Bacillus subtilis NK-NH6, Bacillus megaterium NK-NH10, and Bacillus velezensis NK-NH11 was relatively high. Finally, we tested the bacteriostatic efficacy of four biocides—Preventol® D7, BIT 20N, P91, and Euxyl® K100. We found that most strains were sensitive to D7 and 20N, while K100 had almost no impact.

Published
2019
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20. Chaotic CS Encryption: An Efficient Image Encryption Algorithm Based on Chebyshev Chaotic System and Compressive Sensing.

Author

Mingliang Sun, Jie Yuan, Xiaoyong Li, and Dongxiao Liu

Abstract

Images are the most important carrier of human information. Moreover, how to safely transmit digital images through public channels has become an urgent problem. In this paper, we propose a novel image encryption algorithm, called chaotic compressive sensing (CS) encryption (CCSE), which can not only improve the efficiency of image transmission but also introduce the high security of the chaotic system. Specifically, the proposed CCSE can fully leverage the advantages of the Chebyshev chaotic system and CS, enabling it to withstand various attacks, such as differential attacks, and exhibit robustness. First, we use a sparse trans-form to sparse the plaintext image and thenuse theArnold transformtoperturb the image pixels.After that,we elaborateaChebyshevToeplitz chaotic sensing matrix for CCSE. By using this Toeplitz matrix, the perturbed image is compressed and sampled to reduce the transmission bandwidth and the amount of data. Finally, a bilateral diffusion operator and a chaotic encryption operator are used to perturb and expand the image pixels to change the pixel position and value of the compressed image, and ultimately obtain an encrypted image. Experimental results show that our method can be resistant to various attacks, such as the statistical attack and noise attack, and can outperform its current competitors. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Investigating the Mechanism of Rhizoma Coptidis-Eupatorium fortunei Medicine in the Treatment of Type 2 Diabetes Based on Network Pharmacology and Molecular Docking

Author

Huan Li, Dan Luo, Ran Wei, Mingliang Sun, Xi Zhang, Huan Deng, Wenfei Bian, Haoyue Wei, and Yanqin Huang

Subjects
Molecular Docking Simulation, Diabetes Mellitus, Type 2, Berberine, Article Subject, General Immunology and Microbiology, Interleukin-6, Eupatorium, Antineoplastic Agents, General Medicine, Network Pharmacology, General Biochemistry, Genetics and Molecular Biology, Drugs, Chinese Herbal
Abstract

Objective. This study systematically explored the mechanism of Rhizoma Coptidis-Eupatorium fortunei in treating type 2 diabetes mellitus (T2DM) by using network pharmacology and molecular docking methods. Methods. The TCMSP database was used to screen out the active ingredients and related targets of Rhizoma Coptidis-Eupatorium fortunei (R-E) drug pair. GeneCards, OMIM, DrugBank, and other databases were used to screen the related targets of T2DM, and then, the UniProt database was used to standardize the relevant targets of T2DM. Then, the Venn analysis was performed on the active ingredient-related targets and disease-related targets of R-E drugs to find the intersection targets. Using the STRING database and Cytoscape software, the PPI network and “drug-active ingredient-target-disease” network are constructed by intersecting targets and corresponding active ingredients. Through the cluster profiler package in the R software, GO function enrichment analysis and KEGG pathway enrichment analysis were carried out on the intersection targets and the screened core targets, and the prediction results were verified by molecular docking. Results. Taking OB ≥ 30 % and DL ≥ 0.18 as the standard, a total of 25 effective active ingredients of R-E drug pairs were screened, including berberine, palmatine, coptisine, and so on. After corresponding, 19 effective chemical components and 284 targets of the R-E drug pair were obtained. After searching multiple disease databases, 1289 T2DM-related targets were screened. After the summary, 159 common targets were obtained in this study. Finally, in the bioinformatics analysis, this study concluded that quercetin, luteolin, berberine, palmatine, and coptisine are the main chemical components of the R-E drug pair. ESR1, MAPK1, AKT1, TP53, IL6, and JUN are the important core targets. GO and KEGG enrichment analyses showed that Rhizoma Coptidis-Eupatorium fortunei could improve T2DM by regulating multiple biological processes and pathways. Molecular docking results showed that berberine, palmatine, and coptisine had higher binding to the core target, and MAPK1, AKT1, and IL6 could stably bind to the active ingredients of Rhizoma Coptidis-Eupatorium fortunei. Conclusion. Rhizoma Coptidis-Eupatorium fortunei may have therapeutic effects on T2DM such as anti-inflammatory and regulating glucose and lipid metabolism through multiple components, multiple targets, and multiple signaling pathways, which provides a scientific basis for further research on the hypoglycemic effect of Rhizoma Coptidis-Eupatorium fortunei drug pair.

