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3. Storing light near an exceptional point

Author

Yicheng Zhu, Jiankun Hou, Qi Geng, Boyi Xue, Yuping Chen, Xianfeng Chen, Li Ge, and Wenjie Wan

Subjects
Science
Abstract

Abstract Photons with zero rest mass are impossible to be stopped. However, a pulse of light can be slowed down and even halted through strong light-matter interaction in a dispersive medium in atomic systems. Exceptional point (EP), a non-Hermitian singularity point, can introduce an abrupt transition in dispersion. Here we experimentally observe room-temperature storing light near an exceptional point induced by nonlinear Brillouin scattering in a chip-scale 90-μm-radius optical microcavity, the smallest platform up to date to store light. Through nonlinear coupling, a Parity-Time (PT) symmetry can be constructed in optical-acoustical hybrid modes, where Brillouin scattering-induced absorption (BSIA) can lead to both slow light and fast light of incoming pulses. A subtle transition of slow-to-fast light reveals a critical point for storing a light pulse up to half a millisecond. This compact and room-temperature scheme of storing light paves the way for practical applications in all-optical communications and quantum information processing.

Published
2024
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4. Air-stable silicon hybrid solar cells constructed via hydrophobic polymer film

Author

Qi Geng, Zhen Liu, Yuzhou Liu, Zhe Wang, Zhongliang Gao, Xin Sun, Yingfeng Li, Lei Chen, Xiaojun Lv, and Meicheng Li

Subjects
Hydrophobic, PEDOT, Si, Hybrid, Solar cells, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Silicon (Si) hybrid solar cells have advantages of solution manufacturing process and the potential for achieving low-cost fabrication compared to crystalline Si solar cells. However, the functional layer prepared by solution method usually absorbs water molecules from the air, posing a challenge to the stability of the device. Here, a PEDOT derivative, PEDOT:A, was in situ prepared through the introduction of a fluoropolymer, yielding a strongly hydrophobic film that was assembled into a PEDOT:A/Si hybrid solar cell. The PEDOT:A/Si hybrid solar cells retained 90% of its initial performance after storage in the air for 300 h, while PEDOT:PSS only retained 60% with identical device structure. Meanwhile, first principles calculations indicate that the binding energy between fluoropolymer and water molecule was 3.48 kJ/mol, whereas the binding energy between PSS and water molecule was −5.76 kJ/mol. Benefiting from the weak interaction between fluoropolymer and water molecule, the contact angle of water on PEDOT:A film was 100.84°. After optimization, PEDOT:A/Si hybrid solar cells with ITO achieved a power conversion efficiency of 6.43%, retained 97% of its initial efficiency after testing under same conditions. The development of air-stable hybrid device technology is promising in opening up practical applications of low-cost Si based solar cells.

Published
2025
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5. Efficacy and safety of integrated traditional Chinese and Western medicine for rheumatoid arthritis-interstitial lung disease: A systematic review and meta-analysis

Author

Peipei Lu, Li Li, Bin Liu, Zhiwen Cao, Qi Geng, Xinyu Ji, Yan Zhang, Lijuan Tang, Zhongde Zhang, and Cheng Lu

Subjects
Rheumatoid arthritis, Interstitial lung disease, Traditional Chinese Medicine, Integrated traditional Chinese and Western medicine, Meta-analysis, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Objective: To systematically evaluate the efficacy and safety of integrated traditional Chinese and Western medicine(TCM-WM) for the treatment of rheumatoid arthritis-associated interstitial lung disease (RA-ILD). Materials and methods: An independent search of electronic databases (PubMed, Excerpta Medica Database, Cochrane Central Register of Controlled Trials, OVID Medline, China National Knowledge Infrastructure, WanFang Data, VIP Data databases, and China Biology Medicine disc) from inception to June 25, 2024 was performed to identify studies treating RA-ILD that used combined Chinese and Western medicine treatment compared to Western medicine. Two researchers independently audited each article, and the quality was assessed using the Cochrane Risk of Bias Assessment Tool 2 and the modified Jadad. Meta-analyses were performed using Review Manager 5.4 and Stata 16.0 software to analyze data. Sample certainty and conclusiveness of evidence were assessed using the Grading of Recommendations Assessment, Development, and Evaluation Profiler (GRADEPRO) and trial sequential analysis(TSA) 0.9.5.10 beta. Results: Eighteen randomised controlled trials (RCT), including 1353 patients, were abstracted. Integrated traditional Chinese and Western medicine was significantly more effective than Western medicine in improving lung function in patients with rheumatoid arthritis-associated interstitial lung disease, including forced vital capacity (FVC) (Standardized Mean Difference (SMD) = 1.44, 95 % CI 0.93 to 1.95, P

Published
2024
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6. Study on the influence of TBM disc cutter on the penetration of extremely hard rock in Zijing Tunnel

Author

Chao Gao, Yufeng Huang, Qi Geng, Xiaowu Han, Huijian Zhang, Rucheng Hu, and Fei Liu

Subjects
Full-face rock tunnel boring machine, diorite, disc cutter, penetration depth, discrete element, Architectural engineering. Structural engineering of buildings, TH845-895, Structural engineering (General), TA630-695
Abstract

The reasonable setting of TBM disc cutter penetration depth is crucial for its rock-breaking efficiency in extremely hard rock geology. In the construction section of the Dujiangyan to Mount Siguniang Zijing Tunnel project, which encountered extremely hard diorite rock (with uniaxial compressive strength exceeding 230 MPa), to reveal the influence of penetration depth on disc cutter cutting of extremely hard diorite rock, the following steps were taken: Firstly, using a self-developed small-scale disc cutter linear rock-breaking test platform, experiments were conducted for four penetration depths: 1.5, 2.0, 2.5, and 3.0 mm, under fixed cutter spacing and with/without confinement conditions. Secondly, employing a high-precision crystalline rock material modeling method based on three-dimensional particle clusters, a full-scale numerical model of disc cutter linear cutting of diorite rock was established. Seven penetration depths ranging from 1.0 to 10.0 mm were tested under a fixed cutter spacing of 80 mm. Results indicate that under lateral confinement, diorite failure shifts from slip and extrusion to crushing, while under no confinement, it primarily spalls laterally with increased rock debris and ejection distance as penetration increases. Disc cutter normal force rises with penetration, with a critical 4mm point after which load increases slowly but penetration significantly, marking an efficient rock breaking stage. Specific energy efficiency peaks at 3mm penetration in tests and 4mm in simulations, attributed to test bench limitations. Combined results suggest an optimal penetration of 4mm.