Published
2022

22. Rehabilitation of Post-Stroke Swallowing Dysfunction with Repeated Transcranial Magnetic Stimulation RTMS Based on Tomographic Images

Author

Jin Liu, Hengye Zhuo, and Mingliang Sun

Subjects
Stroke, Treatment Outcome, Article Subject, Humans, Radiology, Nuclear Medicine and imaging, Deglutition Disorders, Transcranial Magnetic Stimulation, Deglutition
Abstract

In order to study the rehabilitation of dysphagia after stroke, this paper uses tomographic imaging technology and repeated transcranial magnetic stimulation rTMS therapy to verify the effect of this treatment method on the rehabilitation of dysphagia after stroke. In this study, the method of systematic review and meta-analysis are used to comprehensively collect the current published literature on the application of repeated transcranial magnetic stimulation in post-stroke dysphagia, and to quantitatively synthesize and qualitatively analyze the data and opinions. This article aims to explore the therapeutic effect and mechanism of repeated transcranial magnetic stimulation in the treatment of dysphagia after stroke, and to evaluate its effectiveness, so as to better guide the application of repetitive transcranial magnetic stimulation in the rehabilitation of dysphagia after stroke. The evaluation methods of rTMS for the clinical efficacy of PAS, FDS, VDS, DOSS, DD, and BI in patients with dysphagia after stroke are consistent. The influencing factors of rTMS on the swallowing function impairment of stroke include the choice of stimulation frequency, stimulation site, and stimulation time. Low-frequency stimulation of the contralateral hemisphere and high-frequency stimulation of the affected brain can reduce the excitability of the contralateral brain and enhance the excitability of the affected brain. The stimulation site is mainly in the pharyngeal cortex. Experiments show that rTMS can improve swallowing dysfunction after stroke within 2 weeks, and rTMS has no obvious side effects on swallowing dysfunction in patients with cerebral infarction.

Published
2022

23. Naphthalimide Molecular-Doped Zinc Oxide Cathode Interfacial Layer Inhibits Charge Trapping in Organic Solar Cells.

Author

Yong Zhao, Hongli Wu, Xiaojie Liu, Minggeng Ding, Peng Huang, Liangmin Yu, Zhicai He, and Mingliang Sun

Subjects
SOLAR cells, HYBRID materials, CATHODES, SURFACE defects, HYBRID securities
Abstract

So far, the recombination center of photogenerated carriers caused by surface defects in ZnO results in poor thickness tolerance and inefficient charge extraction, severely limiting the performance and stability of inverted organic solar cells (OSCs). Therefore, hybrid cathode interfacial layers (CILs) are fabricated in devices by doping naphthalimide-based molecules (NE and NDA) into ZnO, and significantly improved performance and stability are achieved for all tested devices. It is found that doping NE or NDA not only solves the problems of ZnO aggregation and surface defects, but also enhances the ability of charge transfer and lowers the work function of cathode. As a result, the OSCs based on PM6:Y6 with ZnO:NE 1% as a CIL exhibit the highest power conversion efficiency (16.72%), which is better than that of pristine ZnO. The research shows that N atoms in naphthalimide react with Zn ions, and -NH bonds form noncovalent interaction with heteroatoms in the blend, which is conducive to the formation of better chemical bond in hybrid materials and providing more transfer channels for carriers. This study highlights a promising strategy for enhancing the performance of inverted OSCs by the hybrid CIL strategy. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Metal free benzothiadiazole-diketopyrrolopyrrole-based conjugated polymer/g-C3N4 photocatalyst for enhanced sterilization and degradation in visible to near-infrared region