Published
2024

7. Effective Synthesis of mRNA during In Vitro Transcription with Fewer Impurities Produced

Author

Wei He, Qi Geng, Guiying Ji, Ji Li, Dan Wang, Yucai He, Qiuheng Jin, and Jianren Ye

Subjects
mRNA, in vitro transcription, impurities, dsRNA, mRNA integrity, Organic chemistry, QD241-441
Abstract

The remarkable efficacy of COVID-19 vaccines has established mRNA as a highly promising biomedical technology. However, the adequate application of mRNA therapeutics necessitates additional measures to mitigate the inherent immunogenicity, which is predominantly caused by dsRNA. As a byproduct of the in vitro transcription of mRNA, dsRNA was reported to be originated through several distinct mechanisms, including the extension of 3′ loop-back hairpins, the extension of hybridized abortive transcripts, and promoter-independent transcription. The intricate mechanisms involved pose a dilemma as the reduction in dsRNA results in a concomitant decrease in other critical quality attributes of mRNA. Here, we demonstrate that the promoter binding motifs of T7 RNA polymerase directly impact the production of promoter-independent transcription-based dsRNA. Specifically, the G753A mutation significantly reduces the formation of dsRNA byproducts, which can further combine with modified nucleotides to enhance the effectiveness of dsRNA mitigation and with previously reported high-integrity mutation K389A to minimize side effects. Accordingly, the present study reports a cost-effective approach to synthesize high-purity, less immunostimulatory mRNA by using an engineered T7 RNA polymerase mutant.

Published
2024
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9. Maternal vitamin B1 is a determinant for the fate of primordial follicle formation in offspring

Author

Wen-Xiang Liu, Hai-Ning Liu, Zhan-Ping Weng, Qi Geng, Yue Zhang, Ya-Feng Li, Wei Shen, Yang Zhou, and Teng Zhang

Subjects
Science
Abstract

Abstract The mediation of maternal-embryonic cross-talk via nutrition and metabolism impacts greatly on offspring health. However, the underlying key interfaces remain elusive. Here, we determined that maternal high-fat diet during pregnancy in mice impaired preservation of the ovarian primordial follicle pool in female offspring, which was concomitant with mitochondrial dysfunction of germ cells. Furthermore, this occurred through a reduction in maternal gut microbiota-related vitamin B1 while the defects were restored via vitamin B1 supplementation. Intriguingly, vitamin B1 promoted acetyl-CoA metabolism in offspring ovaries, contributing to histone acetylation and chromatin accessibility at the promoters of cell cycle-related genes, enhancement of mitochondrial function, and improvement of granulosa cell proliferation. In humans, vitamin B1 is downregulated in the serum of women with gestational diabetes mellitus. In this work, these findings uncover the role of the non-gamete transmission of maternal high-fat diet in influencing offspring oogenic fate. Vitamin B1 could be a promising therapeutic approach for protecting offspring health.

Published
2023
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10. Bioinformatics-led discovery of liver-specific genes and macrophage infiltration in acute liver injury

Author

Zhiwen Cao, Peipei Lu, Li Li, Qi Geng, Lin Lin, Lan Yan, Lulu Zhang, Changqi Shi, Ning Zhao, Xiaojuan He, Yong Tan, and Cheng Lu

Subjects
acute liver injury, immunoinfiltration, bioinformatics, acetaminophen, triptolide, Immunologic diseases. Allergy, RC581-607
Abstract

BackgroundAcute liver injury (ALI) is an important global health concern, primarily caused by widespread hepatocyte cell death, coupled with a complex immune response and a lack of effective remedies. This study explores the underlying mechanisms, immune infiltration patterns, and potential targets for intervention and treatment ALI.MethodsThe datasets of acetaminophen (APAP), carbon tetrachloride (CCl4), and lipopolysaccharide (LPS)-induced ALI were obtained from the GEO database. Differentially expressed genes (DEGs) were individually identified using the limma packages. Functional enrichment analysis was performed using KEGG, GO, and GSEA methods. The overlapping genes were extracted from the three datasets, and hub genes were identified using MCODE and CytoHubba algorithms. Additionally, PPI networks were constructed based on the String database. Immune cell infiltration analysis was conducted using ImmuCellAI, and the correlation between hub genes and immune cells was determined using the Spearman method. The relationship between hub genes, immune cells, and biochemical indicators of liver function (ALT, AST) was validated using APAP and triptolide (TP) -induced ALI mouse models.ResultsFunctional enrichment analysis indicated that all three ALI models were enriched in pathways linked to fatty acid metabolism, drug metabolism, inflammatory response, and immune regulation. Immune analysis revealed a significant rise in macrophage infiltration. A total of 79 overlapping genes were obtained, and 10 hub genes were identified that were consistent with the results of the biological information analysis after screening and validation. Among them, Clec4n, Ms4a6d, and Lilrb4 exhibited strong associations with macrophage infiltration and ALI.

Published
2023
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14. Nauclea officinalis: A Chinese medicinal herb with phytochemical, biological, and pharmacological effects

Author

Bin Liu, Qi Geng, Zhiwen Cao, Li Li, Peipei Lu, Lin Lin, Lan Yan, and Cheng Lu

Subjects
Nauclea officinalis, Phytochemistry, Biological activity, Pharmacological effect, Other systems of medicine, RZ201-999
Abstract

Abstract Nauclea officinalis (N. officinalis), a medicinal plant of the genus Nauclea in the family Rubiaceae, is used in the treatment of fever, pneumonia, pharyngolaryngitis, and enteritis in China. Extracts of N. officinalis include alkaloids, phenolic acids, pentacyclic triterpenoids, and flavonoids, which exert all kinds of pharmacological effects, for instance anti-inflammatory, anti-tumor, antibacterial, and antiviral and therefore show good effectiveness. To gain a comprehensive and deep understanding, the medicinal chemistry and chemical biology of N. officinalis are summarized in this review to provide a theoretical basis. The pharmacological effects were reviewed to provide evidence or insights into potential opportunities for further studies and medicinal exploitation of N. officinalis.

Published
2022
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15. Serum metabolomics analysis of deficiency pattern and excess pattern in patients with rheumatoid arthritis

Author

Bin Liu, Hongtao Guo, Li Li, Qi Geng, Ning Zhao, Yong Tan, Zhixing Nie, Guilin Ouyang, Aiping Lu, and Cheng Lu

Subjects
Serum metabolomics, Rheumatoid arthritis, Deficiency pattern, Excess pattern, Other systems of medicine, RZ201-999
Abstract

Abstract Background Rheumatoid arthritis (RA) is a chronic and refractory autoimmune disease. Deficiency pattern (DP) and excess pattern (EP), as crucial types of Chinese medicine pattern diagnoses published by International Classification of Diseases 11th Revision (ICD-11), could provide new strategies for RA diagnosis. However, the biological basis of DP and EP of RA is not explicit. Methods 19 female RA DP patients, 41 female RA EP patients and 30 female healthy participants were included in the study. The serums of participants were collected and analyzed by metabolomics based on ultra-performance liquid chromatography coupled with quadrupole time-of-flight mass spectrometry to profile metabolic characteristics of RA DP and EP. Furthermore, bioinformatics analysis results were obtained by using Ingenuity Pathway Analysis (IPA) and statistical analysis was performed by SAS version 9.4 for further identification of potential biomarkers. Results Serum metabolic profiling revealed 25 and 24 differential metabolites in RA DP and EP respectively, and 19 metabolites were common to RA DP and EP. Compared with DP group, L-Homocysteic acid, LysoPE(P-16:0/0:0), N(omega)-Hydroxyarginine and LysoPC(16:0/0:0) decreased (P

Published
2022
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16. DNA2 knockout aggravates cerebral ischemia/reperfusion injury by reducing postsynaptic Homer1a.

Author

Ting Ma, Yu-Meng Li, Peng-Yu Ren, Shi-Quan Wang, Xiang-Long Liu, Wen-Bo Lv, Wu-Gang Hou, Wen-Qiang Zuo, Wei-Qiang Lin, Jian Sima, and An-Qi Geng

Subjects
DNA repair, CEREBRAL ischemia, REPERFUSION injury, RNA sequencing, ARTERIAL occlusions
Abstract

DNA2, a multifunctional enzyme with structure-specific nuclease, 5'-to-3' helicase, and DNA-dependent ATPase activities, plays a pivotal role in the cellular response to DNA damage. However, its involvement in cerebral ischemia/reperfusion (I/R) injury remains to be elucidated. This study investigated the involvement of DNA2 in cerebral I/R injury using conditional knockout (cKO) mice (Nestin-Cre) subjected to middle cerebral artery occlusion (MCAO), an established model of cerebral I/R. Results demonstrated a gradual up-regulation of DNA2 expression, peaking at 72 h post-MCAO. Notably, DNA2 cKO mice exhibited more pronounced brain injury, neurological deficits, and neuronal apoptosis within the penumbra following MCAO. Additionally, DNA2 expression was elevated in an oxygen-glucose deprivation/reoxygenation (OGD/R) cell culture model, and DNA2 knockdown (KD) exacerbated neuronal apoptosis and oxidative stress. Transcriptome analysis of ischemic penumbra tissues via RNA sequencing revealed significant down-regulation of Homer1 in DNA2 cKO mice. Furthermore, in vitro experiments demonstrated that overexpression of Homer1a ameliorated DNA2 KD-induced neuronal apoptosis. Collectively, these findings demonstrate that DNA2 deficiency exacerbates cerebral I/R injury through the down-regulation of Homer1a, highlighting a novel regulatory axis in ischemic neuroprotection. [ABSTRACT FROM AUTHOR]

Published
2025
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17. Elevated testicular apoptosis is associated with elevated sphingosine driven by gut microbiota in prediabetic sheep

Author

Yuanchao Sun, Peng Sun, Yanting Hu, Liying Shan, Qi Geng, Yutian Gong, Haitao Fan, Teng Zhang, and Yang Zhou

Subjects
Male infertility, Prediabetes, 16S-rDNA, Metabolome, Sphingosine, Melatonin, Biology (General), QH301-705.5
Abstract

Abstract Background Men with prediabetes often exhibit concomitant low-quality sperm production or even infertility, problems which urgently require improved therapeutic options. In this study, we have established a sheep model of diet-induced prediabetes that is associated with spermatogenic defects and have explored the possible underlying metabolic causes. Results We compared male sheep fed a normal diet with those in which prediabetes was induced by a rich diet and with a third group in which the rich diet was supplemented by melatonin. Only the rich diet group had symptoms of prediabetes, and in these sheep, we found impaired spermatogenesis characterized by a block in the development of round spermatids and an increased quantity of testicular apoptotic cells. Comparing the gut microbiomes and intestinal digest metabolomes of the three groups revealed a distinctive difference in the taxonomic composition of the microbiota in prediabetic sheep, and an altered metabolome, whose most significant feature was altered sphingosine metabolism; elevated sphingosine was also found in blood and testes. Administration of melatonin alleviated the symptoms of prediabetes, including those of impaired spermatogenesis, while restoring a more normal microbiota and metabolic levels of sphingosine. Fecal microbiota transplantation from prediabetic sheep induced elevated sphingosine levels and impaired spermatogenesis in recipient mice, indicating a causal role of gut microbiota in these phenotypes. Conclusions Our results point to a key role of sphingosine in the disruption of spermatogenesis in prediabetic sheep and suggest it could be a useful disease marker; furthermore, melatonin represents a potential prebiotic agent for the treatment of male infertility caused by prediabetes.

Published
2022
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18. A polyketide synthase from Verticillium dahliae modulates melanin biosynthesis and hyphal growth to promote virulence

Author

Huan Li, Dan Wang, Dan-Dan Zhang, Qi Geng, Jun-Jiao Li, Ruo-Cheng Sheng, Hui-Shan Xue, He Zhu, Zhi-Qiang Kong, Xiao-Feng Dai, Steven J. Klosterman, Krishna V. Subbarao, Feng-Mao Chen, and Jie-Yin Chen

Subjects
Verticillium dahliae, Polyketide synthase, Melanin, Microsclerotia, Hyphal growth, Virulence, Biology (General), QH301-705.5
Abstract

Abstract Background During the disease cycle, plant pathogenic fungi exhibit a morphological transition between hyphal growth (the phase of active infection) and the production of long-term survival structures that remain dormant during “overwintering.” Verticillium dahliae is a major plant pathogen that produces heavily melanized microsclerotia (MS) that survive in the soil for 14 or more years. These MS are multicellular structures produced during the necrotrophic phase of the disease cycle. Polyketide synthases (PKSs) are responsible for catalyzing production of many secondary metabolites including melanin. While MS contribute to long-term survival, hyphal growth is key for infection and virulence, but the signaling mechanisms by which the pathogen maintains hyphal growth are unclear. Results We analyzed the VdPKSs that contain at least one conserved domain potentially involved in secondary metabolism (SM), and screened the effect of VdPKS deletions in the virulent strain AT13. Among the five VdPKSs whose deletion affected virulence on cotton, we found that VdPKS9 acted epistatically to the VdPKS1-associated melanin pathway to promote hyphal growth. The decreased hyphal growth in VdPKS9 mutants was accompanied by the up-regulation of melanin biosynthesis and MS formation. Overexpression of VdPKS9 transformed melanized hyphal-type (MH-type) into the albinistic hyaline hyphal-type (AH-type), and VdPKS9 was upregulated in the AH-type population, which also exhibited higher virulence than the MH-type. Conclusions We show that VdPKS9 is a powerful negative regulator of both melanin biosynthesis and MS formation in V. dahliae. These findings provide insight into the mechanism of how plant pathogens promote their virulence by the maintenance of vegetative hyphal growth during infection and colonization of plant hosts, and may provide novel targets for the control of melanin-producing filamentous fungi.