Author

Mingliang Sun, Liangmin Yu, Lei Chu, Yahui Du, Xiaojie Liu, and Quanliang Wang

Subjects
chemistry.chemical_classification, Materials science, Polymer, Sterilization (microbiology), Photochemistry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Biomaterials, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Rhodamine B, Photocatalysis, Degradation (geology), Irradiation, Absorption (electromagnetic radiation), Photodegradation
Abstract

In recent years, photocatalytic technology has attracted wide attention in environmental treatment, exploring non-toxic and metal-free photocatalysts is imminent to meet sustainable development. However, semiconductors with wide spectral response are rarely studied and applied in the field of photocatalysis. Herein, a new narrow band-gap polymer PFBDT-DPP (P3) with wide absorption from 500 to 860 nm was synthesized and further constructed heterostructure with g-C3N4 for photocatalytic sterilization and degradation of organic pollutant Rhodamine B (RhB). The optimal antibacterial rate for Escherichia coli reached 99.8% after 190 min of light irradiation and for Staphylococcus aureus reached 96.8% after 120 min of irradiation, and the highest degradation efficiency of RhB by P3/g-C3N4 was 98.9% within 60 min light irradiation, while g-C3N4 displayed an unsatisfactory sterilization and photodegradation performance. This is mainly attributed to the broadened light absorption range and enhanced carrier separation efficiency of P3/g-C3N4. This work could provide a new strategy to fabricate metal-free photocatalysts with high utilization of sunlight and excellent photocatalytic performance.

Published
2022

27. Enhancing organic photovoltaic performance with 3D-transport dual nonfullerene acceptors

Author

Shuixing Dai, Mengyang Li, Jingming Xin, Guanyu Lu, Peiyao Xue, Yong Zhao, Yang Liu, Mingliang Sun, Liangmin Yu, Zheng Tang, Guanghao Lu, Wei Ma, and Xiaowei Zhan

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

Dual nonfullerene acceptors Y6:FINIC with 3D charge transport features are used to fabricate sequential-process heterojunction (SHJ) and bulk heterojunction (BHJ) organic solar cells, and the SHJ outperforms the BHJ.

Published
2022

31. Aminonaphthalimide‐Based Molecular Cathode Interlayers for As‐Cast Organic Solar Cells

Author

Yong Zhao, Xiaojie Liu, Mingliang Sun, Yang Liu, Xiao Kang, Liangmin Yu, and Shuixing Dai

Subjects
Materials science, Organic solar cell, Band gap, General Chemical Engineering, Energy conversion efficiency, Cathode, law.invention, chemistry.chemical_compound, General Energy, chemistry, Chemical engineering, law, Bathochromic shift, Environmental Chemistry, General Materials Science, Thermal stability, Imide, HOMO/LUMO
Abstract

A series of imide-based small molecules, namely NA, NAA, and NEA with simple structures, were designed and synthesized by introducing different amine side-chains into the benzene unit of imide, which were used as cathode interfacial materials in organic solar cells (OSCs). The amine side-chain substitution positions were systematically investigated with these small-molecule imides. Compared with NA without amide chains-NAA, and NEA, with 3-dimethylaminopropylamine and ethylenediamine chains, respectively-show bathochromic shifts in absorption, decreased band gaps, and higher highest occupied molecular orbital (HOMO) energy levels. A power conversion efficiency (PCE) of 15.04 % was obtained with the NEA-based as-cast OSCs with a high open-circuit voltage and fill factor for PM6 : Y6 blend and the maximum PCE of 15.80 % was reached for as-cast PM6 : Y6 : IT-M ternary OSCs. NEA exhibits better conductivity, higher electron mobility, and stronger the capability of lower work function of cathode among three molecules, affording OSCs with better photovoltaic performance. Additionally, these three molecules show excellent thermal stability both in solution and in films at 150 °C. The results indicate that imide-based small molecules are promising cathode interfacial materials for commercial OSCs.