Published
2022
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19. Exercise protects vascular function by countering senescent cells in older adults

Author

Jinqi Meng, Qi Geng, Sheng Jin, Xu Teng, Lin Xiao, Yuming Wu, and Danyang Tian

Subjects
exercise, senescence, vascular function, cardiovascular diseases, aging, Physiology, QP1-981
Abstract

Blood vessels are key conduits for the transport of blood and circulating factors. Abnormalities in blood vessels promote cardiovascular disease (CVD), which has become the most common disease as human lifespans extend. Aging itself is not pathogenic; however, the decline of physiological and biological function owing to aging has been linked to CVD. Although aging is a complex phenomenon that has not been comprehensively investigated, there is accumulating evidence that cellular senescence aggravates various pathological changes associated with aging. Emerging evidence shows that approaches that suppress or eliminate cellular senescence preserve vascular function in aging-related CVD. However, most pharmacological therapies for treating age-related CVD are inefficient. Therefore, effective approaches to treat CVD are urgently required. The benefits of exercise for the cardiovascular system have been well documented in basic research and clinical studies; however, the mechanisms and optimal frequency of exercise for promoting cardiovascular health remain unknown. Accordingly, in this review, we have discussed the changes in senescent endothelial cells (ECs) and vascular smooth muscle cells (VSMCs) that occur in the progress of CVD and the roles of physical activity in CVD prevention and treatment.

Published
2023
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20. Ethnobotany, phytochemistry and pharmacological properties of Fagopyri Dibotryis Rhizoma: A review

Author

Qi Geng, Bin Liu, Zhiwen Cao, Li Li, Peipei Lu, Lin Lin, Lan Yan, and Cheng Lu

Subjects
Fagopyri Dibotryis Rhizoma, ethnobotany, application, phytochemistry, pharmacology, Therapeutics. Pharmacology, RM1-950
Abstract

Fagopyri Dibotryis Rhizoma (FDR) is an effective Chinese herbal medicine with a long history of use in China. FDR is effective in heat clearing and detoxifying, promotion of blood circulation, relieving carbuncles, dispelling wind, and removing dampness. Its seeds also have high nutritional value, are rich in protein, and contain a variety of mineral elements and vitamins. Therefore, FDR is considered a natural product with medical and economic benefits, and its chemical composition and pharmacological activity are of interest to scientists. The current review provides an overview of the available scientific information on FDR, particularly its botany, chemical constituents, and pharmacological activities. Various sources of valid and comprehensive relevant information were consulted, including the China National Knowledge Infrastructure, Web of Science, and PubMed. Among the keywords used were “Fagopyri Dibotryis Rhizoma”, “botanical features”, “chemical composition”, and “pharmacological activity” in combination. Various ailments are treated with FDR, such as diabetes, tumor, sore throat, headache, indigestion, abdominal distension, dysentery, boils, carbuncles, and rheumatism. FDR is rich in organic acids, tannins, flavonoids, steroids, and triterpenoids. Experiments performed in vitro and in vivo showed that FDR extracts or fractions had a wide range of pharmacological activities, including antitumor, anti-inflammatory, immunomodulatory, antioxidant, antimicrobial, and antidiabetic. The current review provides an integrative perspective on the botany, phytochemistry and pharmacological activities of FDR. FDR may be used as a medicine and food. Based on its chemical composition and pharmacological effects, the main active ingredients of FDR are organic acids, tannins, and flavonoids, and it has obvious antitumor pharmacological activity against a variety of malignant tumors. Therefore, FDR is worthy of further study and application as a potential antitumor drug.

Published
2023
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21. Targets preliminary screening for the fresh natural drug molecule based on Cosine-correlation and similarity-comparison of local network

Author

Pengcheng Zhao, Lin Lin, Mozheng Wu, Lili Wang, Qi Geng, Li Li, Ning Zhao, Jianyu Shi, and Cheng Lu

Subjects
Targets screening, Fresh natural drug molecule, Cosine-correlation, Similarity-comparison, Western-Blot, Medicine
Abstract

Abstract Background Chinese herbal medicine is made up of hundreds of natural drug molecules and has played a major role in traditional Chinese medicine (TCM) for several thousand years. Therefore, it is of great significance to study the target of natural drug molecules for exploring the mechanism of treating diseases with TCM. However, it is very difficult to determine the targets of a fresh natural drug molecule due to the complexity of the interaction between drug molecules and targets. Compared with traditional biological experiments, the computational method has the advantages of less time and low cost for targets screening, but it remains many great challenges, especially for the molecules without social ties. Methods This study proposed a novel method based on the Cosine-correlation and Similarity-comparison of Local Network (CSLN) to perform the preliminary screening of targets for the fresh natural drug molecules and assign weights to them through a trained parameter. Results The performance of CSLN is superior to the popular drug-target-interaction (DTI) prediction model GRGMF on the gold standard data in the condition that is drug molecules are the objects for training and testing. Moreover, CSLN showed excellent ability in checking the targets screening performance for a fresh-natural-drug-molecule (scenario simulation) on the TCMSP (13 positive samples in top20), meanwhile, Western-Blot also further verified the accuracy of CSLN. Conclusions In summary, the results suggest that CSLN can be used as an alternative strategy for screening targets of fresh natural drug molecules.

Published
2022
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22. Research progress in improving the performance of PEDOT:PSS/Micro- and Nano-textured Si heterojunction for hybrid solar cells

Author

Guilu Lin, Zhongliang Gao, Ting Gao, Yongcong Chen, Qi Geng, Yingfeng Li, Lei Chen, and Meicheng Li

Subjects
PEDOT:PSS/Si heterojunction, Si Micro/Nano structures, Interface modification, Deposition method of PEDOT:PSS, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Silicon-based hybrid solar cells (HSCs), especially PEDOT:PSS/Si HSC, have attracted the interest of researchers because they combine the advantages of organic and inorganic materials. A high quality PEDOT:PSS/Si heterojunction is the key to the good performance of PEDOT:PSS/Si HSC. However, as generally requisite to enhance light absorption for HSCs, Si Micro/Nano structures will reduce the interface contact quality between PEDOT:PSS and Si surface. The inferior interface contact quality will limit the separation efficiency of the photogenerated carriers. In this paper, we summarize the research progress in improving the interface contact between Si Micro/Nano structures and PEDOT:PSS film from three aspects: the optimization of Si Micro/Nano structures aimed to improve the fluid properties of PEDOT:PSS solution, the material modification of PEDOT:PSS and interface modification with the purpose to enlarge the heterojunction area and improve the electrical contact, and the specific deposition process of PEDOT:PSS solution developed to achieve the high filling rate of PEDOT:PSS on Si Micro/Nano structures. The insight of this paper is helpful for the preparation of high-quality heterojunction, which is vitally important for the development of high efficiency PEDOT:PSS/Si HSCs.

Published
2021
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23. Optimization of πT Hybrid Structure of 110 kV Power Grid

Author

Zhiyong SHI, Guomin WANG, Qi GENG, Yuan ZHANG, and Tianhua WANG

Subjects
network structure, πt hybrid, chain type π connection, single-bus section, Applications of electric power, TK4001-4102, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Science
Abstract

There are some operational problems of the πT hybrid structure, such as large workload of operation and maintenance, poor flexibility and scalability, which can not meet the increasing demand for power supply reliability. In this paper, the optimization scheme of the πT hybrid structure connection structure was put forward, and the technical and economic demonstration of the optimization scheme was carried out. The concrete alteration scheme of πT mode to chain π connection mode was studied, and the networking principle of 110 kV power grid was established, which can direct the implementation and landing of the optimization of the 110 kV power grid with πT hybrid structure.

Published
2020
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24. The Imbalance of Cytokines and Lower Levels of Tregs in Elderly Male Primary Osteoporosis

Author

Wei Zhang, Wei Zhao, Wei Li, Qi Geng, Rui Zhao, Yungui Yang, Luyan Lv, and Weiwen Chen

Subjects
male primary osteoporosis, bone mineral density, cytokines, Treg cells, bone turnover markers, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

IntroductionOsteoporosis (OP) is a debilitating disease that brings a heavy burden to individuals and society with reduced quality of life and lifespan. However, it’s frequently overlooked and poorly studied in elderly male patients. Worse still, few anti-osteoporosis drugs are effective at the prevention and treatment of osteoporosis in men. It has been reported that the cells of bone and the immune system share common progenitors, cytokines and growth factors, and that reciprocal interactions occur during health and disease. Nevertheless, the role of immune system in OP is not fully understood, especially in male patients. Therefore, this study aimed to investigate molecular alterations in immune cells in men with OP and to identify immunomodulatory strategies with potential therapeutic value.Materials and MethodsA population of 121 men aged between 51 and 80 years old was recruited. Bone mineral density (BMD) was measured at the lumbar spine L1-4 and femoral neck using dual-energy X-ray absorptiometry (DXA). Twenty people were healthy, 66 people had osteopenia and 35 people had OP. Bone metabolic markers, Th1, Th2, Tregs and immune molecules were evaluated at the time of enrollment.ResultsSmoking was a risk factor for OP. C-terminal crosslinking of type I collagen (β-CTX) and the ratio of receptor activator of nuclear factor-κB ligand (RANKL) to osteoprotegerin (OPG) were higher in OP group, which had lower 25-hydroxyvitamin D [25(OH)D] levels. OP had the higher levels of IL-6 and TNF-α and lower levels of IFN-γ and IL-10. CD4+CD25+CD127-/low Tregs were significantly lower in the OP group. The imbalance of Th1/Th2 cells may play an important role in the development of OP. 25(OH)D may play essential roles in maintaining bone health. The low level of Tregs is also one of the underlying immune mechanism that leads to male primary OP.ConclusionThe active function of osteoclasts and the decline in osteoblasts were characteristics of OP, and the imbalance in cytokines and lower levels of Tregs were observed in elderly male patients with primary OP.

Published
2022
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25. The Verticillium dahliae Spt-Ada-Gcn5 Acetyltransferase Complex Subunit Ada1 Is Essential for Conidia and Microsclerotia Production and Contributes to Virulence

Author

Qi Geng, Huan Li, Dan Wang, Ruo-Cheng Sheng, He Zhu, Steven J. Klosterman, Krishna V. Subbarao, Jie-Yin Chen, Feng-Mao Chen, and Dan-Dan Zhang

Subjects
Verticillium dahliae, SAGA complex, Ada1 subunit, melanin biosynthesis, virulence, transcriptional regulatory function, Microbiology, QR1-502
Abstract

Verticillium dahliae is a destructive soil-borne pathogen of many economically important dicots. The genetics of pathogenesis in V. dahliae has been extensively studied. Spt-Ada-Gcn5 acetyltransferase complex (SAGA) is an ATP-independent multifunctional chromatin remodeling complex that contributes to diverse transcriptional regulatory functions. As members of the core module in the SAGA complex in Saccharomyces cerevisiae, Ada1, together with Spt7 and Spt20, play an important role in maintaining the integrity of the complex. In this study, we identified homologs of the SAGA complex in V. dahliae and found that deletion of the Ada1 subunit (VdAda1) causes severe defects in the formation of conidia and microsclerotia, and in melanin biosynthesis and virulence. The effect of VdAda1 on histone acetylation in V. dahliae was confirmed by western blot analysis. The deletion of VdAda1 resulted in genome-wide alteration of the V. dahliae transcriptome, including genes encoding transcription factors and secreted proteins, suggesting its prominent role in the regulation of transcription and virulence. Overall, we demonstrated that VdAda1, a member of the SAGA complex, modulates multiple physiological processes by regulating global gene expression that impinge on virulence and survival in V. dahliae.

Published
2022
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26. Geometry evolution of mesoscopic mechanical structures during the rock fragmentation process induced by tunnel boring machine (TBM) cutters

Author

Qi Geng, Fei He, Zhiyong Lu, Xiaohui Liu, Xuebin Wang, and Min Ye

Subjects
tunnel boring machine, rock fragmentation, grain-based discrete element method, mesoscopic evolution, meso-loop, Science
Abstract

We investigated the geometric evolution of mesoscopic mechanical structures in rocks during the rock fragmentation process induced by tunnel boring machine cutters. Numerical models were built using a grain-based discrete element method to accurately represent the mesoscopic structures and macroscopic mechanical behaviours of rocks, and the relationship between the mesoscopic evolution and the macroscopic response of rock was determined. The major results are as follows. First, the crushing and re-compaction of the grains were found to mainly occur in the thin crushed zone immediately beneath the cutter tip. Second, the reduction in the bearing ability of the dense core during cutter indentation was due to the order increment of the contact topological structure at the mesoscopic scale. Third, the area percentages of low- and high-order meso-loops decreased and increased, respectively, during the indentation process, and the volume expansion of the dense core was mainly caused by an increase in the internal pore area of high-order meso-loops that have low internal solid fractions. Fourth, the low-order meso-loops primarily bore and transferred the indentation force. Finally, the distribution contour of the meso-loops was found to be an appropriate and intuitive approach for representing the evolution of cracks on a macroscopic scale.