Published
2021

32. End Group Effect of Asymmetric Benzodithiophene-Based Donor with Liquid-Crystal State for Small-Molecule Binary Solar Cell

Author

Yong Zhao, Ziwei Huang, Xiao Kang, Jifa Yu, Minggeng Ding, Deyu Liu, Guanghao Lu, Xichang Bao, Liangmin Yu, and Mingliang Sun

Subjects
Biomaterials, General Materials Science, General Chemistry, Biotechnology
Abstract

Liquid-crystal small molecule donor (LC-SMD) is a new type organic semiconductor, which is attractive not only for the easy synthesis and purification, well-defined chemical structures, etc., but also for the LC state that makes the crystallinity and aggregation state of molecules adjustable. Here, one new LC-SMD (a-BTR-H4) is synthesized with 1D alkoxyl and 2D thiophene-alkylthiol side-chained benzo[1,2-b:4,5-b']dithiophene core, trithiophene π-bridge, and 3-(2-ethylhexyl) rhodanine end group. a-BTR-H4 shows low LC transition temperature, 117 °C, however, counterpart material (a-BTR-H5) with the same main structure but 3-ethyl rhodanine terminal group does not show LC properties. Although a-BTR-H4/H5 show similar Ultraviolet-visible absorption spectrum and energy levels, a-BTR-H4 affords relatively high photovoltaic performances due to favorable blend morphology produced by the consistent annealing temperature of Y6-based accepters and liquid crystal temperature of donors. Preliminary results indicate that a-BTR-H4 gains a power conversion efficiency (PCE) of 11.36% for Y6-based devices, which is ascribed to better light harvest as well as balanced carrier generation and transport, while a-BTR-H5 obtains 7.57% PCE. Therefore, some materials with unique nematic LC phase have great application potential in organic electronics, and further work to utilize a-BTR-H4 for high-performance device is underway.

Published
2022

33. Low-bandgap conjugated polymers based on benzodipyrrolidone with reliable unipolar electron mobility exceeding 1 cm2 V−1 s−1

Author

Yunfeng Deng, Haoran Tang, Shuting Pang, Fei Huang, Tian Du, Xuxia Zhao, Long Ye, Yong Cao, Zhongxiang Peng, Mingqun Yang, Chunhui Duan, Mingliang Sun, Xuelong Huang, and Langheng Pan

Subjects
chemistry.chemical_classification, Electron mobility, Polyethylenimine, Materials science, business.industry, Band gap, Transistor, 02 engineering and technology, General Chemistry, Polymer, Conjugated system, 010402 general chemistry, 021001 nanoscience & nanotechnology, Block (periodic table), 01 natural sciences, 0104 chemical sciences, law.invention, chemistry.chemical_compound, chemistry, law, Optoelectronics, 0210 nano-technology, business, HOMO/LUMO
Abstract

The employment of an intrinsic quinoidal building block, benzodipyrrolidone (BDP), on constructing conjugated polymers (PBDP-2F and PBDP-2CN) with high electron mobility and unipolar transport characteristic in polyethylenimine ethoxylated (PEIE) modified organic field-effect transistors (OFETs) is reported. The intrinsic quinoidal characteristic and excellent co-planarity of BDP can lower the lowest unoccupied molecular orbital (LUMO) levels and improve ordered interchain packing of the resulting polymers in solid states, which are favorable for electron-injection and transport. By using PEIE as the interlayer to block the hole injection, unipolar n-type transport characteristics with high electron mobility of 0.58 and 1.01 cm2 V−1 s−1 were achieved by the OFETs based on PBDP-2F and PBDP-2CN, respectively. More importantly, the extracted mobilities are highly reliable with the reliability factor of above 80%. To the best of our knowledge, PBDP-2CN is the very first quinoid-based conjugated polymer with reliable electron mobility exceeding 1 cm2 V−1 s−1. This work represents a significant step in exploring intrinsic quinoidal CPs for application in n channel OFETs and logic complementary circuits.