Published
2022
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28. Effect of the Hydrogen Injection Position on the Combustion Process of a Direct Injection X-Type Rotary Engine with a Hydrogen Blend

Author

Qi Geng, Xuede Wang, Yang Du, Zhenghao Yang, Rui Wang, and Guangyu He

Subjects
X-type rotary engine, hydrogen–gasoline fuel, in-cylinder direct injection, injection position, combustion performance, carbon emission, Technology
Abstract

As a new type of power device, the X-type rotary engine (XRE) is regarded as a major revolution of the internal combustion engine with its special structure and high-efficiency hybrid cycle (HEHC). A 3D CFD model of an XRE with hydrogen–gasoline fuel is firstly built in this paper. The gasoline is premixed with air in the intake of the XRE. The hydrogen is directly injected (DI) into the cylinder with four different injection positions. The effects of the hydrogen injection position on the combustion process, engine thermodynamic performance, and unburned carbon emissions and NOx emissions are investigated. The results show that, due to the interaction between the in-cylinder main flow field and the injected hydrogen gas flow, different hydrogen concentration zones are formed at different injection positions. Furthermore, a larger hydrogen distribution area and being closer to the ignition position led to a faster in-cylinder combustion rate and a higher in-cylinder temperature and pressure. When the injection position is from the front to the back of the combustion chamber such as in position 2, the hydrogen has the widest distribution area and is closest to the ignition position, resulting in its fastest combustion speed. Meanwhile, the peak in-cylinder pressure is 3.73 MPa and the peak temperature is a maximum of 1835.16 K. Especially, the highest indicated thermal efficiency of 26.56% is found in position 2, which is 10.08% higher than that of position 4 (from right to left of the combustion chamber), which was 24.13%. At the same time, due to the best overall combustion effect, position 2 presents the lowest final unburned carbon emission of 0.36 mg, while it produces the highest NOx emission of 9.15 μg. Thus, this study provides important theoretical guidelines for the hydrogen injection strategy of the XRE using hydrogen–gasoline fuel.

Published
2022
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29. Performance Analysis of a Hydrogen-Doped High-Efficiency Hybrid Cycle Rotary Engine in High-Altitude Environments Based on a Single-Zone Model

Author

Zhenghao Yang, Yang Du, Qi Geng, Xu Gao, Haonan Er, Yuanfei Liu, and Guangyu He

Subjects
power attenuation, high-efficiency hybrid cycle rotary engine, hydrogen doping, single-zone model, high-altitude performance, Technology
Abstract

The power attenuation of internal combustion engines in high-altitude environments restricts the performance of unmanned aerial vehicles. Herein, a single-zone model of a hydrogen-doped high-efficiency hybrid cycle rotary engine that considers high-altitude environments was proposed. The indicated values for power, thermal efficiency, and specific fuel cost were used to evaluate the power performance, energy conversion efficiency, and economic performance of the engine, respectively. Then, the effects of adjusting the hydrogen fraction, ignition angle, and rotational speed on high-altitude performance were analyzed. The results showed that high-altitude environments prolonged combustion duration and reduced in-cylinder pressure, thereby causing power attenuation; however, increasing the hydrogen fraction can increase the indicated power. At an altitude of 6 km, the indicated power with a hydrogen fraction of 0.3 was approximately 20.7% higher than that obtained with pure gasoline. The ignition angle and hydrogen fraction corresponding to the optimal indicated thermal efficiency increased with increasing altitude. At an altitude of 6 km, the indicated thermal efficiency reached its maximum (36.4%) at an ignition angle of 340 [CA°] and a hydrogen fraction of 0.15. At high altitudes, rotational speeds below 6000 rpm and ignition angles of 340–345 [CA°] were beneficial in reducing indicated specific fuel costs.

Published
2022
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30. Effect of Surfactants with Different Hydrophilic–Lipophilic Balance on the Cohesive Force between Cyclopentane Hydrate Particles

Author

Qingchao Fang, Xin Zhao, Sunbo Li, Zhengsong Qiu, Zhiyuan Wang, and Qi Geng

Subjects
hydrate blockage, surfactants, HLB value, liquid bridge, cohesion force, surface wettability, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

Effective control of the cohesive force between hydrate particles is the key to prevent their aggregation, which then causes pipeline blockage. The hydrophilic–lipophilic balance (HLB) value of surfactants was proposed as an important parameter for the evaluation and design of hydrate anti-agglomerants. A microscopic manipulation method was used to measure the cohesive forces between cyclopentane hydrate particles in the presence of Tween and Span series surfactants with different HLB values; moreover, the measured cohesive force was compared with the results of calculations based on the liquid bridge force model. Combined with the surface morphology and wettability of the hydrate particles, we analyzed the mechanism by which surfactants with different HLB values influence the cohesion between hydrate particles. The results show that for both Tween (hydrophilic, HLB > 10) and Span (hydrophobic, HLB < 10) surfactants, the cohesive force between cyclopentane hydrate particles decreased with decreasing HLB. The experimental results were in good agreement with the results of calculations based on the liquid bridge force model. The cohesive force between hydrate particles increased with increasing concentration of Tween surfactants, while in the case of the Span series, the cohesive force decreased with increasing surfactant concentration. In the formation process of cyclopentane hydrate particles, the aggregation of low-HLB surfactant molecules at the oil–water or gas–water interface increases the surface roughness and hydrophobicity of the hydrate particles and inhibits the formation of liquid bridges between particles, thus reducing the cohesion between particles. Therefore, the hydrate aggregation and the associated blockage risks can be reduced.

Published
2022
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32. Identification of Sodium- and Chloride-Sensitive Sites in the Slack Channel

Author

Jie Xu, Yan-Tian Lv, Xiao-Yun Zhao, Jing-Jing Wang, Zhong-Shan Shen, Jian Li, Fei-Fei Zhang, Jing Liu, Xiao-Hui Wang, Yun Xu, Qi Geng, Yi-Tong Ding, Jing-Jing Xu, Meng-Jiao Tan, Zhi-Xiao Li, Ran Wang, Jian Chen, Wen Sun, Meng Cui, Diomedes E. Logothetis, Jun-li Cao, Qiong-Yao Tang, and Zhe Zhang

Subjects
General Neuroscience
Abstract

The Slack channel (KCNT1, Slo2.2) is a sodium-activated and chloride-activated potassium channel that regulates heart rate and maintains the normal excitability of the nervous system. Despite intense interest in the sodium gating mechanism, a comprehensive investigation to identify the sodium-sensitive and chloride-sensitive sites has been missing. In the present study, we identified two potential sodium-binding sites in the C-terminal domain of the rat Slack channel by conducting electrophysical recordings and systematic mutagenesis of cytosolic acidic residues in the rat Slack channel C terminus. In particular, by taking advantage of the M335A mutant, which results in the opening of the Slack channel in the absence of cytosolic sodium, we found that among the 92 screened negatively charged amino acids, E373 mutants could completely remove sodium sensitivity of the Slack channel. In contrast, several other mutants showed dramatic decreases in sodium sensitivity but did not abolish it altogether. Furthermore, molecular dynamics (MD) simulations performed at the hundreds of nanoseconds timescale revealed one or two sodium ions at the E373 position or an acidic pocket composed of several negatively charged residues. Moreover, the MD simulations predicted possible chloride interaction sites. By screening predicted positively charged residues, we identified R379 as a chloride interaction site. Thus, we conclude that the E373 site and the D863/E865 pocket are two potential sodium-sensitive sites, while R379 is a chloride interaction site in the Slack channel.SIGNIFICANCE STATEMENTThe research presented here identified two distinct sodium and one chloride interaction sites located in the intracellular C-terminal domain of the Slack (Slo2.2, KCNT1) channel. Identification of the sites responsible for the sodium and chloride activation of the Slack channel sets its gating property apart from other potassium channels in the BK channel family. This finding sets the stage for future functional and pharmacological studies of this channel.