Published
2021

34. Recent progress in emerging 2D layered materials for organic solar cells

Author

Liangmin Yu, Yong Zhao, and Mingliang Sun

Subjects
Materials science, Organic solar cell, Renewable Energy, Sustainability and the Environment, 020209 energy, Photovoltaic system, Nanotechnology, 02 engineering and technology, 021001 nanoscience & nanotechnology, Black phosphorus, Physical structure, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, 0210 nano-technology, MXenes
Abstract

Currently, organic solar cells (OSCs) are one of the most cutting-edge photovoltaic technologies due to their light-weight, semitransparent, and flexible advantages, which meet the needs of commercial applications. In order to fully develop the application potential of this novel class of photovoltaic cells, organic molecular design and device construction have all been playing significant roles. Research shows that two-dimensional (2D) layered materials with unique physical structure and excellent photoelectric properties can effectively optimize the device performance of OSCs. Although the exploration of various emerging 2D materials for use in OSCs has made considerable progress, there remain some crucial bottlenecks to be solved. In this review, the progress that has been made in the application of these 2D materials for OSCs in recent years is presented, including MXenes, black phosphorus (BP), and transition metal dichalcogenides (TMDs), etc. The merits and demerits of 2D materials in OSCs application are summarized in detail. Ultimately, it outlines the commercial development direction of OSCs in the near future, and the significance of 2D materials in stable, low-cost, large-area, and flexible devices.

Published
2021

37. Geochemical Characteristics, Hydrocarbon Potential, and Depositional Environment Evolution of Fine-Grained Mixed Source Rocks in the Permian Lucaogou Formation, Jimusaer Sag, Junggar Basin

Author

Zhe Cao, Jingya Zhang, Yuhua Kong, Guangdi Liu, and Mingliang Sun

Subjects
Sedimentary depositional environment, Fuel Technology, Permian, Source rock, General Chemical Engineering, Geochemistry, Energy Engineering and Power Technology, Structural basin, Geology
Abstract

The Permian Lucaogou Formation (P2l) in the Jimusaer Sag, Junggar Basin is an essential source rock and a tight oil-producing layer in China. The source rock of the Lucaogou Formation is characteri...

Published
2020

38. Achieving the low interfacial tension by balancing crystallization and film-forming ability of the cathode interlayer for organic solar cells

Author

Yong Zhao, Xiaojie Liu, Xin Jing, Yang Liu, Hao Liu, Shaonan Li, Liangmin Yu, Shuixing Dai, and Mingliang Sun

Subjects
Biomaterials, Colloid and Surface Chemistry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

A series of molecules with imide units bridged by the core of thiophene-based groups, namely N-dimethylaminopropyl-4-thiophene-1,8- naphthalimide (NT), bis(N-dimethylaminopropyl)-4-thiophene-1,8-naphthalimide (NTN), and bis(N-dimethylaminopropyl)-4-bithiophene-1,8-naphthalimide (N2TN), have been reported as cathode interfacial materials (CIMs) to realize low interfacial tension with the blend in organic solar cells (OSCs). We evaluated the Ohmic contact between the active layer and these cathode interlayers basedon various characterizations, which is of great significance for further understanding these imide-based interlayers. It turned out that the homogeneous and continuous NTN interlayer as a CIM balanced the factors of crystallization and film-forming property, and broke through the limitation of poor conductivity and high aggregation in our previous work. Moreover, compared with NT and N2TN, the NTN interlayer achieve a combination of good solubility in methanol, efficient electron mobility, and aligned work function. These advantages of NTN are conducive to the realization of high-efficient interfacial electron collection and transfer, thus improving the short-circuit current density (J

Published
2022

39. Small Organic Molecule Based Photoelectrodes for Efficient Photoelectrochemical Cathodic Protection

Author

Yong Zhao, Xiaojie Liu, Wei Wang, Liangmin Yu, Xin Jing, and Mingliang Sun

Subjects
Organic semiconductor, Materials science, Band gap, Photoelectrochemistry, Materials Chemistry, Electrochemistry, Photocatalysis, Molecule, Nanotechnology, Electronic, Optical and Magnetic Materials, Cathodic protection
Abstract

Photoelectrochemical cathodic protection (PECCP) as a branch of photocatalysis and photoelectrochemistry holds great promise for efficient anticorrosion. Organic semiconductors with tunable bandgap...