Published
2023
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34. Effect of contact characteristics on the self-rotation performance of conical picks based on impact dynamics modelling

Author

Xiaohui Liu and Qi Geng

Subjects
conical pick, rock, self-rotation, impact dynamics, wear, Science
Abstract

Conical picks have a harsh working environment and 70% of their failures are caused by wear. It has been found that conical picks can rotate while interacting with the working material. This self-rotation ability is an important factor affecting pick wear, but the self-rotation mechanism remains unclear. Researching the mechanism involves the impact and friction dynamics of the interaction between a pick and its holder. Thus, a dynamic finite-element numerical model for the pick–holder interaction is established. How the handle–holder gap width, pick body and handle lengths and pick handle diameter affect the settling time and the percentage of time with no contact is studied to compare the numerical results with the equivalent effects on the rotation angle in experiments. Doing so indicates that the main factor in the self-rotation ability of a conical pick is not the magnitude of the contact load but its duration. The present research provides a new method for revealing the mechanism for the self-rotation of conical picks.

Published
2020
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35. Transcriptome analysis reveals the molecular mechanisms of the defense response to gray leaf spot disease in maize

Author

Yang Yu, Jianyang Shi, Xiyang Li, Jian Liu, Qi Geng, Haichun Shi, Yongpei Ke, and Qun Sun

Subjects
Gray leaf spot (GLS), RNA-seq, WGCNA, Disease resistance, Maize, MRM, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Gray leaf spot (GLS), which is caused by the necrotrophic fungi Cercospora zeae-maydis and Cercospora zeina, is one of the most impactful diseases in maize worldwide. The aim of the present study is to identify the resistance genes and understand the molecular mechanisms for GLS resistance. Results Two cultivars, ‘Yayu889’ and ‘Zhenghong532,’ which are distinguished as resistant and susceptible cultivars, respectively, were challenged with the GLS disease and a RNA-seq experiment was conducted on infected plants at 81, 89, 91, and 93 days post planting (dap). Compared with the beginning stage at 81 dap, 4666, 1733, and 1166 differentially expressed genes (DEGs) were identified at 89, 91, and 93 dap, respectively, in ‘Yayu889,’ while relatively fewer, i.e., 4713, 881, and 722 DEGs, were identified in ‘Zhenghong532.’ Multiple pathways involved in the response of maize to GLS, including ‘response to salicylic acid,’ ‘protein phosphorylation,’ ‘oxidation-reduction process,’ and ‘carotenoid biosynthetic process,’ were enriched by combining differential expression analysis and Weighted Gene Co-expression Network Analysis (WGCNA). The expression of 12 candidate resistance proteins in these pathways were quantified by the multiple reaction monitoring (MRM) method. This approach identified two candidate resistance proteins, a calmodulin-like protein and a leucine-rich repeat receptor-like protein kinase with SNPs that were located in QTL regions for GLS resistance. Metabolic analysis showed that, compared with ‘Zhenghong532,’ the amount of salicylic acid (SA) and total carotenoids in ‘Yayu889’ increased, while peroxidase activity decreased during the early infection stages, suggesting that increased levels of SA, carotenoids, and reactive oxygen species (ROS) may enhance the defense response of ‘Yayu889’ to GLS. Conclusion By combining transcriptome and proteome analyses with comparisons of resistance QTL regions, calmodulin-like protein and leucine-rich repeat receptor-like protein kinase were identified as candidate GLS resistance proteins. Moreover, we found that the metabolic pathways for ROS, SA, and carotenoids are especially active in the resistant cultivar. These findings could lead to a better understanding of the GLS resistance mechanisms and facilitate the breeding of GLS-resistant maize cultivars.

Published
2018
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41. Agonist-specific voltage-dependent gating of lysosomal two-pore Na+ channels

Author

Xiaoli Zhang, Wei Chen, Ping Li, Raul Calvo, Noel Southall, Xin Hu, Melanie Bryant-Genevier, Xinghua Feng, Qi Geng, Chenlang Gao, Meimei Yang, Kaiyuan Tang, Marc Ferrer, Juan Jose Marugan, and Haoxing Xu

Subjects
lysosomal two-pore channels, tri-cyclic antidepressants, whole-endolysosome patch clamp, lysosomal Na+ channels, Medicine, Science, Biology (General), QH301-705.5
Abstract

Mammalian two-pore-channels (TPC1, 2; TPCN1, TPCN2) are ubiquitously- expressed, PI(3,5)P2-activated, Na+-selective channels in the endosomes and lysosomes that regulate luminal pH homeostasis, membrane trafficking, and Ebola viral infection. Whereas the channel activity of TPC1 is strongly dependent on membrane voltage, TPC2 lacks such voltage dependence despite the presence of the presumed ‘S4 voltage-sensing’ domains. By performing high-throughput screening followed by lysosomal electrophysiology, here we identified a class of tricyclic anti-depressants (TCAs) as small-molecule agonists of TPC channels. TCAs activate both TPC1 and TPC2 in a voltage-dependent manner, referred to as Lysosomal Na+ channel Voltage-dependent Activators (LyNa-VAs). We also identified another compound which, like PI(3,5)P2, activates TPC2 independent of voltage, suggesting the existence of agonist-specific gating mechanisms. Our identification of small-molecule TPC agonists should facilitate the studies of the cell biological roles of TPCs and can also readily explain the reported effects of TCAs in the modulation of autophagy and lysosomal functions.

Published
2019
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42. Analysis of Electromagnetic Coupling Characteristics of Balise Transmission System Based on Digital Twin

Author

Qi Geng, Yinghong Wen, Dan Zhang, Jianjun Xiao, Yun Zhu, and Linfu Zhu

Subjects
balise transmission system, digital twin, electromagnetic coupling, quantitative evaluation, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The balise transmission system (BTS) is an automatic identification system for vehicle–ground communication based on radio frequency identification (RFID) technology. The electromagnetic coupling characteristics of BTS have a very important effect on the transmission quality of the uplink telegram signals. However, signal transmission problems of BTS often occur due to unreasonable installation mode or parameter setting. In order to solve these problems, it is necessary to fully discuss the electromagnetic coupling characteristics of the BTS. In this paper, the transmission process of energy and data between the onboard antenna unit and the balise was analyzed using digital twin technology. A high-precision dynamic electromagnetic coupling model of the BTS was established from four aspects of three-dimensional structure, physical properties, behavior patterns, and rule restrictions. Then the accuracy of the model was verified by experiments. Finally, the influence of typical parameters on the uplink signal is calculated and analyzed quantitatively. The results showed that compared with other factors discussed in this paper, the vertical distance and the installation mode had greater effects on the uplink signal. These results can be used to guide the engineering installation and related optimization of the BTS.

Published
2021
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44. Exciton properties for MoS2 grown with the horizontal and vertical orientation.

Author

Yang, Ming-Ming, Tan, Li, Gao, Qian, Yan, Qi-Geng, Xia, Wen-Xin, Liu, Yan-Liang, Hu, Xiao-Wen, Wu, Chun-Lin, Liang, Bao-Lai, Zhao, Xiao-Hui, Cong, Ri-Dong, and Li, Xiao-Li

Subjects
OPTICAL control, MOLYBDENUM disulfide, OPTICAL properties, ACTIVATION energy, EXCITON theory, PHOTOLUMINESCENCE
Abstract

The exciton properties play a crucial role in controlling the optical properties of molybdenum disulfide (MoS2). In this work, horizontally oriented MoS2 (H-MoS2), horizontally and vertically oriented MoS2 (HV-MoS2), and vertically oriented MoS2 (V-MoS2) on the same SiO2/Si substrate have been synthesized and investigated using temperature-dependent photoluminescence spectroscopy from 7 to 300 K. Except for direct excitons called as A and B peaks, indirect exciton named as I peak is discovered with the splitting of three peaks. Compared with direct excitons, indirect excitons appear to be more susceptible to the orientation of MoS2. The exciton activation energies are larger, and the exciton–phonon coupling is stronger in V-MoS2 than in H-MoS2. The exciton properties of HV-MoS2 are more similar to those of V-MoS2, but there are some unusual phenomena. Our work provides a reference for optoelectronic applications based on transition-metal dichalcogenides represented by MoS2 grown with horizontal and vertical orientations. [ABSTRACT FROM AUTHOR]

Published
2023
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47. Effects and Safety of the Tripterygium Glycoside Adjuvant Methotrexate Therapy in Rheumatoid Arthritis: A Systematic Review and Meta-Analysis

Author

Qi Geng, Bin Liu, Yanfang Ma, Huizhen Li, Nannan Shi, Guilin Ouyang, Zhixing Nie, Jianfeng Yi, Yaolong Chen, Yanping Wang, and Cheng Lu

Subjects
musculoskeletal diseases, Article Subject, Complementary and alternative medicine, education, skin and connective tissue diseases, behavioral disciplines and activities, psychological phenomena and processes
Abstract

Objective. This study aimed to systematically review the efficacy and clinical safety of different courses and doses of tripterygium glycoside (TG) adjuvant methotrexate (MTX) therapy in the treatment of rheumatoid arthritis (RA). Methods. Randomized controlled trials (RCTs) of TG adjuvant MTX therapy in patients with RA were retrieved from SinoMed, China Network Knowledge Infrastructure, WanFang Data, PubMed, Cochrane Library, and Embase from inception to September 30, 2021. The effects and clinical safety evaluations were conducted using RevMan 5.3 software. Results. A total of 9 RCTs and 892 patients with RA were included in this study. In the meta-analysis, a total of 463 and 429 patients were enrolled into the TG adjuvant MTX therapy group and MTX monotherapy group, respectively. In comparison with MTX monotherapy, the results of the analyzed effects showed that the TG adjuvant MTX therapy can achieve 20%, 50%, and 70% improvements in American College of Rheumatology (ACR) criteria ACR20, ACR50, and ACR70 at P = 0.005, P = 0.0001, and P = 0.004, respectively. Simultaneously, the efficacy of the TG adjuvant MTX therapy was improved at either 30 or 60 mg/day over a six-month course compared to MTX monotherapy ( P P = 0.82). TG adjuvant MTX also reduced the expression rate of the swollen joint count, tender joint count, erythrocyte sedimentation rate, rheumatoid factor, and C-reactive protein in subgroup analyses with different courses and doses. In terms of hepatic adverse effects ( P = 0.28), leukopenia ( P = 0.78), gastrointestinal adverse effects ( P = 0.17), cutaneous adverse effects ( P = 0.94), and irregular menstruation adverse effects ( P = 0.29), there was no statistically significant difference with TG adjuvant MTX therapy and MTX monotherapy with different courses and doses. Conclusions. TG adjuvant MTX therapy is more effective than MTX monotherapy and is a safe strategy for RA treatment in doses of 30 or 60 mg/day over a treatment course of six months. However, high-quality multicenter RCT studies with large sample sizes are still needed to confirm the effects and clinical safety of different courses and doses of TG adjuvant MTX therapy.

Published
2022
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49. Modular System-Level Modeling Method for the Susceptibility Prediction of Balise Information Transmission System

Author

Dan Zhang, Yinghong Wen, Jinbao Zhang, Jianjun Xiao, Yali Song, and Qi Geng

Subjects
BTM, electromagnetic susceptibility, modular system-level modeling, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

For high-speed train, balise transmission module (BTM) system is easily interfered with by other equipment of the train. This could cause the train to malfunction. Studying the electromagnetic susceptibility (EMS) of the BTM is very important for the performance and efficiency of the train. In this paper, a modular, system-level modeling method is proposed to predict the EMS of BTM systems. Based on object-oriented technology and a modular method, the BTM system is disassembled into several modules according to the electromagnetic characteristics of the whole system rather than the physical structure. All the modules are mutually independent, and the total EMS could be evaluated by the output of them. The modules of three key elements of electromagnetic compatibility (EMC), i.e., sources, coupling paths, and sensitive equipment, are established by the theoretical method, full-wave simulation method, and black-box test method, respectively, and put into different layers. According to the functions of the BTM system, the EMS of BTM is given by analyzing the interrelation of input and output of modules. Results of the proposed model were verified by measurement.

Published
2020
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50. Energy storage device locating and sizing based on power electronic transformer

Author

Qi Geng and Yan Hu

Subjects
power grids, particle swarm optimisation, energy storage, photovoltaic power systems, power transformers, power electronic transformer, bi-directional energy flow, grid-connected photovoltaic, bi-level programming model, improved particle swarm algorithm, improved particle swarm optimisation algorithm, energy routing strategy, energy storage device, Engineering (General). Civil engineering (General), TA1-2040
Abstract

In this study, firstly, the bi-directional energy flow of grid-connected photovoltaic and energy storage system based on power electronic transformer is demonstrated. Based on this, a bi-level programming model is proposed for the location and capacity of energy storage. The optimisation of the location of the outer layer is based on the improved particle swarm algorithm. The energy storage location is a variable, and network loss as well as PET loss are objective functions. The improved particle swarm optimisation algorithm is still adopted to optimise the capacity in the inner layer. The cost of electricity from the main grid is taken as the objective function, and the economic dispatch is realised based on the energy routing strategy of power electronic transformer.

Published
2019
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