Published
2020

41. Lysine demethylase 1A exacerbates LPS-induced inflammation of vascular smooth muscle cells through modulation of NF-κB activation

Author

Zhongquan Qi, Ling Liang, Weihua Li, and Mingliang Sun

Subjects
Small interfering RNA, Gene knockdown, animal structures, Vascular smooth muscle, biology, Chemistry, Monocyte, Pharmaceutical Science, Inflammation, Molecular biology, Proinflammatory cytokine, medicine.anatomical_structure, medicine, biology.protein, Demethylase, Phosphorylation, Pharmacology (medical), medicine.symptom
Abstract

Purpose: To study the effect of lysine demethylase 1A (LSD1) on inflammatory responses of vascular smooth muscle cells (VSMCs), and investigate the mechanism. Methods: VSMCs were treated with lipopolysaccharide (LPS). Overexpression and knockdown of LSD1 in VSMCs were performed by transfecting with LSD1 overexpression plasmid and small interfering RNAs (siRNAs), respectively. Western blot and quantitative real-time polymerase chain reaction (qRTPCR) were used to measure protein and mRNA levels. Enzyme-linked immunosorbent (ELISA) assay was used to determine the levels of inflammatory cytokines. Results: Phosphorylation of LSD1 (p-LSD1) was significantly increased in LPS-induced VSMCs. Monocyte chemoattractant protein-1 and IL-6 levels were also increased by LPS, but attenuated by LSD1 knockdown in VSMCs. Activation of NF-κB was increased by LPS, but was also decreased by LSD1 knockdown. Level of methylated p65 (p65-me) in VSMCs was increased by treatment with SET7/9 (p65 methyltransferase), but this effect was attenuated by overexpression of LSD1. Besides, the increased levels of MCP-1 and IL-6 induced by overexpression of LSD1 were reversed by NF-κB signaling inhibitor, PDTC. Conclusion: LSD1 exacerbates LPS-induced inflammation of VSMCs through NF-κB activation via p65 demethylation, which indicates that LSD1 might be a potential target for the treatment of cardiovascular diseases. Keywords: Vascular smooth muscle cells, Lysine demethylase 1A, Phosphorylation, NF-κB, p65, Demethylation

Published
2020

42. Synthesis of Interpenetrating Polymer Networks Based on Triisocyanate-Terminated and Modified Poly(urethane-imide) with Superior Mechanical Properties

Author

Hongrong Pu, Tianbo Zhao, Rui Ma, Xiaoqian Xie, Mingliang Sun, and Yonghong Cui

Subjects
chemistry.chemical_classification, Materials science, General Chemical Engineering, General Chemistry, Polymer, Article, chemistry.chemical_compound, Chemistry, chemistry, Hydroxyl-terminated polybutadiene, Chemical engineering, X-ray crystallography, Imide, Glass transition, QD1-999, Polyurethane
Abstract

Interpenetrating polymer networks (IPNs) based on triisocyanate-terminated poly(urethane-imide)s (PUIs) were prepared by in situ interpenetrating reactions between modified polyurethane (PU) with different ratios of polyimide (PI). The effects of PU, which was made from hydroxyl-terminated polybutadiene modified with triisocyanate, and the amounts of PI on the mechanical properties, thermal properties, and crystalline character of the IPNs were discussed. Triisocyanate-terminated PUI showed that the highest tensile strength was 38 times that of the diisocyanate-terminated materials. Supramolecular cross-linking from an additional hydrogen-bonding network of modified PU and the degree of interpenetration with a regular imide structure of PI were introduced, which accounted for the remarkable improvement in mechanical properties of IPNs. Preferable thermal stability and glass transition temperature for the hard segment of IPNs were rewarded with increasing PI content. X-ray diffraction revealed vigorous segmental mixing between the soft and hard segments of modified PUI. Scanning electron micrographs showed the "fibrous assembly" morphology and short-range-ordered structure of modified PUI.

Published
2020

43. Halogenation on terminal groups of ITIC based electron acceptors as an effective strategy for efficient polymer solar cells

Author

Mingliang Sun, Kaili Zhang, Shujing Lu, Wen Cui, Renqiang Yang, Feng Li, Jie Zhu, and Liangmin Yu

Subjects
chemistry.chemical_classification, Materials science, Renewable Energy, Sustainability and the Environment, 020209 energy, Intermolecular force, Halogenation, 02 engineering and technology, Electron acceptor, 021001 nanoscience & nanotechnology, Photochemistry, Acceptor, Small molecule, Polymer solar cell, chemistry, Halogen, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, 0210 nano-technology, HOMO/LUMO
Abstract

Acceptor halogenation is an excellent modification method for modulating molecular energy levels, improving optical absorption, shortening the intermolecular packing distance thus ameliorating morphologies and achieving effective exciton dissociation and charge transfer of organic photovoltaic device. In this work, F, Cl and Br terminated ITIC small molecule acceptor (SMA) derivatives (IT-2F, IT-2Cl and IT-2Br) are designed and synthesized to compare the halogen substitution effect. Among these three acceptors, IT-2F based PSCs devices show the highest power conversion efficiencies (PCEs) around 12.08%, but Br terminated ITIC show downshifted LUMO energy level. Brominated ITIC show comparable PCEs with Cl and F terminated compound, and moreover chlorinated and brominated ITIC show low synthesis cost and easy purification than fluorinated materials, which may be favorable for future commercialization.

Published
2020

48. Ester-Substituted Pentathiophene Copolymer-Based Sky-Blue Semitransparent Solar Cells for Building Windows

Author

Mingliang Sun, Quanliang Wang, Feng Li, Liangmin Yu, Kun Zhu, Xin Jing, and Xiangkun Wang

Subjects
chemistry.chemical_classification, Benzotriazole, Materials science, media_common.quotation_subject, Energy Engineering and Power Technology, Polymer, chemistry.chemical_compound, chemistry, Sky, Polymer chemistry, Materials Chemistry, Electrochemistry, Copolymer, Chemical Engineering (miscellaneous), Electrical and Electronic Engineering, media_common
Abstract

For oligothiophene-based donor polymers, the reports of pentathiophene are rare, while other oligothiophenes (bi-, ter-, and quaterthiophene) have been broadly studied. Here, we synthesized one wid...

Published
2019

49. Study on Dynamic Probability and Quantitative Risk Calculation Method of Domino Accident in Pool Fire in Chemical Storage Tank Area

Author

Mingqing, Su, Lijun, Wei, Shennan, Zhou, Guoliang, Yang, Rujun, Wang, Yingquan, Duo, Sining, Chen, Mingliang, Sun, Jiahang, Li, and Xiangbei, Kong

Subjects
domino fire accident, Monte Carlo simulation, synergic effect, chemical storage tank, judgment criterion, quantitative risk analysis, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health
Abstract

The domino event caused by fire is one of the common accidents in hydrocarbon storage tank farms, which further expands the severity and scope of the accident. Due to the different failure sequence of the storage tanks in a domino accident, the radiant heat generated by the failed storage tank to the target tank is different. Based on the influence of this synergistic effect, this study combined the Monte Carlo algorithm and FSEM, and proposed a fast real-time probability calculation method for a fire domino accident in a storage tank area, for the first time. This method uses the Monte Carlo algorithm to simulate all accident scenarios, and obtains the evolution of multiple escalation fire domino accidents under the synergistic effect according to FSEM, and then calculates the real-time failure probability and risk. Based on a comprehensive analysis of the accident propagation path, this method avoids the problem of a large amount of calculation, and is conducive to the rapid and effective analysis of the fire risk in a storage tank area and the formulation of corresponding risk reduction measures. The effectiveness and superiority of the proposed method were proved by a case study.

Published
2022

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